CN108207028A

CN108207028A - A kind of data creation method and device, equipment

Info

Publication number: CN108207028A
Application number: CN201611170042.5A
Authority: CN
Inventors: 袁志锋; 李卫敏
Original assignee: ZTE Corp
Current assignee: ZTE Corp
Priority date: 2016-12-16
Filing date: 2016-12-16
Publication date: 2018-06-26
Anticipated expiration: 2036-12-16
Also published as: WO2018108007A1; CN108207028B

Abstract

The invention discloses a kind of data creation method and device, the method includes：Third sequence is determined according to First ray and the second sequence, wherein, the First ray is obtained from First ray set, and second sequence is obtained from the second arrangement set；Alternatively, the third sequence is determined from third arrangement set；Processing the second data of generation are carried out using first data of third sequence pair.

Description

A kind of data creation method and device, equipment

Technical field

The present invention relates to wireless communication technology field more particularly to a kind of data creation method and device, equipment.

Background technology

The application scenarios of the 5th generation (5th-Generation, 5G) communication technology include enhancing mobile broadband (enhanced Mobile Broadband, eMBB), magnanimity machine type communication (massive Machine Type communication, MMTC), highly reliable low time delay communication (Ultra Reliability Low Latency Communication, URLLC).Its In, for eMBB scenes for supporting mobile broadband, main business demand is the transmission of big data packet, high data rate, spectral efficient； For mMTC scenes for bulk device to be supported to communicate, main business demand is bulk device, transmitting small data packets.At present, international electricity Believe alliance (International Telecommunications Union, ITU) and third generation partner program (3rd Generation Partnership Project, 3GPP) determining design object be support 1,000,000 equipment/square kilometre Connection Density；For URLLC scenes for highly reliable low time delay to be supported to communicate, main business demand is highly reliable, low time delay transmission.

It can for the demand and URLLC scene height of 5G communication technology mMTC scenes bulk device, transmitting small data packets It leans on, the demand of low time delay transmission, it is traditional to have been expired based on communication processes designs such as terminal random access, base station scheduling controls Foot, main cause are that system access place capacity is limited, access time-consuming, signaling overheads is big with data transmission procedure etc..

In order to meet these 5G communication technology demands, it may be considered that use based on the transmission method for exempting from scheduling, when terminal is set For when needing transmission data, you can data transmission is carried out, saves the random access procedure of very long complexity and scheduling controlling process, from And propagation delay time and signaling overheads can be substantially reduced.

For the periodic group business in URLLC scenes, it is traditional based on semi-static period scheduling of resource/reserved (for example, Semi-Persistent Scheduling, SPS) orthogonal access way may be considered it is a kind of efficiently exempt from dynamic dispatching, Low time delay access way.It can ensure efficient resource utilization with the matched period scheduling of resource of business generating period/reserved, Also, each user's exclusive resource, without inter-user interference, performance can also be guaranteed.

And class business is triggered for the event in URLLC scenes, traditional periodic scheduling/reserved orthogonal resource often obtains Less than making full use of.If scheduling/reservation period of orthogonal resource is longer, resource utilization is higher, but terminal access needs The average time treated is longer, is more difficult to guarantee ultralow time delay demand；If scheduling/reservation period of orthogonal resource is shorter, terminal connects Entering needs the average time waited for shorter, is more easily guaranteed that ultralow time delay demand, but the vacancy rate of resource will be higher, utilization rate Also it is lower.

In order to improve the utilization rate of periodic scheduling/reserved resource, a kind of method is that multiple event triggering class service-users are total to It enjoys using same transfer resource (such as time/frequency source block), the vacancy rate of resource can be reduced in this way, but will appear multiple The situation that user is accessed and transmitted on the transfer resource simultaneously, that is, collide, this can seriously affect URLLC business biography Defeated reliability.

Solving a kind of method of collision is, user data provides after being extended by the extended code of low cross-correlation in shared transmission It is transmitted on source, then, even if colliding, can also Multiuser Detection performance be ensured by the extended code of low cross-correlation.No It crosses, user data needs to occupy more resources after sequence extension, for example, sequence spreading length is L, in order to accommodate extension Information afterwards, then transfer resource need to become larger L times.But if using low cross-correlation extended code, relative to the side not extended Formula can support K*L times of user, it may be considered that K times of user's Overflow RateHT can be obtained using the extended code of low cross-correlation, That is it also is able to significantly improve system spectral while low time delay access is ensured using the extended code of low cross-correlation is potential Efficiency.

Therefore, it may be considered that exempt from scheduled transmission by the way of code point or sequence spreading to realize, for example, by using low mutual The extended code or sequence spreading of pass are extended, and this mode is conducive to multiple users and is multiplexed on identical transfer resource, Be conducive to detect multiple while access terminal device, so as to advantageously account for resource collision problem, ensure low time delay access, with And improve system spectral efficiency.Wherein, the design of code or sequence is extremely important, a certain number of codes or sequence with relatively low cross-correlation Row are conducive to the complexity that scheduled transmission is exempted from control, efficiently exempt from scheduled transmission so as to realize.

At present, 3GPP tissues are studying new wireless access technology (the New Radio Access that assessment meets 5G demands Technology, NR or New RAT), it is mMTC scenes, the hot-candidate skill of URLLC scenes based on the transmission technology for exempting to dispatch Art scheme.

But, NR not yet determines specifically to exempt from scheduled transmission technical solution at present, for exempting to adjust based on code point or extension Transmission technology is spent, at present also without specific code or the designing scheme of sequence.

Invention content

In order to solve the above technical problems, an embodiment of the present invention provides a kind of data creation method and device, equipment, it can It is used to implement and exempts from scheduled transmission, also, with relatively low sequence storage demand and computational complexity.

On the one hand, an embodiment of the present invention provides a kind of data creation method, including：

Third sequence is determined according to First ray and the second sequence, wherein, the First ray is from First ray set It obtains, second sequence is obtained from the second arrangement set；Alternatively, the third sequence is determined from third arrangement set；

Processing the second data of generation are carried out using first data of third sequence pair；

Wherein, the First ray set include comprising M length be L sequence the first specified sequence set, and/or The arrangement set handled the first specified sequence set；

Wherein, second arrangement set include comprising N length be C sequence the second specified sequence set, and/or The arrangement set handled the second specified sequence set；

Wherein, the third arrangement set includes at least one of：Third comprising the sequence that P length is W is specified Arrangement set；The second specified sequence set；The arrangement set handled the second specified sequence set；Root The arrangement set obtained according to the First ray set and second arrangement set；

Wherein, M, L, N, C, P, W are positive integer.

In said program, in the first specified sequence set described in when determining third sequence according to First ray and the second sequence Sequential element value or

The sequential element during third sequence in the third specified sequence set is determined from third arrangement set Value,

Both from least one following set：

{ 1,1i, -1, -1i }；{ 1, -1 }；{ 1i, -1i }；{1}；{-1}；{1i}；{-1i}；1+1i, -1+1i, -1-1i, 1-1i}；{0}；1,1i, and -1, -1i, 0 }；1+1i, -1+1i, and -1-1i, 1-1i, 0 }；1,1i, and -1, -1i, 2,2i, -2, -2i, 0}；Wherein, i is imaginary unit, i=sqrt (- 1).

In said program, when determining third sequence according to First ray and the second sequence or

The third sequence is determined from third arrangement set, and the third arrangement set is included according to First ray collection When closing the arrangement set obtained with the second arrangement set,

The first specified sequence set, including at least one following arrangement sets：

Arrangement set 1：

The arrangement set 1, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1,1i, -1i],

Third sequence is [1,1i, 1, -1i],

4th sequence is [1,1i, 1i, -1]；

Arrangement set 2：

The arrangement set 2, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1, -1],

Second sequence is [1,1,1i, 1i],

Third sequence is [1,1i, 1,1i],

4th sequence is [1,1i, 1i, 1]；

Arrangement set 3：

The arrangement set 2, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1i],

Second sequence is [1,1,1i, 1],

Third sequence is [1,1i, 1,1],

4th sequence is [1,1i, 1i, -1i]；

Arrangement set 4：

The arrangement set 4, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1, -1i],

Second sequence is [1,1,1i, -1],

Third sequence is [1,1i, 1, -1],

4th sequence is [1,1i, 1i, 1i]；

Arrangement set 5：

The arrangement set 5, comprising the sequence that 1 length is 2, wherein,

First ray is [1,1]；

Arrangement set 6：

The arrangement set 6, comprising the sequence that 1 length is 2, wherein,

First ray is [1, -1]；

Arrangement set 7：

The arrangement set 7, comprising the sequence that 1 length is 2, wherein,

First ray is [1,1i]；

Arrangement set 8：

The arrangement set 8, comprising the sequence that 1 length is 2, wherein,

First ray is [1, -1i]；

Arrangement set 9：

The arrangement set 9, comprising the sequence that 4 length are 1, wherein,

First ray is [1],

Second sequence is [1i],

Third sequence is [- 1],

4th sequence is [- 1i]；

Arrangement set 10：

The arrangement set 10, comprising the sequence that 4 length are 1, wherein,

First ray is [1+1i],

Second sequence is [- 1+1i],

Third sequence is [- 1-1i],

4th sequence is [1-1i]；

Arrangement set 11：

The arrangement set 11, comprising the sequence that 2 length are 1, wherein,

First ray is [1],

Second sequence is [- 1]；

Arrangement set 12：

The arrangement set 12, comprising the sequence that 2 length are 1, wherein,

First ray is [1i],

Second sequence is [- 1i]；

Arrangement set 13：

The arrangement set 13, comprising the sequence that 1 length is 1, wherein,

First ray is [1]；

Arrangement set 14：

The arrangement set 14, comprising the sequence that 1 length is 1, wherein,

First ray is [- 1]；

Arrangement set 15：

The arrangement set 15, comprising the sequence that 1 length is 1, wherein,

First ray is [1i]；

Arrangement set 16：

The arrangement set 16, comprising the sequence that 1 length is 1, wherein,

First ray is [- 1i]；

Arrangement set 17：

The arrangement set 17, comprising the sequence that 4 length are 3, wherein,

First ray is [1,1,1]；

Second sequence is [1, -1, -1],

Third sequence is [- 1,1, -1],

4th sequence is [- 1,1,1]；

Wherein, i is imaginary unit, i=sqrt (- 1).

The sequence in the first specified sequence set is handled, including：

The X sequential element of every sequence in the first specified sequence set or every sequence is multiplied by 1,1i ,- 1 or -1i or the A powers for being multiplied by 1i；Alternatively,

B* π's is carried out to the X sequential element of every sequence in the first specified sequence set or every sequence Exp (j*B* π) is multiplied by phase adjustment or rotation, and j is imaginary unit, j=sqrt (- 1)；Alternatively,

The X sequential element of every sequence in the first specified sequence set or every sequence is multiplied by specified Value is multiplied by designated value respectively；

Wherein, X is the integer more than or equal to 1 and less than or equal to L, and A is integer, and B is real number.

The third sequence is determined from third arrangement set, and the third arrangement set includes the second specified sequence collection The arrangement set that close, is handled to the second specified sequence set, according to First ray set and the second sequence sets When closing at least one obtained arrangement set,

The second specified sequence set includes at least one of：

Hadamard sequences set；

Walsh sequence set；

Discrete Fourier transform arrangement set；

The set of the sequence of 0 element comprising specified quantity or designated ratio；

Unit matrix arrangement set.

The third sequence is determined from third arrangement set, and the third arrangement set includes the second specified sequence collection The arrangement set that close, is handled to the second specified sequence set is obtained according to First ray set and the second arrangement set During at least one arrangement set arrived,

The second specified sequence set, including at least one following arrangement sets；Wherein,

Arrangement set 1：

The arrangement set 1, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1, -1, -1],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1, -1,1]；

Arrangement set 2：

The arrangement set 2, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1i, -1, -1i],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1i, -1,1i]；

Arrangement set 3：

The arrangement set 3, comprising the sequence that 2 length are 2, wherein,

First ray is [1,1],

Second sequence is [1, -1]；

Arrangement set 4：

The arrangement set 4, comprising the sequence that 1 length is 1, wherein,

First ray is [1]；

Arrangement set 5：

The arrangement set 5, comprising the sequence that 6 length are 4, wherein,

First ray is [1,1,0,0],

Second sequence is [1,0,1,0],

Third sequence is [1,0,0,1],

4th sequence is [0,1,1,0],

5th sequence is [0,1,0,1],

6th sequence is [0,0,1,1]；

Arrangement set 6：

The arrangement set 6, comprising the sequence that 4 length are 6, wherein,

First ray is [1,1,1,0,0,0],

Second sequence is [1,0,0,1,1,0],

Third sequence is [0,1,0,0,1,1],

4th sequence is [0,0,1,1,0,1],

Arrangement set 7：

The arrangement set 7, comprising the sequence that 4 length are 6, wherein,

First ray is [1,0,1,0,1,0],

Second sequence is [1,0,0,1,0,1],

Third sequence is [0,1,1,0,0,1],

4th sequence is [0,1,0,1,1,0],

Arrangement set 8：

The arrangement set 8, comprising the sequence that 4 length are 4, wherein,

First ray is [1,0,0,0],

Second sequence is [0,1,0,0],

Third sequence is [0,0,1,0],

4th sequence is [0,0,0,1]；

Arrangement set 9：

The arrangement set 9, comprising the sequence that 6 length are 6, wherein,

First ray is [1,1,1,1,1,1],

Second sequence is [1,1,1i, -1, -1, -1i],

Third sequence is [1,1i, -1i, 1i, -1i, -1],

4th sequence is [1, -1,1, -1i, -1,1i],

5th sequence is [1, -1, -1,1,1i, -1i],

6th sequence is [1, -1i, -1, -1,1,1i]；

Wherein, i is imaginary unit, i=sqrt (- 1).

The sequence in the second specified sequence set is handled, including：

The Y sequential element of every sequence in the second specified sequence set or every sequence is multiplied by 1,1i ,- 1 or -1i or the E powers for being multiplied by 1i；Alternatively,

F* π's is carried out to the Y sequential element of every sequence in the second specified sequence set or every sequence Phase adjustment or rotation, alternatively, be multiplied by exp (j*F* π), j is imaginary unit, j=sqrt (- 1)；Alternatively,

The Y sequential element of every sequence in the second specified sequence set or every sequence is multiplied by specified Value is multiplied by designated value respectively；

Wherein, Y is the integer more than or equal to 1 and less than or equal to C, and E is integer, and F is real number.

In said program, when the third sequence is determined from third arrangement set,

The third specified sequence set includes at least one following arrangement sets：

Arrangement set 1：

The arrangement set 1, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1, -1, -1],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1, -1,1],

5th sequence is [1,1,1i, -1i],

6th sequence is [1,1, -1i, 1i],

7th sequence is [1, -1,1i, 1i],

8th sequence is [1, -1, -1i, -1i],

9th sequence is [1,1i, 1, -1i],

Tenth sequence is [1,1i, -1,1i],

11st sequence is [1, -1i, 1,1i],

12nd sequence is [1, -1i, -1, -1i],

13rd sequence is [1,1i, 1i, -1],

14th sequence is [1,1i, -1i, 1],

15th sequence is [1, -1i, 1i, 1],

16th sequence is [1, -1i, -1i, -1]；

Arrangement set 2：

The arrangement set 2, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1, -1],

Second sequence is [1,1, -1,1],

Third sequence is [1, -1,1,1],

4th sequence is [1, -1, -1, -1],

5th sequence is [1,1,1i, 1i],

6th sequence is [1,1, -1i, -1i],

7th sequence is [1, -1,1i, -1i],

8th sequence is [1, -1, -1i, 1i],

9th sequence is [1,1i, 1,1i],

Tenth sequence is [1,1i, -1, -1i],

11st sequence is [1, -1i, 1, -1i],

12nd sequence is [1, -1i, -1,1i],

13rd sequence is [1,1i, 1i, 1],

14th sequence is [1,1i, -1i, -1],

15th sequence is [1, -1i, 1i, -1],

16th sequence is [1, -1i, -1i, 1]；

Arrangement set 3：

The arrangement set 3, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1,1i],

Second sequence is [1,1, -1, -1i],

Third sequence is [1, -1,1, -1i],

4th sequence is [1, -1, -1,1i],

5th sequence is [1,1,1i, 1],

6th sequence is [1,1, -1i, -1],

7th sequence is [1, -1,1i, -1],

8th sequence is [1, -1, -1i, 1],

9th sequence is [1,1i, 1,1],

Tenth sequence is [1,1i, -1, -1],

11st sequence is [1, -1i, 1, -1],

12nd sequence is [1, -1i, -1,1],

13rd sequence is [1,1i, 1i, -1i],

14th sequence is [1,1i, -1i, 1i],

15th sequence is [1, -1i, 1i, 1i],

16th sequence is [1, -1i, -1i, -1i]；

Arrangement set 4：

The arrangement set 4, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1, -1i],

Second sequence is [1,1, -1,1i],

Third sequence is [1, -1,1,1i],

4th sequence is [1, -1, -1, -1i],

5th sequence is [1,1,1i, -1],

6th sequence is [1,1, -1i, 1],

7th sequence is [1, -1,1i, 1],

8th sequence is [1, -1, -1i, -1],

9th sequence is [1,1i, 1, -1],

Tenth sequence is [1,1i, -1,1],

11st sequence is [1, -1i, 1,1],

12nd sequence is [1, -1i, -1, -1],

13rd sequence is [1,1i, 1i, 1i],

14th sequence is [1,1i, -1i, -1i],

15th sequence is [1, -1i, 1i, -1i],

16th sequence is [1, -1i, -1i, 1i]；

Arrangement set 5：

The arrangement set 5, comprising the sequence that 32 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1i, -1, -1i],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1i, -1,1i],

5th sequence is [1,1,1i, -1i],

6th sequence is [1,1i, -1i, -1],

7th sequence is [1, -1,1i, 1i],

8th sequence is [1, -1i, -1i, 1],

9th sequence is [1,1i, 1, -1i],

Tenth sequence is [1, -1, -1, -1],

11st sequence is [1, -1i, 1,1i],

12nd sequence is [1,1, -1,1],

13rd sequence is [1,1i, 1i, -1],

14th sequence is [1, -1, -1i, 1i],

15th sequence is [1, -1i, 1i, 1],

16th sequence is [1,1, -1i, -1i],

17th sequence is [1,1,1, -1],

18th sequence is [1,1i, -1,1i],

19th sequence is [1, -1,1,1],

20th sequence is [1, -1i, -1, -1i],

21st sequence is [1,1,1i, 1i],

22nd sequence is [1,1i, -1i, 1],

23rd sequence is [1, -1,1i, -1i],

24th sequence is [1, -1i, -1i, -1],

25th sequence is [1,1i, 1,1i],

26th sequence is [1, -1, -1,1],

27th sequence is [1, -1i, 1, -1i],

28th sequence is [1,1, -1, -1],

29th sequence is [1,1i, 1i, 1],

30th sequence is [1, -1, -1i, -1i],

31st sequence is [1, -1i, 1i, -1],

32nd sequence is [1,1, -1i, 1i]；

Arrangement set 6：

The arrangement set 6, comprising the sequence that 32 length are 4, wherein,

First ray is [1,1,1,1i],

Second sequence is [1,1i, -1,1],

Third sequence is [1, -1,1, -1i],

4th sequence is [1, -1i, -1, -1],

5th sequence is [1,1,1i, 1],

6th sequence is [1,1i, -1i, -1i],

7th sequence is [1, -1,1i, -1],

8th sequence is [1, -1i, -1i, 1i],

9th sequence is [1,1i, 1,1],

Tenth sequence is [1, -1, -1, -1i],

11st sequence is [1, -1i, 1, -1],

12nd sequence is [1,1, -1, i],

13rd sequence is [1,1i, 1i, -1i],

14th sequence is [1, -1, -1i, -1],

15th sequence is [1, -1i, 1i, i],

16th sequence is [1,1, -1i, 1],

17th sequence is [1,1,1, -1i],

18th sequence is [1,1i, -1, -1],

19th sequence is [1, -1,1,1i],

20th sequence is [1, -1i, -1,1],

21st sequence is [1,1,1i, -1],

22nd sequence is [1,1i, -1i, 1i],

23rd sequence is [1, -1,1i, 1],

24th sequence is [1, -1i, -1i, -1i],

25th sequence is [1,1i, 1, -1],

26th sequence is [1, -1, -1,1i],

27th sequence is [1, -1i, 1,1],

28th sequence is [1,1, -1, -1i],

29th sequence is [1,1i, 1i, 1i],

30th sequence is [1, -1, -1i, 1],

31st sequence is [1, -1i, 1i, -1i],

32nd sequence is [1,1, -1i, -1]；

Arrangement set 7：

The arrangement set 7, comprising the sequence that 4 length are 4, wherein,

First ray is [1,0,0,0],

Second sequence is [0,1,0,0],

Third sequence is [0,0,1,0],

4th sequence is [0,0,0,1]；

Arrangement set 8：

The arrangement set 8, comprising the sequence that 16 length are 6, wherein,

First ray is [1,0,1,0,1,0],

Second sequence is [- 1,0,1,0, -1,0],

Third sequence is [1,0, -1,0, -1,0],

4th sequence is [- 1,0, -1,0,1,0],

5th sequence is [1,0,0,1,0,1],

6th sequence is [- 1,0,0,1,0, -1],

7th sequence is [1,0,0, -1,0, -1],

8th sequence is [- 1,0,0, -1,0,1],

9th sequence is [0,1,1,0,0,1],

Tenth sequence is [0, -1,1,0,0, -1],

11st sequence is [0,1, -1,0,0, -1],

12nd sequence is [0, -1, -1,0,0,1],

13rd sequence is [0,1,0,1,1,0],

14th sequence is [0, -1,0,1, -1,0],

15th sequence is [0,1,0, -1, -1,0],

16th sequence is [0, -1,0, -1,1,0]；

Arrangement set 9：

The arrangement set 9, comprising the sequence that 16 length are 6, wherein,

First ray is [1,1,1,0,0,0],

Second sequence is [- 1,1, -1,0,0,0],

Third sequence is [1, -1, -1,0,0,0],

4th sequence is [- 1, -1,1,0,0,0],

5th sequence is [0,0,1,1,1,0],

6th sequence is [0,0, -1, -1,1,0],

7th sequence is [0,0, -1,1, -1,0],

8th sequence is [0,0,1, -1, -1,0],

9th sequence is [1,0,0,0,1,1],

Tenth sequence is [- 1,0,0,0,1, -1],

11st sequence is [1,0,0,0, -1, -1],

12nd sequence is [- 1,0,0,0, -1,1],

13rd sequence is [0,1,0,1,0,1],

14th sequence is [0,1,0, -1,0, -1],

15th sequence is [0, -1,0,1,0, -1],

16th sequence is [0, -1,0, -1,0,1]；

Arrangement set 10：

The arrangement set 10, comprising the sequence that 16 length are 6, wherein,

First ray is [1,1,1,1,1,1],

Second sequence is [1,1,1,1, -1, -1],

Third sequence is [1,1,1, -1,1, -1],

4th sequence is [1,1,1, -1, -1,1],

5th sequence is [1,1, -1,1,1, -1],

6th sequence is [1,1, -1,1, -1,1],

7th sequence is [1,1, -1, -1,1,1],

8th sequence is [1,1, -1, -1, -1, -1],

9th sequence is [1, -1,1,1,1, -1],

Tenth sequence is [1, -1,1,1, -1,1],

11st sequence is [1, -1,1, -1,1,1],

12nd sequence is [1, -1,1, -1, -1, -1],

13rd sequence is [1, -1, -1,1,1,1],

14th sequence is [1, -1, -1,1, -1, -1],

15th sequence is [1, -1, -1, -1,1, -1],

16th sequence is [1, -1, -1, -1, -1,1]；

Arrangement set 11：

The arrangement set 11, comprising the sequence that 32 length are 4, wherein,

First ray is [1+0i, 1+0i, 1+0i, 1+0i],

Second sequence is [1+0i, 0+1i, -1+0i, -0-1i],

Third sequence is [1+0i, -1+0i, 1+0i, -1+0i],

4th sequence is [1+0i, -0-1i, -1+0i, 0+1i],

5th sequence is [0+2i, -0-1i, 0+2i, 0+1i],

6th sequence is [0+2i, 1+0i, -0-2i, 1+0i],

7th sequence is [0+2i, 0+1i, 0+2i, -0-1i],

8th sequence is [0+2i, -1+0i, -0-2i, -1+0i],

9th sequence is [0+2i, -0-1i, -1+0i, 2+0i],

Tenth sequence is [0+2i, 1+0i, 1+0i-0-2i],

11st sequence is [0+2i, 0+1i, -1+0i, -2+0i],

12nd sequence is [0+2i, -1+0i, 1+0i, 0+2i],

13rd sequence is [0+2i, -0-1i, 0+0i, -1+0i],

14th sequence is [0+2i, 1+0i, 0+0i, 0+1i],

15th sequence is [0+2i, 0+1i, 0+0i, 1+0i],

16th sequence is [0+2i, -1+0i, 0+0i, -0-1i],

17th sequence is [- 1+0i, -0-1i, -0-2i, -2+0i],

18th sequence is [- 1+0i, 1+0i, 0+2i, 0+2i],

19th sequence is [- 1+0i, 0+1i, -0-2i, 2+0i],

20th sequence is [- 1+0i, -1+0i, 0+2i, -0-2i],

21st sequence is [- 1+0i, -2+0i, 0+2i, 0+1i],

22nd sequence is [- 1+0i, -0-2i, -0-2i, 1+0i],

23rd sequence is [- 1+0i, 2+0i, 0+2i, -0-1i],

24th sequence is [- 1+0i, 0+2i, -0-2i, -1+0i],

25th sequence is [- 1+0i, -2+0i, 1+0i, -2+0i],

26th sequence is [- 1+0i, -0-2i, -1+0i, 0+2i],

27th sequence is [- 1+0i, 2+0i, 1+0i, 2+0i],

28th sequence is [- 1+0i, 0+2i, -1+0i, -0-2i],

29th sequence is [- 1+0i, -2+0i, -0-1i, 0+0i],

30th sequence is [- 1+0i, -0-2i, 0+1i, 0+0i],

31st sequence is [- 1+0i, 2+0i, -0-1i, 0+0i],

32nd sequence is [- 1+0i, 0+2i, 0+1i, 0+0i]；

Wherein, i is imaginary unit, i=sqrt (- 1)；Or

To arrangement set 1, arrangement set 2, arrangement set 3, arrangement set 4, arrangement set 5, arrangement set 6, sequence sets Close the sequence in 7, arrangement set 8, arrangement set 9, arrangement set 10, arrangement set 11 this 11 arrangement sets, respectively into The set that the following any processing of row obtain：

Wherein, any processing, including：

The Y sequential element of every sequence in arrangement set or every sequence is multiplied by 1,1i, -1 or -1i or It is multiplied by the E powers of 1i；Alternatively,

Phase adjustment or the rotation of F* π is carried out to the Y sequential element of every sequence in arrangement set or every sequence Turn, alternatively, be multiplied by exp (j*F* π), j is imaginary unit, j=sqrt (- 1)；Alternatively,

Designated value is multiplied by the Y sequential element of every sequence in arrangement set or every sequence or is multiplied respectively With designated value；

In said program, the third sequence is determined from third arrangement set, and the third arrangement set includes root During the arrangement set obtained according to First ray set and the second arrangement set,

The arrangement set obtained according to the First ray set and second arrangement set, including it is following at least One of：

Any one sequence in the First ray set and any one sequence in second arrangement set into The arrangement set for the Sequence composition that row dot product is handled；

Any one sequence in the First ray set and any one sequence in second arrangement set into The arrangement set for the Sequence composition that row multiplication process obtains；

The element of any one sequence in the First ray set is replaced any one in second arrangement set The arrangement set of Sequence composition that the nonzero element of sequence obtains；

The element of any one sequence in the First ray set and any one in second arrangement set The nonzero element of sequence carries out the arrangement set of Sequence composition that dot product is handled.

The First ray is obtained from First ray set, including one below：

First ray is obtained from the First ray set using randomly selected mode；

According to the first preset rules First ray is obtained from the First ray set；

First ray is obtained from the First ray set according to system configuration information.

Second sequence is obtained from the second arrangement set, including one below：

Second sequence is obtained from second arrangement set using randomly selected mode；

According to the second preset rules the second sequence is obtained from second arrangement set；

Second sequence is obtained from second arrangement set according to system configuration information.

In said program, when determining third sequence according to First ray and the second sequence,

It is described that third sequence is determined according to First ray and the second sequence, including：

The First ray and second sequence are subjected to dot product processing, generate third sequence；Alternatively,

The First ray and second sequence are subjected to multiplication process, generate third sequence；Alternatively,

The nonzero element in second sequence is replaced using the element in the First ray, generates third sequence；Or Person,

By what is obtained after the nonzero element progress dot product processing in the element in the First ray and second sequence Value replaces the nonzero element in second sequence, generates third sequence.

The third sequence is determined in the arrangement set from third, including：

The third sequence is obtained from the third arrangement set using randomly selected mode；

The third sequence is obtained from the third arrangement set according to third preset rules；

The third sequence is obtained from the third arrangement set according to system configuration information.

The method further includes one below：

Energy adjusting or energy normalized processing are carried out to the sequence in the First ray set；

Energy adjusting or energy normalized processing are carried out to the First ray；

Energy adjusting or energy normalized processing are carried out to the third sequence；

The third sequence is determined from third arrangement set, and states third arrangement set and does not include according to First ray collection When closing the arrangement set obtained with the second arrangement set,

The method further includes one below：

Energy adjusting or energy normalized processing are carried out to the third sequence.

In said program, the method further includes：

1,1i, -1 or -1i are multiplied by each element or V element of the third sequence, alternatively, being multiplied by G times of 1i Side；Alternatively,

Each element or V element to the third sequence carry out phase adjustment or the rotation of H* π, alternatively, being multiplied by Exp (j*H* π), j are imaginary unit, j=sqrt (- 1)；Alternatively,

Designated value is multiplied by each element or V element of the third sequence；

Wherein, V is the integer of the length more than or equal to 1 and less than or equal to the third sequence, and G is integer, and H is real Number.

It is described to carry out processing the second data of generation using first data of third sequence pair in said program, including：

Processing the second data of generation are extended using first data of third sequence pair；Or,

Mapping processing the second data of generation are carried out using first data of third sequence pair；Or,

Processing the second data of generation are modulated using first data of third sequence pair.

In said program, the method further includes：

Second data are mapped on the transfer resource specified, are used to form transmitting signal and transmission.

In said program, optionally,

First data include at least the identification information of transmitter or terminal；Alternatively,

Including at least the identification information and signaling information for having transmitter or terminal；Alternatively,

Including at least the identification information and data information for having transmitter or terminal；Alternatively,

Including at least identification information, signaling information and the data information for having transmitter or terminal；Alternatively,

Including at least the identification information and cell identity information for having transmitter or terminal；Alternatively,

Including at least the identification information, cell identity information and signaling information for having transmitter or terminal；Alternatively,

Including at least the identification information, cell identity information and data information for having transmitter or terminal；Alternatively,

Including at least identification information, cell identity information, data information and the signaling information for having transmitter or terminal.

In said program, optionally,

Second data include at least the identification information of transmitter or terminal；

Alternatively, including at least the identification information and signaling information that have transmitter or terminal；

Alternatively, including at least the identification information and data information that have transmitter or terminal；

Alternatively, including at least the identification information, signaling information and the data information that have transmitter or terminal；Alternatively,

In said program, the transfer resource specified includes at least one following：Carrier wave, time slot, running time-frequency resource, spatial domain Resource, code domain resource, frequency-hopping mode, antenna port.

In said program, the running time-frequency resource for uplink data channels, either believe by uplink control channel or random access Road.

In said program, first data include at least one of information：Situation of remote, the operation letter of driver Breath, the information and control signaling that vehicle sensors are perceived；Wherein, the situation of remote includes at least one of：Vehicle work Have mark, the vehicle current geographic position, the travel speed of the vehicle, the size of the vehicle, the color of the vehicle； The operation information includes at least one of：The driver is to the ongoing operation of the vehicle, driver's standard The standby operation carried out to the vehicle.

On the other hand, the embodiment of the present invention additionally provides a kind of data generating device, and described device includes：

Determination unit, for determining third sequence according to First ray and the second sequence, wherein, the First ray is from It is obtained in one arrangement set, second sequence is obtained from the second arrangement set；Alternatively, institute is determined from third arrangement set State third sequence；

Generation unit, for carrying out processing the second data of generation using first data of third sequence pair；

Wherein, M, L, N, C, P, W are positive integer.

In said program, first refers to described in when the determination unit determines third sequence according to First ray and the second sequence Determine the sequential element in arrangement set value or

The determination unit is determined during the third sequence from third arrangement set in the third specified sequence set Sequential element value, both from it is following set at least one：

In said program, when the determination unit determines third sequence according to First ray and the second sequence, alternatively, from The third sequence is determined in three arrangement sets, and the third arrangement set is included according to First ray set and the second sequence When gathering obtained arrangement set,

Arrangement set 1：

The arrangement set 1, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1,1i, -1i],

Third sequence is [1,1i, 1, -1i],

4th sequence is [1,1i, 1i, -1]；

Arrangement set 2：

The arrangement set 2, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1, -1],

Second sequence is [1,1,1i, 1i],

Third sequence is [1,1i, 1,1i],

4th sequence is [1,1i, 1i, 1]；

Arrangement set 3：

The arrangement set 2, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1i],

Second sequence is [1,1,1i, 1],

Third sequence is [1,1i, 1,1],

4th sequence is [1,1i, 1i, -1i]；

Arrangement set 4：

The arrangement set 4, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1, -1i],

Second sequence is [1,1,1i, -1],

Third sequence is [1,1i, 1, -1],

4th sequence is [1,1i, 1i, 1i]；

Arrangement set 5：

The arrangement set 5, comprising the sequence that 1 length is 2, wherein,

First ray is [1,1]；

Arrangement set 6：

The arrangement set 6, comprising the sequence that 1 length is 2, wherein,

First ray is [1, -1]；

Arrangement set 7：

The arrangement set 7, comprising the sequence that 1 length is 2, wherein,

First ray is [1,1i]；

Arrangement set 8：

The arrangement set 8, comprising the sequence that 1 length is 2, wherein,

First ray is [1, -1i]；

Arrangement set 9：

The arrangement set 9, comprising the sequence that 4 length are 1, wherein,

First ray is [1],

Second sequence is [1i],

Third sequence is [- 1],

4th sequence is [- 1i]；

Arrangement set 10：

The arrangement set 10, comprising the sequence that 4 length are 1, wherein,

First ray is [1+1i],

Second sequence is [- 1+1i],

Third sequence is [- 1-1i],

4th sequence is [1-1i]；

Arrangement set 11：

The arrangement set 11, comprising the sequence that 2 length are 1, wherein,

First ray is [1],

Second sequence is [- 1]；

Arrangement set 12：

The arrangement set 12, comprising the sequence that 2 length are 1, wherein,

First ray is [1i],

Second sequence is [- 1i]；

Arrangement set 13：

The arrangement set 13, comprising the sequence that 1 length is 1, wherein,

First ray is [1]；

Arrangement set 14：

The arrangement set 14, comprising the sequence that 1 length is 1, wherein,

First ray is [- 1]；

Arrangement set 15：

The arrangement set 15, comprising the sequence that 1 length is 1, wherein,

First ray is [1i]；

Arrangement set 16：

The arrangement set 16, comprising the sequence that 1 length is 1, wherein,

First ray is [- 1i]；

Arrangement set 17：

The arrangement set 17, comprising the sequence that 4 length are 3, wherein,

First ray is [1,1,1]；

Second sequence is [1, -1, -1],

Third sequence is [- 1,1, -1],

4th sequence is [- 1,1,1]；

Wherein, i is imaginary unit, i=sqrt (- 1).

In said program, when the determination unit determines third sequence according to First ray and the second sequence, alternatively, from The third sequence is determined in three arrangement sets, and the third arrangement set is included according to First ray set and the second sequence When gathering obtained arrangement set, it is additionally operable to：

In said program, when the determination unit determines third sequence according to First ray and the second sequence, alternatively, from The third sequence is determined in three arrangement sets, and the third arrangement set includes the second specified sequence set, to described the Arrangement set that two specified sequence set are handled, the sequence obtained according to First ray set and the second arrangement set During at least one set,

The second specified sequence set includes at least one of：

Hadamard sequences set；

Walsh sequence set；

Discrete Fourier transform arrangement set；

Unit matrix arrangement set.

In said program, when the determination unit determines third sequence according to First ray and the second sequence, alternatively, from The third sequence is determined in three arrangement sets, and the third arrangement set includes the second specified sequence set, refers to second Determine the arrangement set that arrangement set is handled, the arrangement set obtained according to First ray set and the second arrangement set At least one when,

Arrangement set 1：

The arrangement set 1, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1, -1, -1],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1, -1,1]；

Arrangement set 2：

The arrangement set 2, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1i, -1, -1i],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1i, -1,1i]；

Arrangement set 3：

The arrangement set 3, comprising the sequence that 2 length are 2, wherein,

First ray is [1,1],

Second sequence is [1, -1]；

Arrangement set 4：

The arrangement set 4, comprising the sequence that 1 length is 1, wherein,

First ray is [1]；

Arrangement set 5：

The arrangement set 5, comprising the sequence that 6 length are 4, wherein,

First ray is [1,1,0,0],

Second sequence is [1,0,1,0],

Third sequence is [1,0,0,1],

4th sequence is [0,1,1,0],

5th sequence is [0,1,0,1],

6th sequence is [0,0,1,1]；

Arrangement set 6：

The arrangement set 6, comprising the sequence that 4 length are 6, wherein,

First ray is [1,1,1,0,0,0],

Second sequence is [1,0,0,1,1,0],

Third sequence is [0,1,0,0,1,1],

4th sequence is [0,0,1,1,0,1],

Arrangement set 7：

The arrangement set 7, comprising the sequence that 4 length are 6, wherein,

First ray is [1,0,1,0,1,0],

Second sequence is [1,0,0,1,0,1],

Third sequence is [0,1,1,0,0,1],

4th sequence is [0,1,0,1,1,0],

Arrangement set 8：

The arrangement set 8, comprising the sequence that 4 length are 4, wherein,

First ray is [1,0,0,0],

Second sequence is [0,1,0,0],

Third sequence is [0,0,1,0],

4th sequence is [0,0,0,1]；

Arrangement set 9：

The arrangement set 9, comprising the sequence that 6 length are 6, wherein,

First ray is [1,1,1,1,1,1],

Second sequence is [1,1,1i, -1, -1, -1i],

Third sequence is [1,1i, -1i, 1i, -1i, -1],

4th sequence is [1, -1,1, -1i, -1,1i],

5th sequence is [1, -1, -1,1,1i, -1i],

6th sequence is [1, -1i, -1, -1,1,1i]；

Wherein, i is imaginary unit, i=sqrt (- 1).

In said program, when the determination unit determines third sequence according to First ray and the second sequence, alternatively, from The third sequence is determined in three arrangement sets, and the third arrangement set includes the second specified sequence set, refers to second Determine the arrangement set that arrangement set is handled, the arrangement set obtained according to First ray set and the second arrangement set At least one when, be additionally operable to：

In said program, when the determination unit determines the third sequence from third arrangement set,

Arrangement set 1：

The arrangement set 1, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1, -1, -1],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1, -1,1],

5th sequence is [1,1,1i, -1i],

6th sequence is [1,1, -1i, 1i],

7th sequence is [1, -1,1i, 1i],

8th sequence is [1, -1, -1i, -1i],

9th sequence is [1,1i, 1, -1i],

Tenth sequence is [1,1i, -1,1i],

11st sequence is [1, -1i, 1,1i],

12nd sequence is [1, -1i, -1, -1i],

13rd sequence is [1,1i, 1i, -1],

14th sequence is [1,1i, -1i, 1],

15th sequence is [1, -1i, 1i, 1],

16th sequence is [1, -1i, -1i, -1]；

Arrangement set 2：

The arrangement set 2, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1, -1],

Second sequence is [1,1, -1,1],

Third sequence is [1, -1,1,1],

4th sequence is [1, -1, -1, -1],

5th sequence is [1,1,1i, 1i],

6th sequence is [1,1, -1i, -1i],

7th sequence is [1, -1,1i, -1i],

8th sequence is [1, -1, -1i, 1i],

9th sequence is [1,1i, 1,1i],

Tenth sequence is [1,1i, -1, -1i],

11st sequence is [1, -1i, 1, -1i],

12nd sequence is [1, -1i, -1,1i],

13rd sequence is [1,1i, 1i, 1],

14th sequence is [1,1i, -1i, -1],

15th sequence is [1, -1i, 1i, -1],

16th sequence is [1, -1i, -1i, 1]；

Arrangement set 3：

The arrangement set 3, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1,1i],

Second sequence is [1,1, -1, -1i],

Third sequence is [1, -1,1, -1i],

4th sequence is [1, -1, -1,1i],

5th sequence is [1,1,1i, 1],

6th sequence is [1,1, -1i, -1],

7th sequence is [1, -1,1i, -1],

8th sequence is [1, -1, -1i, 1],

9th sequence is [1,1i, 1,1],

Tenth sequence is [1,1i, -1, -1],

11st sequence is [1, -1i, 1, -1],

12nd sequence is [1, -1i, -1,1],

13rd sequence is [1,1i, 1i, -1i],

14th sequence is [1,1i, -1i, 1i],

15th sequence is [1, -1i, 1i, 1i],

16th sequence is [1, -1i, -1i, -1i]；

Arrangement set 4：

The arrangement set 4, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1, -1i],

Second sequence is [1,1, -1,1i],

Third sequence is [1, -1,1,1i],

4th sequence is [1, -1, -1, -1i],

5th sequence is [1,1,1i, -1],

6th sequence is [1,1, -1i, 1],

7th sequence is [1, -1,1i, 1],

8th sequence is [1, -1, -1i, -1],

9th sequence is [1,1i, 1, -1],

Tenth sequence is [1,1i, -1,1],

11st sequence is [1, -1i, 1,1],

12nd sequence is [1, -1i, -1, -1],

13rd sequence is [1,1i, 1i, 1i],

14th sequence is [1,1i, -1i, -1i],

15th sequence is [1, -1i, 1i, -1i],

16th sequence is [1, -1i, -1i, 1i]；

Arrangement set 5：

The arrangement set 5, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1i, -1, -1i],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1i, -1,1i],

5th sequence is [1,1,1i, -1i],

6th sequence is [1,1i, -1i, -1],

7th sequence is [1, -1,1i, 1i],

8th sequence is [1, -1i, -1i, 1],

9th sequence is [1,1i, 1, -1i],

Tenth sequence is [1, -1, -1, -1],

11st sequence is [1, -1i, 1,1i],

12nd sequence is [1,1, -1,1],

13rd sequence is [1,1i, 1i, -1],

14th sequence is [1, -1, -1i, 1i],

15th sequence is [1, -1i, 1i, 1],

16th sequence is [1,1, -1i, -1i]；

17th sequence is [1,1,1, -1],

18th sequence is [1,1i, -1,1i],

19th sequence is [1, -1,1,1],

20th sequence is [1, -1i, -1, -1i],

21st sequence is [1,1,1i, 1i],

22nd sequence is [1,1i, -1i, 1],

23rd sequence is [1, -1,1i, -1i],

24th sequence is [1, -1i, -1i, -1],

25th sequence is [1,1i, 1,1i],

26th sequence is [1, -1, -1,1],

27th sequence is [1, -1i, 1, -1i],

28th sequence is [1,1, -1, -1],

29th sequence is [1,1i, 1i, 1],

30th sequence is [1, -1, -1i, -1i],

31st sequence is [1, -1i, 1i, -1],

32nd sequence is [1,1, -1i, 1i]；

Arrangement set 6：

The arrangement set 6, comprising the sequence that 32 length are 4, wherein,

First ray is [1,1,1,1i],

Second sequence is [1,1i, -1,1],

Third sequence is [1, -1,1, -1i],

4th sequence is [1, -1i, -1, -1],

5th sequence is [1,1,1i, 1],

6th sequence is [1,1i, -1i, -1i],

7th sequence is [1, -1,1i, -1],

8th sequence is [1, -1i, -1i, 1i],

9th sequence is [1,1i, 1,1],

Tenth sequence is [1, -1, -1, -1i],

11st sequence is [1, -1i, 1, -1],

12nd sequence is [1,1, -1, i],

13rd sequence is [1,1i, 1i, -1i],

14th sequence is [1, -1, -1i, -1],

15th sequence is [1, -1i, 1i, i],

16th sequence is [1,1, -1i, 1],

17th sequence is [1,1,1, -1i],

18th sequence is [1,1i, -1, -1],

19th sequence is [1, -1,1,1i],

20th sequence is [1, -1i, -1,1],

21st sequence is [1,1,1i, -1],

22nd sequence is [1,1i, -1i, 1i],

23rd sequence is [1, -1,1i, 1],

24th sequence is [1, -1i, -1i, -1i],

25th sequence is [1,1i, 1, -1],

26th sequence is [1, -1, -1,1i],

27th sequence is [1, -1i, 1,1],

28th sequence is [1,1, -1, -1i],

29th sequence is [1,1i, 1i, 1i],

30th sequence is [1, -1, -1i, 1],

31st sequence is [1, -1i, 1i, -1i],

32nd sequence is [1,1, -1i, -1]；

Arrangement set 7：

The arrangement set 7, comprising the sequence that 4 length are 4, wherein,

First ray is [1,0,0,0],

Second sequence is [0,1,0,0],

Third sequence is [0,0,1,0],

4th sequence is [0,0,0,1]；

Arrangement set 8：

The arrangement set 8, comprising the sequence that 16 length are 6, wherein,

First ray is [1,0,1,0,1,0],

Second sequence is [- 1,0,1,0, -1,0],

Third sequence is [1,0, -1,0, -1,0],

4th sequence is [- 1,0, -1,0,1,0],

5th sequence is [1,0,0,1,0,1],

6th sequence is [- 1,0,0,1,0, -1],

7th sequence is [1,0,0, -1,0, -1],

8th sequence is [- 1,0,0, -1,0,1],

9th sequence is [0,1,1,0,0,1],

Tenth sequence is [0, -1,1,0,0, -1],

11st sequence is [0,1, -1,0,0, -1],

12nd sequence is [0, -1, -1,0,0,1],

13rd sequence is [0,1,0,1,1,0],

14th sequence is [0, -1,0,1, -1,0],

15th sequence is [0,1,0, -1, -1,0],

16th sequence is [0, -1,0, -1,1,0]；

Arrangement set 9：

The arrangement set 9, comprising the sequence that 16 length are 6, wherein,

First ray is [1,1,1,0,0,0],

Second sequence is [- 1,1, -1,0,0,0],

Third sequence is [1, -1, -1,0,0,0],

4th sequence is [- 1, -1,1,0,0,0],

5th sequence is [0,0,1,1,1,0],

6th sequence is [0,0, -1, -1,1,0],

7th sequence is [0,0, -1,1, -1,0],

8th sequence is [0,0,1, -1, -1,0],

9th sequence is [1,0,0,0,1,1],

Tenth sequence is [- 1,0,0,0,1, -1],

11st sequence is [1,0,0,0, -1, -1],

12nd sequence is [- 1,0,0,0, -1,1],

13rd sequence is [0,1,0,1,0,1],

14th sequence is [0,1,0, -1,0, -1],

15th sequence is [0, -1,0,1,0, -1],

16th sequence is [0, -1,0, -1,0,1]；

Arrangement set 10：

The arrangement set 10, comprising the sequence that 16 length are 6, wherein,

First ray is [1,1,1,1,1,1],

Second sequence is [1,1,1,1, -1, -1],

Third sequence is [1,1,1, -1,1, -1],

4th sequence is [1,1,1, -1, -1,1],

5th sequence is [1,1, -1,1,1, -1],

6th sequence is [1,1, -1,1, -1,1],

7th sequence is [1,1, -1, -1,1,1],

8th sequence is [1,1, -1, -1, -1, -1],

9th sequence is [1, -1,1,1,1, -1],

Tenth sequence is [1, -1,1,1, -1,1],

11st sequence is [1, -1,1, -1,1,1],

12nd sequence is [1, -1,1, -1, -1, -1],

13rd sequence is [1, -1, -1,1,1,1],

14th sequence is [1, -1, -1,1, -1, -1],

15th sequence is [1, -1, -1, -1,1, -1],

16th sequence is [1, -1, -1, -1, -1,1]；

Arrangement set 11：

The arrangement set 11, comprising the sequence that 32 length are 4, wherein,

First ray is [1+0i, 1+0i, 1+0i, 1+0i],

Second sequence is [1+0i, 0+1i, -1+0i, -0-1i],

Third sequence is [1+0i, -1+0i, 1+0i, -1+0i],

4th sequence is [1+0i, -0-1i, -1+0i, 0+1i],

5th sequence is [0+2i, -0-1i, 0+2i, 0+1i],

6th sequence is [0+2i, 1+0i, -0-2i, 1+0i],

7th sequence is [0+2i, 0+1i, 0+2i, -0-1i],

8th sequence is [0+2i, -1+0i, -0-2i, -1+0i],

9th sequence is [0+2i, -0-1i, -1+0i, 2+0i],

Tenth sequence is [0+2i, 1+0i, 1+0i-0-2i],

11st sequence is [0+2i, 0+1i, -1+0i, -2+0i],

12nd sequence is [0+2i, -1+0i, 1+0i, 0+2i],

13rd sequence is [0+2i, -0-1i, 0+0i, -1+0i],

14th sequence is [0+2i, 1+0i, 0+0i, 0+1i],

15th sequence is [0+2i, 0+1i, 0+0i, 1+0i],

16th sequence is [0+2i, -1+0i, 0+0i, -0-1i],

17th sequence is [- 1+0i, -0-1i, -0-2i, -2+0i],

18th sequence is [- 1+0i, 1+0i, 0+2i, 0+2i],

19th sequence is [- 1+0i, 0+1i, -0-2i, 2+0i],

20th sequence is [- 1+0i, -1+0i, 0+2i, -0-2i],

21st sequence is [- 1+0i, -2+0i, 0+2i, 0+1i],

22nd sequence is [- 1+0i, -0-2i, -0-2i, 1+0i],

23rd sequence is [- 1+0i, 2+0i, 0+2i, -0-1i],

24th sequence is [- 1+0i, 0+2i, -0-2i, -1+0i],

25th sequence is [- 1+0i, -2+0i, 1+0i, -2+0i],

26th sequence is [- 1+0i, -0-2i, -1+0i, 0+2i],

27th sequence is [- 1+0i, 2+0i, 1+0i, 2+0i],

28th sequence is [- 1+0i, 0+2i, -1+0i, -0-2i],

29th sequence is [- 1+0i, -2+0i, -0-1i, 0+0i],

30th sequence is [- 1+0i, -0-2i, 0+1i, 0+0i],

31st sequence is [- 1+0i, 2+0i, -0-1i, 0+0i],

32nd sequence is [- 1+0i, 0+2i, 0+1i, 0+0i]；

Wherein, i is imaginary unit, i=sqrt (- 1)；

Wherein, any processing, including：

In said program, the determination unit determines the third sequence, and the third sequence from third arrangement set When row gather the arrangement set including being obtained according to First ray set and the second arrangement set,

The determination unit is additionally operable to through at least one of mode according to the First ray set and described second The arrangement set that arrangement set obtains：

In said program, when the determination unit determines third sequence according to First ray and the second sequence or

The determination unit is additionally operable to obtain First ray from First ray set by one below mode：

First ray is obtained from the First ray set using randomly selected mode；

The determination unit is additionally operable to obtain the second sequence from the second arrangement set by including one of the following mode：

In said program, when the determination unit determines third sequence according to First ray and the second sequence, it is additionally operable to：

In said program, when the determination unit determines the third sequence from third arrangement set, it is additionally operable to：

In said program, described device further includes normalized unit, wherein,

When the determination unit determines third sequence according to First ray and the second sequence, alternatively, from third sequence sets The third sequence is determined in conjunction, and the third arrangement set includes obtaining according to First ray set and the second arrangement set Arrangement set when, the normalized unit is used for：

Energy adjusting or energy normalized processing are carried out to the sequence in the First ray set；Or

Energy adjusting or energy normalized processing are carried out to the First ray；Or

The third sequence is determined from third arrangement set, and state third arrangement set and do not include in the determination unit During the arrangement set obtained according to First ray set and the second arrangement set, the normalized unit is used for：

In said program, the determination unit is additionally operable to：

In said program, the generation unit is additionally operable to：

In said program, described device further includes：

Map unit, for second data to be mapped to the transfer resource specified, be used to form transmitting signal with And it sends.

In said program, optionally,

In another aspect, the embodiment of the present invention additionally provides a kind of equipment, the equipment has included processor and storage The memory of processor-executable instruction is stated, when described instruction is executed by processor, performs following operation：

Wherein, M, L, N, C, P, W are positive integer.

In said program, first is specified described in when the processor determines third sequence according to First ray and the second sequence The value of sequential element in arrangement set, alternatively, determining that the third refers to during the third sequence from third arrangement set The value of the sequential element in arrangement set is determined, both from least one following set：

{ 1,1i, -1, -1i }；{ 1, -1 }；{ 1i, -1i }；{1}；{-1}；{1i}；{-1i}；1+1i, -1+1i, -1-1i, 1-1i}；Wherein, i is imaginary unit, i=sqrt (- 1).

In said program, when the processor determines third sequence according to First ray and the second sequence, alternatively, from third The third sequence is determined in arrangement set, and the third arrangement set is included according to First ray set and the second sequence sets When closing obtained arrangement set, it is additionally operable to：

The processor determines the third sequence from third arrangement set, and states third arrangement set and do not include basis During the arrangement set that First ray set and the second arrangement set obtain, it is additionally operable to：

In said program, the processor is additionally operable to be multiplied by each element or V element of the third sequence 1, 1i, -1 or -1i, alternatively, being multiplied by the G powers of 1i；Alternatively,

In said program, the processor is also used for first data of third sequence pair and is extended processing generation Second data；Or,

In said program, the processor is additionally operable to second data being mapped on the transfer resource specified, and is used for Form transmitting signal and transmission.

In the technical solution of the embodiment of the present invention, third sequence is determined according to First ray and the second sequence, wherein, it is described First ray is obtained from First ray set, and second sequence is obtained from the second arrangement set；Alternatively, from third sequence The third sequence is determined in set；Processing the second data of generation are carried out using first data of third sequence pair；Wherein, institute First ray set is stated to include the first specified sequence set comprising the sequence that M length is L, and/or specify to described first The arrangement set that arrangement set is handled；Wherein, second arrangement set is included comprising the sequence that N length is C The second specified sequence set, and/or the arrangement set that is handled the second specified sequence set；Wherein, institute It states third arrangement set and includes at least one of：Include the third specified sequence set for the sequence that P length is W；Described Two specified sequence set；The arrangement set handled the second specified sequence set；According to the First ray The arrangement set that set and second arrangement set obtain；Wherein, M, L, N, C, P, W are positive integer.Implemented by the present invention The data creation method that example proposes is implemented for exempting from scheduled transmission, also, with relatively low sequence storage demand and operation Complexity.

Description of the drawings

Fig. 1 is a kind of flow diagram of data creation method of the embodiment of the present invention；

Fig. 2 is a kind of application schematic diagram of the data creation method of the embodiment of the present invention；

Fig. 3 is a kind of schematic diagram of the sequential element set of the embodiment of the present invention；

Fig. 4 is another application schematic diagram of the data creation method of the embodiment of the present invention；

Fig. 5 is another schematic diagram of the sequential element set of the embodiment of the present invention；

Fig. 6 is another schematic diagram of the sequential element set of the embodiment of the present invention；

Fig. 7 is the flow diagram of another data creation method of the embodiment of the present invention；

Fig. 8 is a kind of flow diagram of data transmission method of the embodiment of the present invention；

Fig. 9 is a kind of structure composition schematic diagram of data generating device of the embodiment of the present invention；

Figure 10 is that the hardware of data generating device of the embodiment of the present invention forms structure diagram.

Specific embodiment

The characteristics of in order to more fully hereinafter understand the embodiment of the present invention and technology contents, below in conjunction with the accompanying drawings to this hair The realization of bright embodiment is described in detail, appended attached drawing purposes of discussion only for reference, is not used for limiting the embodiment of the present invention.

It should be noted that in the absence of conflict, the feature in embodiment and embodiment in the application can phase Mutually combination.

It should be noted that term " first " in description and claims of this specification and above-mentioned attached drawing, " Two " etc. be the object for distinguishing similar, is not necessarily used to describe specific sequence or precedence.

Embodiment one

An embodiment of the present invention provides a kind of data creation method, applied to end side or base station side, as shown in Figure 1, institute Data creation method is stated to include the following steps：

Step 101：Third sequence is determined according to First ray and the second sequence, wherein, the First ray is from the first sequence It is obtained in row set, second sequence is obtained from the second arrangement set；Alternatively, described the is determined from third arrangement set Three sequences.

Wherein, M, L, N, C, P, W are positive integer.

Here, at least there are two types of methods of determination for third sequence, and one kind is to determine third according to First ray and the second sequence Sequence, wherein, the First ray comes from First ray set, and second sequence comes from the second arrangement set；It is another Kind is that the third sequence is determined from third arrangement set.

Optionally, the value of the first specified sequence set or the sequential element in the third specified sequence set is come From at least one following set：{ 1,1i, -1, -1i }；{ 1, -1 }；{ 1i, -1i }；{1}；{-1}；{1i}；{-1i}；{1+ 1i, -1+1i, -1-1i, 1-1i }；{0}；1,1i, and -1, -1i, 0 }；1+1i, -1+1i, and -1-1i, 1-1i, 0 }；1,1i, -1, - 1i, 2,2i, -2, -2i, 0 }；Wherein, i is imaginary unit, i=sqrt (- 1).

Optionally, the sequence in the first specified sequence set is handled, including：

Wherein, X is the integer more than or equal to 1 and less than or equal to L, and A is integer, and B is real number；

Wherein, X can be multiple values more than or equal to 1 and less than or equal to L.

Optionally, the second specified sequence set includes at least one of：

Hadamard (Hadamard) arrangement set；

Walsh (Walsh) arrangement set；

Discrete Fourier transform (Discrete Fourier Transform, DFT) arrangement set；

Unit matrix arrangement set.

Optionally, the sequence in the second specified sequence set is handled, including：

The Y sequential element of every sequence in the second specified sequence set or every sequence is multiplied by 1,1i ,- 1 or -1i, alternatively, being multiplied by the E powers of 1i；Alternatively,

Wherein, Y is the integer more than or equal to 1 and less than or equal to C, and E is integer, and F is real number；

Wherein, Y can be multiple values more than or equal to 1 and less than or equal to C.

Optionally, the arrangement set obtained according to the First ray set and second arrangement set, including At least one of：

Any one sequence in the First ray set and any one sequence in second arrangement set into The arrangement set for the Sequence composition that row dot product is handled；Here, two sequences point multiplication operation refers to two sequences same position Element multiplication；Such as sequence a=(a1, a2, a3, a4)；The dot product of sequence b=(b1, b2, b3, b4), then sequence a and sequence b Operation result is (a1*b1, a2*b2, a3*b3, a4*b4)；In general, L=C；

It should be noted that third sequence is determined according to First ray and the second sequence；How according to the First ray Set and second arrangement set obtain third arrangement set, are substantially still the behaviour between First ray and the second sequence Make；

Therefore, sequence dot product is mainly the operation between First ray and the second sequence, can not be related to W；

If First ray and the second sequence dot product, then require L=C；

If First ray and " nonzero element of the second sequence " dot product, then L<=C.

Optionally, the First ray is obtained from First ray set, including one below：

First ray is obtained from the First ray set using randomly selected mode；

According to preset rules First ray is obtained from the First ray set；

First ray is obtained from the First ray set according to system configuration information；

Wherein, the preset rules include being calculated according to parameter preset and/or preset formula or preset correspondence Relationship or mapping relations.

Optionally, second sequence is obtained from the second arrangement set, including one below：

According to preset rules the second sequence is obtained from second arrangement set；

Second sequence is obtained from second arrangement set according to system configuration information；

Optionally, third sequence is determined according to the First ray and second sequence, including：

Optionally, the third sequence is determined in the arrangement set from third, including：

The third sequence is obtained from the third arrangement set according to preset rules；

The third sequence is obtained from the third arrangement set according to system configuration information；

Wherein, the preset rules include at least：It is calculated according to parameter preset and/or preset formula, alternatively, default Correspondence or mapping relations.

In said program, optionally, the method further includes one below：

Wherein, energy adjusting is carried out to sequence or energy normalized is handled, the energy that can cause each element of sequence is The gross energy of 1 either sequence is that 1 either the gross energy of sequence is equal to sequence length or the gross energy of sequence is designated value.

Optionally, the method further includes：

Step 102：Processing the second data of generation are carried out using first data of third sequence pair.

Optionally, it is described to carry out processing the second data of generation using first data of third sequence pair, including：

Processing the second data of generation are modulated using first data of third sequence pair；

Wherein, first data include at least the bit or modulation symbol after bit, coding；

Wherein, second data include at least symbol, complex symbol or data symbol.

Further, optionally, the method further includes：

Step 103：Second data are mapped on the transfer resource specified, are used to form transmitting signal and hair It send.

Wherein, the transfer resource specified can be randomly selected, preset or system configuration.

Wherein, the transfer resource includes carrier wave, time slot, running time-frequency resource, spatial domain resource, code domain resource, frequency-hopping mode, day At least one line end mouth etc., the transfer resource can be resource unit, resource block, resource collection, resource pattern definition or Form.

Here, it (or is Physical Uplink Shared Channel (PUSCH Physical that the running time-frequency resource, which is uplink data channels, Uplink Shared Channel)) or uplink control channel (or be Physical Uplink Control Channel (PUCCH Physical Uplink Control Channel)) or random access channel RACH (Random Access Channel) (or being Physical Random Access Channel PRACH Physical Random Access Channel).

Accordingly, second data are mapped on target running time-frequency resource and be transmitted, including：

When the transport packet contains terminal identity identification information；Alternatively, include terminal identity identification information and small Area's identification information either includes terminal identity identification information, cell identity information and signaling information or includes terminal body When part identification information, cell identity information, signaling information and data information, the transmission signal carrier is modulated to institute by transmitter Random access channel or Physical Random Access Channel (PRACH) or uplink control channel are stated (or for physical uplink control letter It is transmitted on road (PUCCH)；

That is, when the transport packet contains terminal identity identification information and data information or includes end End identification information, cell identity information and data information include terminal identity identification information, cell identity information And signaling information or when including terminal identity identification information, cell identity information, data information and signaling information, it is described The transmission signal carrier is modulated on the uplink data channels or Physical Uplink Shared Channel (PUSCH) and carries out by transmitter Transmission.

Further optionally, the first data include at least one of information：Situation of remote, the operation information of driver, this Information that vehicle sensor is perceived (such as a truck blocked behind trolley, then truck its camera is taken the photograph Image is transmitted to trolley below, then is exactly the information that this vehicle imaging sensor perceives) and control signaling；Wherein, the vehicle condition letter Breath includes at least one of：The vehicles identifications, the vehicle current geographic position, the vehicle travel speed, described The color of the size of vehicle, the vehicle；The operation information includes at least one of：The driver to the vehicle just In the operation of progress, the driver prepares the operation carried out to the vehicle.

Driver operation ongoing to the vehicle includes at least one of：Brake starts, accelerates, becoming Road and steering；

Driver prepares to include at least one of to the operation that the vehicle carries out：Prepare brake, prepare to start, prepare Accelerate, prepare lane change and prepare to turn to.

In the embodiment of the present invention, First ray and the second sequence are obtained respectively from First ray set and the second arrangement set Row, are determined by First ray and the second sequence by third sequence to be used；Wherein, the element of the sequence in First ray set It is main to use { 1,1i, -1, -1i }；Alternatively, it is determined from third arrangement set by third sequence to be used.Wherein, the first sequence The element of sequence in row set mainly uses { 1,1i, -1, -1i }；Second arrangement set is Hadamard sequences set, Walsh Arrangement set, DFT sequence set, unit matrix arrangement set etc.；Sequence in First ray set is handled, such as right The last one element of each sequence is multiplied by -1, obtains new arrangement set, can be using the new arrangement set as the first sequence The new arrangement set and original First ray set can also be incorporated as First ray set by row set.Third sequence The element of sequence in row set mainly uses { 1,1i, -1, -1i }；Can according to First ray set and the second sequence sets Symphysis into a larger arrangement set, or a preset larger arrangement set.The present embodiment side of the present invention In case, (transmitter and receiver) can only store 2 smaller arrangement set (i.e. First ray set and the second sequence sets Close), without storing the larger arrangement set for including whole available sequences, there is relatively low storage demand.Sequential element It uses { 1,1i, -1, -1i }, operation is simple, and complexity is relatively low, so as to reduce transmitter extension process, at receiver correlation The computational complexity of reason is conducive to the low time delay demand for meeting URLLC scenes.

For above-mentioned data creation method, explanation is further expalined to the following aspects in the embodiment of the present invention：

(1) data creation method can be applied in transmitter and/or receiver, can be applied to terminal device and/ Or in base station equipment.

(2) i and j can be used as imaginary unit, and equal to sqrt (- 1), the two can represent identical meaning, the present invention There may be the different situations such as 1i, 1j, i, j in description, it is believed that is equivalent.

(3) arrangement set that the present invention and embodiment provide not is unique, based on retouching in the present invention and embodiment It states, other similar arrangement sets can also be obtained, the present invention and embodiment do not describe one by one.

With reference to several using example, data creation method described in Fig. 1 is described in detail.

Using example 1

In the present embodiment, a kind of schematic diagram of data creation method is as shown in Figure 2.

In the present embodiment, the First ray set that data creation method provided by the invention uses is as shown in table 1-1, this One arrangement set includes the sequence that 4 (sequence index 0-3) length are 4 (i.e. each sequence has 4 sequential elements).

Table 1-1

In the present embodiment, the second arrangement set that data creation method provided by the invention uses is as shown in table 1-2, this Two arrangement sets include Hadamard (Hadamard) sequence that 4 length are 4, this 4 Sequence composition hadamard matrixs.

Table 1-2

In the present embodiment, data creation method provided by the invention obtains First ray from First ray set, obtains The mode of First ray includes：

(1) First ray is obtained from First ray set using randomly selected mode；For example, it is generated by random number Device generates a random number, and sequence index is determined using the random number as sequence index or according to the random number and preset rules (for example the random number being subjected to complementation operation to the sequence quantity in First ray set, using remainder as sequence index), root First ray is determined from First ray set according to the sequence index；

(2) according to preset rules First ray is obtained from First ray set；For example, using the value of specified parameter to the Sequence quantity in one arrangement set carries out complementation operation, using remainder as sequence index, according to the sequence index from the first sequence First ray is determined in row set, wherein, specified parameter can be equipment identities identification information etc.；

(3) First ray is obtained from First ray set according to system configuration information；For example, system fixed configurations, half Sequence index used in static configuration, dynamic configuration can then obtain sequence index, then basis according to system configuration information The sequence index determines First ray from First ray set；Due to including 4 sequences in First ray set, when system is led to When crossing configuration signal indicator sequence information, it can be indicated by 2 bits.

In the present embodiment, it is assumed that acquired First ray is the sequence indicated by sequence index 1, abbreviation sequence in table 1-1 Row 1, i.e. [1,1,1i, -1i].

Data creation method provided by the invention also obtains the second sequence from the second arrangement set, obtains the second sequence Mode includes：

(1) the second sequence is obtained from the second arrangement set using randomly selected mode；For example, it is generated by random number Device generates a random number, and sequence index is determined using the random number as sequence index or according to the random number and preset rules (for example the random number being subjected to complementation operation to the sequence quantity in the second arrangement set, using remainder as sequence index), root The second sequence is determined from the second arrangement set according to the sequence index；

(2) the second sequence is obtained from the second arrangement set according to preset rules；For example, using the value of specified parameter to the Sequence quantity in two arrangement sets carries out complementation operation, using remainder as sequence index, according to the sequence index from the second sequence The second sequence is determined in row set, wherein, specified parameter can be equipment identities identification information etc.；

(3) the second sequence is obtained from the second arrangement set according to system configuration information；For example, system fixed configurations, half Sequence index used in static configuration, dynamic configuration can then obtain sequence index, then basis according to system configuration information The sequence index determines the second sequence from the second arrangement set；Due to including 4 sequences in the second arrangement set, when system is led to When crossing configuration signal indicator sequence information, it can be indicated by 2 bits.

In the present embodiment, it is assumed that the second acquired sequence is the sequence indicated by sequence index 0, abbreviation sequence in table 1-2 Row 0, i.e. [1,1,1,1].

Then, data creation method provided by the invention generates third sequence according to First ray and the second sequence, will First ray and the second sequence carry out point multiplication operation generation third sequence, then, which is：[1,1,1i, -1i].

Further, in the present embodiment, data creation method provided by the invention uses generated third sequence pair One data (such as modulation symbol) are extended processing the second data of generation (i.e. treated data symbol), further can general Second data are mapped on the transfer resource specified, and are used to form transmitting signal and transmission.

In the present embodiment, data creation method provided by the invention can also will be in the First ray set shown in table 1-1 Sequence carry out energy adjusting or energy normalized processing so that the gross energy of each sequence is 1；Alternatively, by acquired One sequence carries out energy adjusting or energy normalized processing so that the gross energy of the sequence is 1；Alternatively, the third that will be generated Sequence carries out energy adjusting or energy normalized processing so that the gross energy of the sequence is 1.

In the present embodiment, the sequent in the First ray set is can be seen that from the First ray set shown in table 1-1 The value of element comes from set { 1,1i, -1, -1i }.The element set { 1,1i, -1, -1i } is also denoted as two-dimensional complex number star The formation of seat figure, as shown in Figure 3.

In the present embodiment, First ray set includes the sequence that 4 length are 4, and the second arrangement set also includes 4 length For 4 sequence, any one sequence in any one sequence in First ray set and the second arrangement set is carried out a little Multiplication can generate the sequence that 16 length are 4, as shown in table 1-3 altogether.

Table 1-3

The value that can be seen that the sequential element in the arrangement set from the arrangement set shown in table 1-3 also comes from collection It closes { 1,1i, -1, -1i }.The arrangement set can also be divided into four groups of sequences, respectively sequence 0~3, sequence 4~7, sequence 8 ~11, sequence 12~15；In this four groups of sequences, 4 sequences in every group of sequence are mutually orthogonal；Right and wrong between four groups of sequences Orthogonal, the absolute value for coming from cross-correlation of arbitrary two groups of the two sequences after energy normalized is 0.5.Therefore, table The absolute value of arbitrary cross-correlation of the two sequences after energy normalized is not more than 0.5 in arrangement set shown in 1-3.

In the present embodiment, data creation method provided by the invention has the advantages that：

(1) can the First ray set only shown in storage table 1-1 and the second arrangement set shown in table 1-2, the two Arrangement set is respectively comprising the sequence that 4 length are 4, without including the sequence that 16 length are 4 shown in storage table 1-3 Set, so as to reduce storage demand.

(2) sequential element uses { 1,1i, -1, -1i }, and operation is simple (such as when being extended processing without complicated Multiplication operates, and can only lead to too small amount of add operation and realize), so as to reduce the calculating of transmitter and receiver complexity Degree, is conducive to meet the system design considerations such as low complex degree, low time delay, low cost, low-power consumption.

Using example 2

In the present embodiment, another schematic diagram of data creation method is as shown in Figure 4.

In the present embodiment, the sequence in First ray set is handled, obtains new arrangement set, it can be new by this Arrangement set as First ray set.

In the present embodiment, the First ray collection that data creation method provided by the invention uses is combined into correspondence example 1 The arrangement set that arrangement set shown in table 1-1 is handled；Specifically, to the sequence shown in table 1-1 in application example 1 4th sequential element of every sequence in set be multiplied by -1 or phase adjustment or rotation π, obtain the sequence as shown in table 2-1 Row set, using the arrangement set as First ray set.

Table 2-1

In the present embodiment, the second arrangement set that data creation method provided by the invention uses is as using in example 1 Shown in table 1-2.

In the present embodiment, data creation method provided by the invention obtains First ray from First ray set, obtains The mode of First ray is using as described in example 1, repeated no more；In the present embodiment, it is assumed that acquired First ray is table 2-1 Sequence indicated by middle sequence index 1, i.e. [1,1,1i, 1i].

Data creation method provided by the invention also obtains the second sequence from the second arrangement set, obtains the second sequence Mode is using as described in example 1, repeated no more；In the present embodiment, it is assumed that the second acquired sequence is sequence index in table 1-2 Sequence indicated by 0, i.e. [1,1,1,1].

Then, data creation method provided by the invention generates third sequence according to First ray and the second sequence, will First ray and the second sequence carry out point multiplication operation generation third sequence, then, which is：[1,1,1i, 1i].

In the present embodiment, data creation method provided by the invention uses generated third sequence pair the first data (example Such as modulation symbol) processing the second data of generation (i.e. treated data symbol) are extended, this second can further be counted According to being mapped on the transfer resource specified, it is used to form transmitting signal and transmission.

In the present embodiment, First ray set includes the sequence that 4 length are 4, and the second arrangement set also includes 4 length For 4 sequence, any one sequence in any one sequence in First ray set and the second arrangement set is carried out a little Multiplication can generate the sequence that 16 length are 4, as shown in table 2-2 altogether.

Table 2-2

It is similar with application example 1, it can be seen that the sequential element in the arrangement set from the arrangement set shown in table 2-2 Value be similarly from set { 1,1i, -1, -1i }.The arrangement set can equally be divided into four groups of sequences, respectively sequence 0~3, sequence 4~7, sequence 8~11, sequence 12~15；In this four groups of sequences, 4 sequences in every group of sequence are mutually orthogonal 's；It is non-orthogonal between four groups of sequences, comes from cross-correlation of arbitrary two groups of the two sequences after energy normalized Absolute value is 0.5.Therefore, arbitrary cross-correlation of the two sequences after energy normalized in the arrangement set shown in table 2-2 Absolute value is not more than 0.5.

Arrangement set shown in table 2-1 can also merge with the arrangement set shown in the table 1-1 in application example 1, generate One arrangement set for including the sequence that 8 length are 4, using the arrangement set as First ray set, then by this first Any one sequence in arrangement set carries out point multiplication operation with any one sequence in above-mentioned second arrangement set, can produce Raw one arrangement set for including the sequence that 32 length are 4.This is equivalent to the arrangement set shown in table 2-2 with applying example The arrangement set shown in table 1-3 in 1 is merged.Arbitrary two sequences in the arrangement set are after energy normalized Cross-correlation absolute value no more than sqrt (2)/2, wherein, sqrt () is square root function.At this point, number provided by the invention The First ray set for including the sequence that 8 length are 4 can be stored according to generation method, when system is indicated by configuration signal During the information of used First ray, it can be indicated by 3 bits；Alternatively, it can only store using table 1- in example 1 The arrangement set for including the sequence that 4 length are 4 shown in 1, when system by configuration signal indicate used in First ray Information when, first pass through the sequence in the arrangement set shown in 2 bit dial gauge 1-1, and pass through 1 bit instruction to the sequence The processing that X element carries out (for example, representing to be multiplied by 1 or phase place 0 to the X element of sequence when the bit is 0, is somebody's turn to do It represents to be multiplied by -1 or phase place π to the X element of sequence when bit is 1；Alternatively, the bit is expressed as b0, it will be to sequence The processing of the X element of row is expressed as being multiplied by (2*b0) power of 1i or is multiplied by exp (j*b0* π)), wherein, X can be solid It is fixed or preset, such as X is equal to sequence length L, i.e. the last one sequential element, alternatively, X is system configuration.

Similarly, the First ray set that data creation method provided by the invention uses can also be for applying example 1 Arrangement set shown in middle table 1-1 carries out the arrangement set that other processing obtain；For example, to shown in table 1-1 in application example 1 4th sequential element of every sequence in arrangement set is multiplied by 1i, alternatively, phase adjustment or rotation pi/2, obtain such as table 2-3 Shown arrangement set, using the arrangement set as First ray set；

Table 2-3

Alternatively, for example, to the 4th sequential element using every sequence in the arrangement set shown in table 1-1 in example 1 - 1i is multiplied by, alternatively, phase adjustment or rotation 3* pi/2s, obtain arrangement set as shown in Table 2-4, using the arrangement set as the One arrangement set.

Table 2-4

Similarly, table 2-1, table 2-3, the arrangement set shown in table 2-4 can with shown in the table 1-1 in application example 1 Arrangement set merges, and an arrangement set for including the sequence that 16 length are 4 is generated, using the arrangement set as First ray Set, then by any one sequence in any one sequence in the First ray set and above-mentioned second arrangement set into Row point multiplication operation can generate an arrangement set for including the sequence that 64 length are 4.Arbitrary two in the arrangement set The absolute value of cross-correlation of the sequence after energy normalized is less than 0.8.At this point, data creation method provided by the invention can be with Store the First ray set for including the sequence that 16 length are 4, when system by configuration signal indicate used in first During the information of sequence, it can be indicated by 4 bits；Alternatively, can only store using in example 1 shown in table 1-1 comprising 4 Length is the arrangement set of 4 sequence, when system by configuration signal indicate used in First ray information when, first lead to The sequence in the arrangement set shown in 2 bit dial gauge 1-1 is crossed, and passes through the instruction of 2 bits and the X element of the sequence is carried out Processing (for example, 2 bit be 00 when represent 1 or phase place 0 are multiplied by the X element of sequence, 2 bit be 01 when Expression is multiplied by 1i or phase place pi/2 to the X element of sequence, represents to multiply the X element of sequence when which is 10 It represents to be multiplied by the X element of sequence -1i or phase place 3* pi/2s with -1 or phase place π, when which is 11；Or 2 bit is expressed as b0b1 by person, and corresponding decimal value is expressed as D, and the processing of sequence X element will be represented To be multiplied by the D powers of 1i or being multiplied by exp (j*D* pi/2s)), wherein, X can be fixed or preset, such as to be equal to sequence long by X L, i.e. the last one sequential element are spent, alternatively, X is system configuration.

Using example 3

In the present embodiment, the First ray set that data creation method provided by the invention uses is as using in example 1 Shown in table 1-1.

In the present embodiment, the second arrangement set that data creation method provided by the invention uses is as shown in table 3-1, this Two arrangement sets include the sequence that 8 length are 4, wherein, the Hadamard sequences that sequence 0~3 is 4 for 4 length, sequence 4~7 The unit matrix sequence for being 4 for 4 length.

Table 3-1

In the present embodiment, data creation method provided by the invention obtains First ray from First ray set, obtains The mode of First ray is using as described in example 1, repeated no more.

Data creation method provided by the invention also obtains the second sequence from the second arrangement set, obtains the second sequence Mode is using as described in example 1, repeated no more.In the present embodiment, the second arrangement set includes 8 sequences, when system is by matching When confidence enables indicator sequence information, it can be indicated by 3 bits.

In the present embodiment, when the second acquired sequence is any one sequence in sequence 4~7, the first sequence is given tacit consent to The sequence 0 applied in the First ray set in example 1 shown in table 1-1 is classified as, i.e., [1,1,1,1]；Alternatively, acquiescence First ray For [1].

Then, data creation method provided by the invention generates third sequence according to First ray and the second sequence, will First ray and the second sequence carry out point multiplication operation (can also carry out multiplying when giving tacit consent to First ray and be [1]) generation the Three sequences.

In the present embodiment, data creation method provided by the invention uses generated the first data of third sequence pair to carry out Extension process generates the second data, and further second data can be mapped on the transfer resource specified, are used to form hair Penetrate signal and transmission.

In the present embodiment, First ray set includes the sequence that 4 length are 4, and the second arrangement set is comprising 8 length 4 sequence, due to when the second sequence is any one sequence in unit matrix sequence First ray be defaulted as [1,1,1,1] or [1], then, a total of 20 length is 4 sequence in the present embodiment, as shown in table 3-2.

Table 3-2

Arrangement set shown in table 3-2, which is equivalent on the basis of the arrangement set shown in table 1-3, increases unit matrix sequence Row.In addition, it can be seen that 0 element is introduced in the arrangement set, it is believed that the value of sequential element come from set 1, 1i, -1, -1i, 0 }.The element set 1,1i, and -1, -1i, 0 } it is also denoted as the formation of two-dimensional complex number planisphere, such as Fig. 5 It is shown.

In practical application, can also directly it come using shown in table 3-2 comprising arrangement set of 20 length for 4 sequence Obtain required third sequence；At this point, when system by configuration signal indicate used in sequence information when, can pass through 5 bits are indicated.

Using example 4

In the present embodiment, the First ray set that data creation method provided by the invention uses is as shown in table 4-1, this One arrangement set includes the sequence that 1 length is 2.

Table 4-1

In the present embodiment, the second arrangement set that data creation method provided by the invention uses is as shown in table 4-2, this Two arrangement sets include the Hadamard sequences that 2 length are 2, this 2 Sequence composition hadamard matrixs.

Table 4-2

In the present embodiment, data creation method provided by the invention obtains First ray from First ray set, due to In First ray set shown in table 4-1 only have a sequence, then, in the present embodiment, acquired First ray for [1, 1].It is system fixed configurations or preset that this, which is equivalent to First ray, is indicated without system by configuration signal.

Data creation method provided by the invention also obtains the second sequence from the second arrangement set, obtains the second sequence Mode is using as described in example 1, repeated no more.In the present embodiment, the second arrangement set includes 2 sequences, when system is by matching When confidence enables indicator sequence information, it can be indicated by 1 bit.

Then, data creation method provided by the invention generates third sequence according to First ray and the second sequence, will First ray and the second sequence carry out point multiplication operation generation third sequence.

In the present embodiment, the First ray set that data creation method provided by the invention uses can also be for table 4-1 The arrangement set that shown arrangement set is handled；For example, to the last of the sequence in the arrangement set shown in table 4-1 One element be multiplied by -1 or phase adjustment or rotation π, obtain the arrangement set as shown in table 4-3, using the arrangement set as First ray set；

Table 4-3

Alternatively, for example, the last one element to the sequence in the arrangement set shown in table 4-1 is multiplied by 1i, alternatively, phase Adjustment or rotation pi/2, obtain the arrangement set as shown in table 4-4, using the arrangement set as First ray set；

Table 4-4

Alternatively, for example, the last one element to the sequence in the arrangement set shown in table 4-1 is multiplied by -1i, alternatively, phase Position adjustment or rotation 3* pi/2s, obtain the arrangement set as shown in table 4-5, using the arrangement set as First ray set.

Table 4-5

In the present embodiment, the First ray set that data creation method provided by the invention uses can also be table 4-1, table 4-4 merges the arrangement set to be formed or table 4-1, table 4-5 merge the arrangement set to be formed or table 4-2, table 4-4 merge what is formed Arrangement set or table 4-2, table 4-5 merge the arrangement set to be formed.At this point, the First ray set includes 2 sequences, when being System used in configuration signal instruction by 1 bit by that during the information of First ray, can be indicated, alternatively, can be only Arrangement set shown in storage table 4-1 or table 4-2, when system by configuration signal indicate used in First ray information When, the processing carried out by the instruction of 1 bit to the X element of sequence is (for example, represent the X to sequence when the bit is 0 Element is multiplied by 1 or phase place 0, represents to be multiplied by 1i or phase place pi/2 to the X element of sequence when which is 1；Or The bit is expressed as b0 by person, will be expressed as being multiplied by the b0 powers of 1i to the processing of the X element of sequence or is multiplied by exp (j* B0* pi/2s)), wherein, X can be fixed or preset, such as X is equal to sequence length L, i.e., the last one sequential element or Person, X are system configurations.

In the present embodiment, First ray is fixed as [1,1], and data creation method provided by the invention can no longer need table First ray set shown in 4-1, it is no longer necessary to obtain First ray from the First ray set, table 4-2 can be used only The second shown arrangement set, only obtains the second sequence from second arrangement set, and using the second acquired sequence as The third sequence that will be generated；

Further, when using only the second arrangement set shown in table 4-2, the above-mentioned arrangement set to shown in table 4-1 into The method that row processing obtains new arrangement set can also act on the second arrangement set；For example, to the sequence sets shown in table 4-2 The last one element of each sequence in conjunction is multiplied by 1i, alternatively, phase adjustment or rotation pi/2, obtain sequence as shown in Table 4-6 Row set, using the arrangement set as the second arrangement set；

Table 4-6

Further, similarly, the second arrangement set that data creation method provided by the invention uses can also be table 4- 2nd, table 4-6 merges the arrangement set to be formed.At this point, second arrangement set includes 4 sequences, when system is referred to by configuration signal Used in showing during the information of the second sequence, it can be indicated by 2 bits；Alternatively, sequence that can only shown in storage table 4-2 Row set, when system by configuration signal indicate used in the second sequence information when, first pass through 1 bit dial gauge 4-2 institutes Sequence in the arrangement set shown, and pass through the processing of X element progress of the 1 bit instruction to the sequence (for example, the bit It represents to be multiplied by the X element of sequence 1 or phase place 0 when being 0, represents to multiply the X element of sequence when which is 1 With 1i or phase place pi/2；Alternatively, the bit is expressed as b0, the processing of the X element of sequence will be expressed as being multiplied by 1i B0 powers or be multiplied by exp (j*b0* pi/2s)), wherein, X can be fixed or preset, such as X is equal to sequence length L, i.e., The last one sequential element, alternatively, X is system configuration.

Using example 5

In the present embodiment, as shown in Table 5-1, this for the second arrangement set that data creation method provided by the invention uses Two arrangement sets include 4 length for 4 discrete Fourier transform sequence, i.e. exp (j*n*t*2 π/N), wherein, N=4, n= { 0,1,2,3 }, t={ 0,1,2,3 }.

Table 5-1

Data creation method provided by the invention also obtains the second sequence from the second arrangement set, obtains the second sequence Mode is using as described in example 1, repeated no more.

In the present embodiment, First ray set includes the sequence that 4 length are 4, and the second arrangement set also includes 4 length For 4 sequence, any one sequence in any one sequence in First ray set and the second arrangement set is carried out a little Multiplication can generate the sequence that 16 length are 4, as shown in table 5-2 altogether.

Table 5-2

The value that can be seen that the sequential element in the arrangement set from the arrangement set shown in table 5-2 comes from set { 1,1i, -1, -1i }.The arrangement set can also be divided into four groups of sequences, respectively sequence 0~3, sequence 4~7, sequence 8~ 11st, sequence 12~15；In this four groups of sequences, 4 sequences in every group of sequence are mutually orthogonal；Be between four groups of sequences it is non-just It hands over, the absolute value for coming from cross-correlation of arbitrary two groups of the two sequences after energy normalized is not more than sqrt (2)/2. Therefore, the absolute value of arbitrary cross-correlation of the two sequences after energy normalized is not more than in the arrangement set shown in table 5-2 sqrt(2)/2。

It is similar with application example 2 in the present embodiment, the First ray set that data creation method provided by the invention uses It can also be the arrangement set handled the arrangement set in application example 1 shown in table 1-1；For example, application is shown 4th sequential element of every sequence in the arrangement set in example 1 shown in table 1-1 be multiplied by -1 phase adjustment or rotation π obtain The arrangement set arrived；The arrangement set can also merge with the arrangement set shown in the table 1-1 in application example 1, generate one The arrangement set for the sequence that 8 length are 4 is included, then the arrangement set after this is merged should as First ray set Any one sequence in First ray set carries out point multiplication operation with any one sequence in above-mentioned second arrangement set, can To generate an arrangement set comprising 32 length as 4 sequence.Arbitrary two sequences in the arrangement set are returned in energy The absolute value of cross-correlation after one change is also not more than sqrt (2)/2.

Further, it is similar with application example 2, it can also be to every in the arrangement set shown in table 1-1 in application example 1 4th sequential element of sequence is multiplied by 1i or phase adjustment or rotation pi/2, alternatively, to the sequence shown in table 1-1 in application example 1 4th sequential element of every sequence in row set is multiplied by -1i or phase adjustment or rotation 3* pi/2s, respectively obtains comprising 4 Length is the arrangement set of 4 sequence, can be used the arrangement set respectively obtained as First ray set, can be with Obtained arrangement set is merged or is used after merging with above-mentioned First ray set as First ray set.

It is similar with application example 3 in the present embodiment, the second arrangement set that data creation method provided by the invention uses The arrangement set formed after can also merging for the arrangement set shown in table 5-1 with unit matrix arrangement set.So, it is similar Ground can obtain an arrangement set for including the available sequences that 20 length are 4, moreover, the arrangement set is equivalent in table Unit matrix sequence is increased on the basis of arrangement set shown in 5-2.

Using example 6

In the present embodiment, as shown in Table 6-1, this for the First ray set that data creation method provided by the invention uses One arrangement set only has a sequence [1].

Table 6-1

Sequence index	Sequential element
		0	1

In the present embodiment, the second arrangement set that data creation method provided by the invention uses is as shown in table 6-2, this Two arrangement sets include the sequence that 6 length are 4, and it is 0 to have 2 sequential elements in each sequence.

Table 6-2

In the present embodiment, data creation method provided by the invention obtains First ray from First ray set, due to Only have a sequence in First ray set shown in table 6-1, then, in the present embodiment, acquired First ray is [1]. It is system fixed configurations or preset that this, which is equivalent to First ray, is indicated without system by configuration signal.

Data creation method provided by the invention also obtains the second sequence from the second arrangement set, obtains the second sequence Mode is using as described in example 1, repeated no more.In the present embodiment, the second arrangement set includes 6 sequences, when system is by matching When confidence enables indicator sequence information, it can be indicated by 3 bits.In the present embodiment, it is assumed that the second acquired sequence is Sequence in table 6-2 indicated by sequence index 0, i.e. [1,1,0,0].

Then, data creation method provided by the invention generates third sequence according to First ray and the second sequence, will First ray and the second sequence carry out multiplying generation third sequence, then, which is：[1,1,0,0].

In the present embodiment, data creation method provided by the invention can also will be in the First ray set shown in table 6-1 Sequence or acquired First ray is subjected to energy adjusting or energy normalized is handled so that the gross energy of sequence is 1/Z, Wherein, Z is the quantity of 0 element in each sequence of the second arrangement set；Z=2 in the present embodiment, then, for example, by acquired in First ray carry out energy adjusting or energy normalized processing after obtained sequence be [sqrt (2)/2]；

Alternatively, the third sequence generated is subjected to energy adjusting or energy normalized processing so that the total energy of the sequence Measure is 1；By taking above-mentioned generated third sequence as an example, the sequence obtained after energy adjusting or energy normalized processing is carried out to it For [sqrt (2)/2, sqrt (2)/2,0,0], the gross energy of the sequence is 1, can be using the sequence as the third ultimately generated Sequence.

In the present embodiment, the First ray set that data creation method provided by the invention uses can also be for table 6-1 The arrangement set that shown arrangement set is handled；For example, finger is multiplied by the sequence in the arrangement set shown in table 6-1 Real number or plural number (such as 1i, -1, -1i) are determined, alternatively, phase adjustment or rotation specified amount (such as pi/2, π, 3* pi/2s), will be handled The arrangement set obtained afterwards is as First ray set.

In the present embodiment, First ray is fixed as [1], and data creation method provided by the invention can no longer need table 6- First ray set shown in 1, it is no longer necessary to obtain First ray from the First ray set, table 6-2 institutes can be used only The second arrangement set shown only obtains the second sequence, and using the second acquired sequence as general from second arrangement set The third sequence to be generated.

Further, when using only the second arrangement set shown in table 6-2, the above-mentioned arrangement set to shown in table 6-1 The method for being handled to obtain new arrangement set can also act on the second arrangement set；For example, to the sequence shown in table 6-2 Each element of each sequence in set is multiplied by specified real number or plural number (such as 1i, -1, -1i), alternatively, phase adjustment or rotation Turn specified amount (such as pi/2, π, 3* pi/2s), using the arrangement set obtained after processing as the second arrangement set.

Using example 7

In the present embodiment, the First ray set that data creation method provided by the invention uses is as shown in table 7-1, this One arrangement set includes the sequence that 4 length are 1.The First ray set can also regard the numerical value for including 4 numerical value as Set.

Table 7-1

In the present embodiment, the second arrangement set that data creation method provided by the invention uses is as using in example 6 Shown in table 6-2, which includes the sequence that 6 length are 4, and it is 0 to have 2 sequential elements in each sequence.

In the present embodiment, data creation method provided by the invention obtains First ray from First ray set, specifically Ground using 4 sequences in First ray set as First ray, that is, obtains 4 First rays.

Then, data creation method provided by the invention generates third sequence according to First ray and the second sequence, will First ray and the second sequence carry out multiplying generation third sequence, then, 4 third sequences can be generated, respectively： [1,1,0,0]；[1i, 1i, 0,0]；[- 1, -1,0,0]；[- 1i, -1i, 0,0].

In the present embodiment, data creation method provided by the invention can also will be in the First ray set shown in table 7-1 Sequence or acquired First ray is subjected to energy adjusting or energy normalized is handled so that the gross energy of sequence is 1/Z, Wherein, Z is the quantity of 0 element in each sequence of the second arrangement set, Z=2 in the present embodiment；Alternatively, will be generated Three sequences carry out energy adjusting or energy normalized processing so that the gross energy of sequence is 1.

In the present embodiment, data creation method provided by the invention uses generated third sequence pair the first data (example Bit after such as encoding) mapping processing is carried out (such as by 4 articles of four kinds of 2 bits combinations 00,01,11,10 and above-mentioned generation the Three sequences map one by one respectively), generate the second data, which is properly termed as that treated data symbol, value i.e. into Used third sequence during row mapping processing.Further, which can be mapped to the transmission specified by the present embodiment In resource, it is used to form transmitting signal and transmission.

In the present embodiment, First ray set includes the sequence that 4 length are 1, and the second arrangement set is comprising 6 length 4 sequence is handled, i.e., using 4 sequences in any one sequence pair First ray set in the second arrangement set 4 sequences in First ray set carry out multiplying with any one sequence in the second arrangement set respectively, altogether may be used To generate 6 groups of sequences, every group of sequence includes 4 sequences, is mapped for such as 2 bit datas.

In the present embodiment, the First ray set that data creation method provided by the invention uses can also be table 7-2 institutes The arrangement set shown, the arrangement set include the sequence that 4 length are 1 or are considered as the numerical value for including 4 numerical value Set.4 sequences in arrangement set shown in table 7-2 carry out multiplication with any one sequence in the second arrangement set respectively Operation, can generate 6 groups of sequences, and every group of sequence includes 4 sequences, mapped for such as 2 bit datas.

Table 7-2

Sequence index	Sequential element
		0	1+1i
1	-1+1i
		2	-1-1i
3	1-1i

In the present embodiment, First ray set that data creation method provided by the invention uses can also for table 7-3 or Arrangement set shown in table 7-4, the two arrangement sets include the sequence or be considered as comprising 2 that 2 length are 1 The numerical value set of a numerical value.2 sequences in arrangement set shown in table 7-3 or table 7-4 respectively in the second arrangement set Any one sequence carries out multiplying, can generate 6 groups of sequences, every group of sequence includes 2 sequences, for such as 1 bit number According to mapping.

Table 7-3

Sequence index	Sequential element
		0	1
1	-1

Table 7-4

Sequence index	Sequential element
		0	1i
1	-1i

In the present embodiment, each sequence in First ray set shown in table 7-1, table 7-2, table 7-3 or table 7-4 may be used also To be extended to length as 4 sequence, each element of sequence is identical, so as to any one sequence in the second arrangement set Carry out point multiplication operation generation third sequence.

In the present embodiment, data creation method provided by the invention can also not use the First ray collection shown in table 7-1 It closes, it is no longer necessary to obtain First ray from the First ray set, the second arrangement set can be used only, only from the second sequence Obtain the second sequence in set, and using the second acquired sequence as by sequence to be used；Further, will be made using this Sequence pair data (such as 2 bit b0b1 after coding) carry out mapping processing, i.e., data are mapped as this will be to be used Sequence, and be multiplied by the D powers of 1i or be multiplied by exp (j*D* pi/2s), generation treated data symbol then will treated number Transmitting signal is formed according to symbol, for sending；Wherein, D is the corresponding decimal values of 2 bit b0b1；

Similarly, the First ray set shown in table 7-2 can not also be used, can only be obtained from the second arrangement set Second sequence, and using the second acquired sequence as by sequence to be used；Further, by data (such as coding after 2 ratio Special b0b1) this is mapped as by sequence to be used, and is multiplied by exp (j* (2D+1) * π/4), generation treated data symbol；Its In, D is the corresponding decimal values of 2 bit b0b1；

Similarly, the First ray set shown in table 7-3 can not also be used, can only be obtained from the second arrangement set Second sequence, and using the second acquired sequence as by sequence to be used；Further, by data (such as coding after 1 ratio Special b0) this is mapped as by sequence to be used, and is multiplied by the 2*b0 powers of 1i or is multiplied by exp (j*b0* π), treated for generation Data symbol；

Similarly, the First ray set shown in table 7-4 can not also be used, can only be obtained from the second arrangement set Second sequence, and using the second acquired sequence as by sequence to be used；Further, by data (such as coding after 1 ratio Special b0) this is mapped as by sequence to be used, and is multiplied by (2*b0+1) power of 1i or is multiplied by exp (j* (2*b0+1) * pi/2s), Generation treated data symbol.

Using example 8

In the present embodiment, shown in the third arrangement set table 8-1 that data creation method provided by the invention uses.

Table 8-1

In the present embodiment, data creation method provided by the invention determines third sequence from third arrangement set, including：

(1) third sequence is obtained from third arrangement set using randomly selected mode；For example, it is generated by random number Device generates a random number, and sequence index is determined using the random number as sequence index or according to the random number and preset rules (for example the random number being subjected to complementation operation to the sequence quantity in third arrangement set, using remainder as sequence index), root Third sequence is determined from third arrangement set according to the sequence index；

(2) third sequence is obtained from third arrangement set according to preset rules；For example, using the value of specified parameter to the Sequence quantity in three arrangement sets carries out complementation operation, using remainder as sequence index, according to the sequence index from third sequence Third sequence is determined in row set, wherein, specified parameter can be equipment identities identification information etc.；

(3) third sequence is obtained from third arrangement set according to system configuration information；For example, system fixed configurations, half Sequence index used in static configuration, dynamic configuration can then obtain sequence index, then basis according to system configuration information The sequence index determines third sequence from third arrangement set；Due to including 32 sequences in third arrangement set, work as system During by configuration signal indicator sequence information, it can be indicated by 5 bits.

In the present embodiment, data creation method provided by the invention is carried out using identified the first data of third sequence pair Extension process generates the second data, and further second data can be mapped on the transfer resource specified, are used to form hair Penetrate signal and transmission.

In the present embodiment, data creation method provided by the invention can also will be in the third arrangement set shown in table 8-1 Sequence carry out energy adjusting or energy normalized processing so that the gross energy of each sequence is 1；Alternatively, by identified Three sequences carry out energy adjusting or energy normalized processing so that the gross energy of the sequence is 1.

In the present embodiment, the sequent in the third arrangement set is can be seen that from the third arrangement set shown in table 8-1 The value of element comes from set { 1,1i, -1, -1i, 2,2i, -2, -2i, 0 }.The element set 1,1i, and -1, -1i, 2,2i, - 2, -2i, 0 } formation of two-dimensional complex number planisphere is also denoted as, as shown in Figure 6.

Embodiment two

An embodiment of the present invention provides a kind of data creation method, as shown in fig. 7, this method includes：

Step 701：First ray is obtained from First ray set.

Wherein, the First ray set include comprising M length be L sequence the first specified sequence set, and/or The arrangement set handled the first specified sequence set；Wherein, M is positive integer, and L is positive integer.

Optionally, the value of the sequential element in the first specified sequence set comes from least one following set： { 1,1i, -1, -1i }；{ 1, -1 }；{ 1i, -1i }；{1}；{-1}；{1i}；{-1i}；{ 1+1i, -1+1i, -1-1i, 1-1i }； {0}；1,1i, and -1, -1i, 0 }；1+1i, -1+1i, and -1-1i, 1-1i, 0 }；1,1i, and -1, -1i, 2,2i, -2, -2i, 0 }；Its In, i is imaginary unit, i=sqrt (- 1).

Optionally, First ray is obtained from First ray set, including one below：

First ray is obtained from the First ray set using randomly selected mode；

Wherein, first preset rules are at least：Including being calculated according to parameter preset and/or preset formula or Preset correspondence or mapping relations.

Step 702：The first data are handled using the First ray, generate the second data.

Wherein, the processing includes extension process, mapping processing or modulation treatment.

Wherein, first data are including at least bit, the modulation symbol after bit, coding.

Step 703：The second sequence is obtained from the second arrangement set.

Wherein, second arrangement set include comprising N length be C sequence the second specified sequence set, and/or The arrangement set handled the second specified sequence set；Wherein, N is positive integer, and C is positive integer.

Optionally, the second specified sequence set includes at least one of：

Hadamard sequences set；

Walsh sequence set；

Discrete Fourier transform arrangement set；

Unit matrix arrangement set.

Optionally, the second sequence is obtained from the second arrangement set, including one below：

Wherein, second preset rules include at least：Calculated according to parameter preset and/or preset formula or Preset correspondence or mapping relations.

Step 704：It is handled using the second data described in second sequence pair, generates third data.

Optionally, it is handled using the second data described in second sequence pair, generates third data, including：

Second data and second sequence are subjected to point multiplication operation, generate third data, alternatively,

Second data and second sequence are subjected to multiplying, generate third data, alternatively,

The nonzero element in second sequence is replaced using second data, generates third data；Alternatively,

The value that nonzero element in second data and second sequence obtained after dot product or multiplying The nonzero element in second sequence is replaced, generates third data.

Further, optionally, the method further includes：

Step 705：The third data are mapped on the transfer resource specified, are used to form transmitting signal and hair It send.

Wherein, the transfer resource specified can be randomly selected, preset or system configuration；

Wherein, the transfer resource includes carrier wave, time slot, running time-frequency resource, spatial domain resource, code domain resource, frequency-hopping mode, day At least one line end mouth etc. can be resource unit, resource block, resource collection, the definition of resource pattern or form.

Wherein, the transfer resource specified be target running time-frequency resource when, target running time-frequency resource can be uplink data channels (or Referred to as Physical Uplink Shared Channel) either uplink control channel (or being Physical Uplink Control Channel) or random access are believed Road (or being Physical Random Access Channel)；Accordingly, transmission signal carrier is modulated on target running time-frequency resource and is transmitted, Including：

When transport packet contains terminal identity identification information；Alternatively, include terminal identity identification information and cell mark Know information either to include terminal identity identification information, cell identity information and signaling information or include terminal identity mark When knowing information, cell identity information, signaling information and data information, the transmission signal carrier is modulated to institute by the transmitter Random access channel or Physical Random Access Channel (PRACH) or uplink control channel are stated (or for physical uplink control letter It is transmitted on road (PUCCH).

In the present embodiment, First ray and the second sequence are obtained respectively from First ray set and the second arrangement set； Wherein, the element of the sequence in First ray set mainly uses { 1,1i, -1, -1i }；Second arrangement set is Hadamard sequences Set, DFT sequence set, unit matrix arrangement set etc..In this embodiment scheme of the present invention, (transmitter and receiver) can be with 2 smaller arrangement sets (i.e. First ray set and the second arrangement set) are only stored, without storing larger include The arrangement set of whole available sequences has relatively low storage demand.Sequential element uses { 1,1i-1, -1i }, and operation is simple, Complexity is relatively low, so as to reduce the computational complexity of transmitter extension process, receiver relevant treatment, is conducive to meet The low time delay demand of URLLC scenes.

Embodiment three

An embodiment of the present invention provides a kind of data transmission method, as shown in figure 8, this method includes：

Step 801：First ray is obtained from First ray set.

Optionally, First ray is obtained from First ray set, including one below：

First ray is obtained from the First ray set using randomly selected mode；

Wherein, first preset rules include at least：Calculated according to parameter preset and/or preset formula or Preset correspondence or mapping relations.

Step 802：The first data are handled using the First ray, generate the second data.

Step 803：It determines transfer resource to be used.

Optionally, it is described to determine transfer resource to be used, including：

It is determined according to system configuration information by transfer resource to be used；

It is determined according to preset rules by transfer resource to be used；

It is determined using randomly selected mode by transfer resource to be used；

The second sequence is obtained from the second arrangement set, is determined according to second sequence by transfer resource to be used.

Wherein, the system configuration information includes the transmission of the information or system call for the transfer resource that system is pre-configured The information of resource.

Wherein, the preset rules include being calculated according to parameter preset and/or preset formula or preset correspondence Relationship or mapping relations or preset resource pattern selection mode or skipped mode.

Optionally, second arrangement set includes including the second specified sequence set of the sequence that N length is C；Its In, N is positive integer, and C is positive integer.

Optionally, the second specified sequence set includes at least one of：

Unit matrix arrangement set；

Wherein, the nonzero element in the sequence of 0 element comprising specified quantity or designated ratio can be 1.

Optionally, it is described that the second sequence is obtained from the second arrangement set, including one below：

Optionally, it is described to determine to include transfer resource to be used according to second sequence according to second sequence In nonzero element determine transfer resource position to be used；For example, the position of the nonzero element in second sequence It puts and is determined from a resource collection or one group of resource block or one group of resource unit by transfer resource position to be used.

Still optionally further, the method further includes：

Step 804：Second data are mapped to described by transfer resource to be used, are used to form transmitting signal And it sends.

In the present embodiment, First ray is obtained from First ray set, wherein, the element of the sequence in First ray set It is main to use { 1,1i, -1, -1i }.In this embodiment scheme of the present invention, (transmitter and receiver) can only store 2 smaller Arrangement set (i.e. First ray set and the second arrangement set), it is larger comprising whole available sequences without storing Arrangement set has relatively low storage demand.Sequential element uses { 1,1i-1, -1i }, and operation is simple, and complexity is relatively low, so as to The computational complexity of transmitter extension process, receiver relevant treatment can be reduced, is conducive to the low time delay for meeting URLLC scenes Demand.

It should be noted that the arrangement set that the present invention and above-mentioned each embodiment provide is not necessarily unique, base Description in the present invention and above-mentioned each embodiment can also obtain other similar arrangement sets, the present invention and embodiment It does not describe one by one.In addition, for the arrangement set of the present invention and embodiment description, the sequence of sequence can with shown in above table Sequence it is different, the sequence of sequential element can also be different from the sequence shown in above table.

Example IV

Present embodiments provide a kind of data generating device, composition structure diagram such as Fig. 9 of the data generating device Shown, the data generating device includes：

Determination unit 91, for determining third sequence according to First ray and the second sequence, wherein, the First ray from It is obtained in First ray set, second sequence is obtained from the second arrangement set；Alternatively, it is determined from third arrangement set The third sequence；

Generation unit 92, for carrying out processing the second data of generation using first data of third sequence pair；

Wherein, M, L, N, C, P, W are positive integer.

Optionally, the value of the first specified sequence set or the sequential element in the third specified sequence set is come From at least one following set：

Optionally, the first specified sequence set, including at least one following arrangement sets：

Arrangement set 1：As shown in table 101,

Table 101：

Arrangement set 2：As shown in table 102,

Table 102：

Arrangement set 3：As shown in table 103,

Table 103：

Arrangement set 4：As shown in table 104,

Table 104：

Arrangement set 5：As shown in table 105,

Table 105：

Arrangement set 6：As shown in table 106,

Table 106：

Arrangement set 7：As shown in table 107,

Table 107：

Arrangement set 8：As shown in table 108,

Table 108：

Arrangement set 9：As shown in table 109,

Table 109：

Sequence index	Sequential element
		0	1
1	1i
		2	-1
3	-1i

Arrangement set 10：As shown in table 110,

Table 110：

Sequence index	Sequential element
		0	1+1i
1	-1+1i
		2	-1-1i
3	1-1i

Arrangement set 11：As shown in table 111,

Table 111：

Sequence index	Sequential element
		0	1
1	-1

Arrangement set 12：As shown in table 112,

Table 112：

Sequence index	Sequential element
		0	1i
1	-1i

Arrangement set 13：As shown in table 113,

Table 113：

Sequence index	Sequential element
		0	1

Arrangement set 14：As shown in table 114,

Table 114：

Sequence index	Sequential element
		0	-1

Arrangement set 15：As shown in table 115,

Table 115：

Sequence index	Sequential element
		0	1i

Arrangement set 16：As shown in table 116,

Table 116：

Sequence index	Sequential element
		0	-1i

Arrangement set 17：As shown in table 117,

Table 117

Wherein, i is imaginary unit, i=sqrt (- 1).

Optionally, the determination unit 91, is additionally operable to：

Optionally, the second specified sequence set includes at least one of：

Hadamard sequences set；

Walsh sequence set；

Discrete Fourier transform arrangement set；

Unit matrix arrangement set.

Optionally, the second specified sequence set, including at least one following arrangement sets；Wherein, arrangement set 1： As shown in table 201,

Table 201：

Arrangement set 2：As shown in table 202,

Table 202：

Arrangement set 3：As shown in table 203,

Table 203

Arrangement set 4：As shown in table 204,

Table 204

Sequence index	Sequential element
		0	1

Arrangement set 5：As shown in table 205,

Table 205：

Arrangement set 6：As shown in table 206,

Table 206：

Arrangement set 7：As shown in table 207,

Table 207：

Arrangement set 8：As shown in table 208,

Table 208：

Arrangement set 9：As shown in table 209,

Table 209：

Wherein, i is imaginary unit, i=sqrt (- 1).

Optionally, the determination unit 91, is additionally operable to：

Optionally, the third specified sequence set includes at least one following arrangement sets：

Arrangement set 1：As shown in table 301,

Table 301

Arrangement set 2：As shown in table 302,

Table 302

Arrangement set 3：As shown in table 303,

Table 303

Arrangement set 4：As shown in table 304,

Table 304

Arrangement set 5：As shown in table 305,

Table 305

Arrangement set 6：As shown in table 306,

Table 306

Arrangement set 7：As shown in table 307,

Table 307

Arrangement set 8：As shown in table 308,

Table 308

Arrangement set 9：As shown in table 309,

Table 309

Arrangement set 10：As the chart 310 illustrates,

Table 310

Arrangement set 11：As shown in table 311,

Table 311

Wherein, i is imaginary unit, i=sqrt (- 1)；Or

Wherein, any processing, including：

In one embodiment, the determination unit 91 is obtained according to the First ray set and second arrangement set The arrangement set arrived, including at least one of：

In one embodiment, the determination unit 91 obtains First ray from First ray set, including it is following it One：

First ray is obtained from the First ray set using randomly selected mode；

In one embodiment, the determination unit 91 obtains the second sequence from the second arrangement set, including it is following it One：

In one embodiment, the determination unit 91, is additionally operable to：

Still optionally further, described device further includes normalized unit 93, is used for：

Optionally, the determination unit 91, is additionally operable to：

Optionally, the generation unit 92, is additionally operable to：

Still optionally further, described device further includes：

Map unit 94 for second data to be mapped to the transfer resource specified, is used to form transmitting signal And it sends.

In the present embodiment, the data generating device may be disposed in terminal or network side equipment such as base station in.

It will be appreciated by those skilled in the art that in the data generating device of the embodiment of the present invention each processing unit function, It can refer to the associated description of aforementioned data generation method and understand, respectively processing is single in the data generating device of the embodiment of the present invention Member can be realized by realizing the analog circuit of the function described in the embodiment of the present invention, can also be implemented by performing the present invention Operation of the software on intelligent terminal of function described in example and realize.

In the present embodiment, determination unit 91 in the data generating device, normalized unit 93, is reflected at generation 92 Unit 94 is penetrated, it in practical applications can be by the centre in the data generating device or the data generating device corresponding device Manage device (CPU, Central Processing Unit), digital signal processor (DSP, Digital Signal ) or the realizations such as programmable gate array (FPGA, Field-Programmable Gate Array) Processor.

The data generating device of the embodiment of the present invention is implemented for exempting from scheduled transmission, also, with relatively low sequence Storage demand and computational complexity.

A kind of equipment is present embodiments provided, the equipment includes data generating device, and the data generating device is used In：

Wherein, M, L, N, C, P, W are positive integer.

Specifically, the composition structure of the data generating device is as shown in figure 9, details are not described herein.

Here, the equipment can be user equipment or network side equipment, such as base station equipment.

The equipment of the embodiment of the present invention is implemented for exempting from scheduled transmission, also, with relatively low sequence storage demand And computational complexity.

To realize above-mentioned data creation method, the embodiment of the present invention also provides a kind of equipment, the hardware composition of the equipment Structure as shown in Figure 10, including processor 20 and is stored with the memory 30 of the processor-executable instruction, when the finger When order is performed by processor 20, following operation is performed：

Wherein, M, L, N, C, P, W are positive integer.

Optionally, the first specified sequence described in when the processor 20 determines third sequence according to First ray and the second sequence The value of sequential element in row set, alternatively, determining that the third is specified during the third sequence from third arrangement set The value of sequential element in arrangement set, both from least one following set：

Optionally, when the processor 20 determines third sequence according to First ray and the second sequence, alternatively, from third sequence The third sequence is determined in row set, and the third arrangement set is included according to First ray set and the second arrangement set During obtained arrangement set, it is additionally operable to：

Optionally, the processor 20 be additionally operable to be multiplied by each element or V element of the third sequence 1, 1i, -1 or -1i, alternatively, being multiplied by the G powers of 1i；Alternatively,

Optionally, the processor 20 is also used for first data of third sequence pair and is extended processing generation the Two data；Or,

Optionally, the processor 20 is additionally operable to second data being mapped on the transfer resource specified, for shape Into transmitting signal and transmission.

The function of above-mentioned processor 20 can refer to function possessed by data generating device each unit to understand, herein not It repeats again.

The embodiment of the present invention also describes a kind of computer storage media, and calculating is stored in the computer storage media Before machine executable instruction and sequence spreading set, the computer executable instructions and sequence spreading set are for performing State the data creation method described in each embodiment.

It, in the absence of conflict, can be in any combination between technical solution recorded in the embodiment of the present invention.

In several embodiments provided by the present invention, it should be understood that disclosed method and smart machine, Ke Yitong Other modes are crossed to realize.Apparatus embodiments described above are only schematical, for example, the division of the unit, only Only a kind of division of logic function, can have other dividing mode, such as in actual implementation：Multiple units or component can be tied It closes or is desirably integrated into another system or some features can be ignored or does not perform.In addition, shown or discussed each group Into the mutual coupling in part or direct-coupling or communication connection can be by some interfaces, equipment or unit it is indirect Coupling or communication connection, can be electrical, mechanical or other forms.

The above-mentioned unit illustrated as separating component can be or may not be physically separate, be shown as unit The component shown can be or may not be physical unit, you can be located at a place, can also be distributed to multiple network lists In member；Part or all of unit therein can be selected according to the actual needs to realize the purpose of this embodiment scheme.

In addition, each functional unit in various embodiments of the present invention can be fully integrated into a second processing unit, Can also be each unit individually as a unit, can also two or more units integrate in a unit； The form that hardware had both may be used in above-mentioned integrated unit is realized, the form that hardware adds SFU software functional unit can also be used real It is existing.

The above description is merely a specific embodiment, but protection scope of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can readily occur in change or replacement, should all contain Lid is within protection scope of the present invention.

Claims

1. a kind of data creation method, which is characterized in that the method includes：

Third sequence is determined according to First ray and the second sequence, wherein, the First ray is obtained from First ray set, Second sequence is obtained from the second arrangement set；Alternatively, the third sequence is determined from third arrangement set；

Wherein, the First ray set is included comprising M length for the first specified sequence set of the sequence of L, and/or to institute State the arrangement set that the first specified sequence set is handled；

Wherein, second arrangement set is included comprising N length for the second specified sequence set of the sequence of C, and/or to institute State the arrangement set that the second specified sequence set is handled；

Wherein, the third arrangement set includes at least one of：Include the third specified sequence for the sequence that P length is W Set；The second specified sequence set；The arrangement set handled the second specified sequence set；According to institute State First ray set and arrangement set that second arrangement set obtains；

Wherein, M, L, N, C, P, W are positive integer.

2. data creation method according to claim 1, which is characterized in that determine according to First ray and the second sequence The value of sequential element in first specified sequence set described in during three sequences or

The value of the sequential element during third sequence in the third specified sequence set is determined from third arrangement set,

Both from least one following set：

{ 1,1i, -1, -1i }；{ 1, -1 }；{ 1i, -1i }；{1}；{-1}；{1i}；{-1i}；{ 1+1i, -1+1i, -1-1i, 1- 1i}；{0}；1,1i, and -1, -1i, 0 }；1+1i, -1+1i, and -1-1i, 1-1i, 0 }；1,1i, and -1, -1i, 2,2i, -2, -2i, 0}；Wherein, i is imaginary unit, i=sqrt (- 1).

3. data creation method according to claim 1, which is characterized in that determine according to First ray and the second sequence During three sequences or

Determine the third sequence from third arrangement set, and the third arrangement set include according to First ray set and During the arrangement set that the second arrangement set obtains,

Arrangement set 1：

The arrangement set 1, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1,1i, -1i],

Third sequence is [1,1i, 1, -1i],

4th sequence is [1,1i, 1i, -1]；

Arrangement set 2：

The arrangement set 2, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1, -1],

Second sequence is [1,1,1i, 1i],

Third sequence is [1,1i, 1,1i],

4th sequence is [1,1i, 1i, 1]；

Arrangement set 3：

The arrangement set 2, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1i],

Second sequence is [1,1,1i, 1],

Third sequence is [1,1i, 1,1],

4th sequence is [1,1i, 1i, -1i]；

Arrangement set 4：

The arrangement set 4, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1, -1i],

Second sequence is [1,1,1i, -1],

Third sequence is [1,1i, 1, -1],

4th sequence is [1,1i, 1i, 1i]；

Arrangement set 5：

The arrangement set 5, comprising the sequence that 1 length is 2, wherein,

First ray is [1,1]；

Arrangement set 6：

The arrangement set 6, comprising the sequence that 1 length is 2, wherein,

First ray is [1, -1]；

Arrangement set 7：

The arrangement set 7, comprising the sequence that 1 length is 2, wherein,

First ray is [1,1i]；

Arrangement set 8：

The arrangement set 8, comprising the sequence that 1 length is 2, wherein,

First ray is [1, -1i]；

Arrangement set 9：

The arrangement set 9, comprising the sequence that 4 length are 1, wherein,

First ray is [1],

Second sequence is [1i],

Third sequence is [- 1],

4th sequence is [- 1i]；

Arrangement set 10：

The arrangement set 10, comprising the sequence that 4 length are 1, wherein,

First ray is [1+1i],

Second sequence is [- 1+1i],

Third sequence is [- 1-1i],

4th sequence is [1-1i]；

Arrangement set 11：

The arrangement set 11, comprising the sequence that 2 length are 1, wherein,

First ray is [1],

Second sequence is [- 1]；

Arrangement set 12：

The arrangement set 12, comprising the sequence that 2 length are 1, wherein,

First ray is [1i],

Second sequence is [- 1i]；

Arrangement set 13：

The arrangement set 13, comprising the sequence that 1 length is 1, wherein,

First ray is [1]；

Arrangement set 14：

The arrangement set 14, comprising the sequence that 1 length is 1, wherein,

First ray is [- 1]；

Arrangement set 15：

The arrangement set 15, comprising the sequence that 1 length is 1, wherein,

First ray is [1i]；

Arrangement set 16：

The arrangement set 16, comprising the sequence that 1 length is 1, wherein,

First ray is [- 1i]；

Arrangement set 17：

The arrangement set 17, comprising the sequence that 4 length are 3, wherein,

First ray is [1,1,1]；

Second sequence is [1, -1, -1],

Third sequence is [- 1,1, -1],

4th sequence is [- 1,1,1]；

Wherein, i is imaginary unit, i=sqrt (- 1).

4. data creation method according to claim 1, which is characterized in that determine according to First ray and the second sequence During three sequences or

The sequence in the first specified sequence set is handled, including：

The X sequential element of every sequence in the first specified sequence set or every sequence is multiplied by 1,1i, -1, Or -1i or the A powers for being multiplied by 1i；Alternatively,

The phase of B* π is carried out to the X sequential element of every sequence in the first specified sequence set or every sequence Exp (j*B* π) is multiplied by adjustment or rotation, and j is imaginary unit, j=sqrt (- 1)；Alternatively,

The X sequential element of every sequence in the first specified sequence set or every sequence is multiplied by designated value or Person is multiplied by designated value respectively；

5. data creation method according to claim 1, which is characterized in that determine according to First ray and the second sequence During three sequences or

From third arrangement set determine the third sequence, and the third arrangement set include the second specified sequence set, The arrangement set that is handled the second specified sequence set is obtained according to First ray set and the second arrangement set During at least one arrangement set arrived,

The second specified sequence set includes at least one of：

Hadamard sequences set；

Walsh sequence set；

Discrete Fourier transform arrangement set；

Unit matrix arrangement set.

6. data creation method according to claim 1, which is characterized in that determine according to First ray and the second sequence During three sequences or

From third arrangement set determine the third sequence, and the third arrangement set include the second specified sequence set, The arrangement set that is handled the second specified sequence set is obtained according to First ray set and the second arrangement set During at least one arrangement set,

Arrangement set 1：

The arrangement set 1, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1, -1, -1],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1, -1,1]；

Arrangement set 2：

The arrangement set 2, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1i, -1, -1i],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1i, -1,1i]；

Arrangement set 3：

The arrangement set 3, comprising the sequence that 2 length are 2, wherein,

First ray is [1,1],

Second sequence is [1, -1]；

Arrangement set 4：

The arrangement set 4, comprising the sequence that 1 length is 1, wherein,

First ray is [1]；

Arrangement set 5：

The arrangement set 5, comprising the sequence that 6 length are 4, wherein,

First ray is [1,1,0,0],

Second sequence is [1,0,1,0],

Third sequence is [1,0,0,1],

4th sequence is [0,1,1,0],

5th sequence is [0,1,0,1],

6th sequence is [0,0,1,1]；

Arrangement set 6：

The arrangement set 6, comprising the sequence that 4 length are 6, wherein,

First ray is [1,1,1,0,0,0],

Second sequence is [1,0,0,1,1,0],

Third sequence is [0,1,0,0,1,1],

4th sequence is [0,0,1,1,0,1],

Arrangement set 7：

The arrangement set 7, comprising the sequence that 4 length are 6, wherein,

First ray is [1,0,1,0,1,0],

Second sequence is [1,0,0,1,0,1],

Third sequence is [0,1,1,0,0,1],

4th sequence is [0,1,0,1,1,0],

Arrangement set 8：

The arrangement set 8, comprising the sequence that 4 length are 4, wherein,

First ray is [1,0,0,0],

Second sequence is [0,1,0,0],

Third sequence is [0,0,1,0],

4th sequence is [0,0,0,1]；

Arrangement set 9：

The arrangement set 9, comprising the sequence that 6 length are 6, wherein,

First ray is [1,1,1,1,1,1],

Second sequence is [1,1,1i, -1, -1, -1i],

Third sequence is [1,1i, -1i, 1i, -1i, -1],

4th sequence is [1, -1,1, -1i, -1,1i],

5th sequence is [1, -1, -1,1,1i, -1i],

6th sequence is [1, -1i, -1, -1,1,1i]；

Wherein, i is imaginary unit, i=sqrt (- 1).

7. data creation method according to claim 1, which is characterized in that determine according to First ray and the second sequence During three sequences or

The sequence in the second specified sequence set is handled, including：

The Y sequential element of every sequence in the second specified sequence set or every sequence is multiplied by 1,1i, -1, Or -1i or the E powers for being multiplied by 1i；Alternatively,

The phase of F* π is carried out to the Y sequential element of every sequence in the second specified sequence set or every sequence Adjustment or rotation, alternatively, be multiplied by exp (j*F* π), j is imaginary unit, j=sqrt (- 1)；Alternatively,

The Y sequential element of every sequence in the second specified sequence set or every sequence is multiplied by designated value or Person is multiplied by designated value respectively；

8. data creation method according to claim 1, which is characterized in that the third is determined from third arrangement set During sequence,

Arrangement set 1：

The arrangement set 1, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1, -1, -1],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1, -1,1],

5th sequence is [1,1,1i, -1i],

6th sequence is [1,1, -1i, 1i],

7th sequence is [1, -1,1i, 1i],

8th sequence is [1, -1, -1i, -1i],

9th sequence is [1,1i, 1, -1i],

Tenth sequence is [1,1i, -1,1i],

11st sequence is [1, -1i, 1,1i],

12nd sequence is [1, -1i, -1, -1i],

13rd sequence is [1,1i, 1i, -1],

14th sequence is [1,1i, -1i, 1],

15th sequence is [1, -1i, 1i, 1],

16th sequence is [1, -1i, -1i, -1]；

Arrangement set 2：

The arrangement set 2, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1, -1],

Second sequence is [1,1, -1,1],

Third sequence is [1, -1,1,1],

4th sequence is [1, -1, -1, -1],

5th sequence is [1,1,1i, 1i],

6th sequence is [1,1, -1i, -1i],

7th sequence is [1, -1,1i, -1i],

8th sequence is [1, -1, -1i, 1i],

9th sequence is [1,1i, 1,1i],

Tenth sequence is [1,1i, -1, -1i],

11st sequence is [1, -1i, 1, -1i],

12nd sequence is [1, -1i, -1,1i],

13rd sequence is [1,1i, 1i, 1],

14th sequence is [1,1i, -1i, -1],

15th sequence is [1, -1i, 1i, -1],

16th sequence is [1, -1i, -1i, 1]；

Arrangement set 3：

The arrangement set 3, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1,1i],

Second sequence is [1,1, -1, -1i],

Third sequence is [1, -1,1, -1i],

4th sequence is [1, -1, -1,1i],

5th sequence is [1,1,1i, 1],

6th sequence is [1,1, -1i, -1],

7th sequence is [1, -1,1i, -1],

8th sequence is [1, -1, -1i, 1],

9th sequence is [1,1i, 1,1],

Tenth sequence is [1,1i, -1, -1],

11st sequence is [1, -1i, 1, -1],

12nd sequence is [1, -1i, -1,1],

13rd sequence is [1,1i, 1i, -1i],

14th sequence is [1,1i, -1i, 1i],

15th sequence is [1, -1i, 1i, 1i],

16th sequence is [1, -1i, -1i, -1i]；

Arrangement set 4：

The arrangement set 4, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1, -1i],

Second sequence is [1,1, -1,1i],

Third sequence is [1, -1,1,1i],

4th sequence is [1, -1, -1, -1i],

5th sequence is [1,1,1i, -1],

6th sequence is [1,1, -1i, 1],

7th sequence is [1, -1,1i, 1],

8th sequence is [1, -1, -1i, -1],

9th sequence is [1,1i, 1, -1],

Tenth sequence is [1,1i, -1,1],

11st sequence is [1, -1i, 1,1],

12nd sequence is [1, -1i, -1, -1],

13rd sequence is [1,1i, 1i, 1i],

14th sequence is [1,1i, -1i, -1i],

15th sequence is [1, -1i, 1i, -1i],

16th sequence is [1, -1i, -1i, 1i]；

Arrangement set 5：

The arrangement set 5, comprising the sequence that 32 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1i, -1, -1i],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1i, -1,1i],

5th sequence is [1,1,1i, -1i],

6th sequence is [1,1i, -1i, -1],

7th sequence is [1, -1,1i, 1i],

8th sequence is [1, -1i, -1i, 1],

9th sequence is [1,1i, 1, -1i],

Tenth sequence is [1, -1, -1, -1],

11st sequence is [1, -1i, 1,1i],

12nd sequence is [1,1, -1,1],

13rd sequence is [1,1i, 1i, -1],

14th sequence is [1, -1, -1i, 1i],

15th sequence is [1, -1i, 1i, 1],

16th sequence is [1,1, -1i, -1i],

17th sequence is [1,1,1, -1],

18th sequence is [1,1i, -1,1i],

19th sequence is [1, -1,1,1],

20th sequence is [1, -1i, -1, -1i],

21st sequence is [1,1,1i, 1i],

22nd sequence is [1,1i, -1i, 1],

23rd sequence is [1, -1,1i, -1i],

24th sequence is [1, -1i, -1i, -1],

25th sequence is [1,1i, 1,1i],

26th sequence is [1, -1, -1,1],

27th sequence is [1, -1i, 1, -1i],

28th sequence is [1,1, -1, -1],

29th sequence is [1,1i, 1i, 1],

30th sequence is [1, -1, -1i, -1i],

31st sequence is [1, -1i, 1i, -1],

32nd sequence is [1,1, -1i, 1i]；

Arrangement set 6：

The arrangement set 6, comprising the sequence that 32 length are 4, wherein,

First ray is [1,1,1,1i],

Second sequence is [1,1i, -1,1],

Third sequence is [1, -1,1, -1i],

4th sequence is [1, -1i, -1, -1],

5th sequence is [1,1,1i, 1],

6th sequence is [1,1i, -1i, -1i],

7th sequence is [1, -1,1i, -1],

8th sequence is [1, -1i, -1i, 1i],

9th sequence is [1,1i, 1,1],

Tenth sequence is [1, -1, -1, -1i],

11st sequence is [1, -1i, 1, -1],

12nd sequence is [1,1, -1, i],

13rd sequence is [1,1i, 1i, -1i],

14th sequence is [1, -1, -1i, -1],

15th sequence is [1, -1i, 1i, i],

16th sequence is [1,1, -1i, 1],

17th sequence is [1,1,1, -1i],

18th sequence is [1,1i, -1, -1],

19th sequence is [1, -1,1,1i],

20th sequence is [1, -1i, -1,1],

21st sequence is [1,1,1i, -1],

22nd sequence is [1,1i, -1i, 1i],

23rd sequence is [1, -1,1i, 1],

24th sequence is [1, -1i, -1i, -1i],

25th sequence is [1,1i, 1, -1],

26th sequence is [1, -1, -1,1i],

27th sequence is [1, -1i, 1,1],

28th sequence is [1,1, -1, -1i],

29th sequence is [1,1i, 1i, 1i],

30th sequence is [1, -1, -1i, 1],

31st sequence is [1, -1i, 1i, -1i],

32nd sequence is [1,1, -1i, -1]；

Arrangement set 7：

The arrangement set 7, comprising the sequence that 4 length are 4, wherein,

First ray is [1,0,0,0],

Second sequence is [0,1,0,0],

Third sequence is [0,0,1,0],

4th sequence is [0,0,0,1]；

Arrangement set 8：

The arrangement set 8, comprising the sequence that 16 length are 6, wherein,

First ray is [1,0,1,0,1,0],

Second sequence is [- 1,0,1,0, -1,0],

Third sequence is [1,0, -1,0, -1,0],

4th sequence is [- 1,0, -1,0,1,0],

5th sequence is [1,0,0,1,0,1],

6th sequence is [- 1,0,0,1,0, -1],

7th sequence is [1,0,0, -1,0, -1],

8th sequence is [- 1,0,0, -1,0,1],

9th sequence is [0,1,1,0,0,1],

Tenth sequence is [0, -1,1,0,0, -1],

11st sequence is [0,1, -1,0,0, -1],

12nd sequence is [0, -1, -1,0,0,1],

13rd sequence is [0,1,0,1,1,0],

14th sequence is [0, -1,0,1, -1,0],

15th sequence is [0,1,0, -1, -1,0],

16th sequence is [0, -1,0, -1,1,0]；

Arrangement set 9：

The arrangement set 9, comprising the sequence that 16 length are 6, wherein,

First ray is [1,1,1,0,0,0],

Second sequence is [- 1,1, -1,0,0,0],

Third sequence is [1, -1, -1,0,0,0],

4th sequence is [- 1, -1,1,0,0,0],

5th sequence is [0,0,1,1,1,0],

6th sequence is [0,0, -1, -1,1,0],

7th sequence is [0,0, -1,1, -1,0],

8th sequence is [0,0,1, -1, -1,0],

9th sequence is [1,0,0,0,1,1],

Tenth sequence is [- 1,0,0,0,1, -1],

11st sequence is [1,0,0,0, -1, -1],

12nd sequence is [- 1,0,0,0, -1,1],

13rd sequence is [0,1,0,1,0,1],

14th sequence is [0,1,0, -1,0, -1],

15th sequence is [0, -1,0,1,0, -1],

16th sequence is [0, -1,0, -1,0,1]；

Arrangement set 10：

The arrangement set 10, comprising the sequence that 16 length are 6, wherein,

First ray is [1,1,1,1,1,1],

Second sequence is [1,1,1,1, -1, -1],

Third sequence is [1,1,1, -1,1, -1],

4th sequence is [1,1,1, -1, -1,1],

5th sequence is [1,1, -1,1,1, -1],

6th sequence is [1,1, -1,1, -1,1],

7th sequence is [1,1, -1, -1,1,1],

8th sequence is [1,1, -1, -1, -1, -1],

9th sequence is [1, -1,1,1,1, -1],

Tenth sequence is [1, -1,1,1, -1,1],

11st sequence is [1, -1,1, -1,1,1],

12nd sequence is [1, -1,1, -1, -1, -1],

13rd sequence is [1, -1, -1,1,1,1],

14th sequence is [1, -1, -1,1, -1, -1],

15th sequence is [1, -1, -1, -1,1, -1],

16th sequence is [1, -1, -1, -1, -1,1]；

Arrangement set 11：

The arrangement set 11, comprising the sequence that 32 length are 4, wherein,

First ray is [1+0i, 1+0i, 1+0i, 1+0i],

Second sequence is [1+0i, 0+1i, -1+0i, -0-1i],

Third sequence is [1+0i, -1+0i, 1+0i, -1+0i],

4th sequence is [1+0i, -0-1i, -1+0i, 0+1i],

5th sequence is [0+2i, -0-1i, 0+2i, 0+1i],

6th sequence is [0+2i, 1+0i, -0-2i, 1+0i],

7th sequence is [0+2i, 0+1i, 0+2i, -0-1i],

8th sequence is [0+2i, -1+0i, -0-2i, -1+0i],

9th sequence is [0+2i, -0-1i, -1+0i, 2+0i],

Tenth sequence is [0+2i, 1+0i, 1+0i-0-2i],

11st sequence is [0+2i, 0+1i, -1+0i, -2+0i],

12nd sequence is [0+2i, -1+0i, 1+0i, 0+2i],

13rd sequence is [0+2i, -0-1i, 0+0i, -1+0i],

14th sequence is [0+2i, 1+0i, 0+0i, 0+1i],

15th sequence is [0+2i, 0+1i, 0+0i, 1+0i],

16th sequence is [0+2i, -1+0i, 0+0i, -0-1i],

17th sequence is [- 1+0i, -0-1i, -0-2i, -2+0i],

18th sequence is [- 1+0i, 1+0i, 0+2i, 0+2i],

19th sequence is [- 1+0i, 0+1i, -0-2i, 2+0i],

20th sequence is [- 1+0i, -1+0i, 0+2i, -0-2i],

21st sequence is [- 1+0i, -2+0i, 0+2i, 0+1i],

22nd sequence is [- 1+0i, -0-2i, -0-2i, 1+0i],

23rd sequence is [- 1+0i, 2+0i, 0+2i, -0-1i],

24th sequence is [- 1+0i, 0+2i, -0-2i, -1+0i],

25th sequence is [- 1+0i, -2+0i, 1+0i, -2+0i],

26th sequence is [- 1+0i, -0-2i, -1+0i, 0+2i],

27th sequence is [- 1+0i, 2+0i, 1+0i, 2+0i],

28th sequence is [- 1+0i, 0+2i, -1+0i, -0-2i],

29th sequence is [- 1+0i, -2+0i, -0-1i, 0+0i],

30th sequence is [- 1+0i, -0-2i, 0+1i, 0+0i],

31st sequence is [- 1+0i, 2+0i, -0-1i, 0+0i],

32nd sequence is [- 1+0i, 0+2i, 0+1i, 0+0i]；

Wherein, i is imaginary unit, i=sqrt (- 1)；Or

To arrangement set 1, arrangement set 2, arrangement set 3, arrangement set 4, arrangement set 5, arrangement set 6, arrangement set 7, Sequence in this 11 arrangement sets of arrangement set 8, arrangement set 9, arrangement set 10, arrangement set 11, carries out down respectively State any set for handling and obtaining：

Wherein, any processing, including：

1,1i, -1 or -1i are multiplied by the Y sequential element of every sequence in arrangement set or every sequence or are multiplied by The E powers of 1i；Alternatively,

The Y sequential element of every sequence in arrangement set or every sequence is carried out F* π phase adjustment or rotation or Person, is multiplied by exp (j*F* π), and j is imaginary unit, j=sqrt (- 1)；Alternatively,

Designated value is multiplied by the Y sequential element of every sequence in arrangement set or every sequence or is multiplied by finger respectively Definite value；

9. data creation method according to claim 1, which is characterized in that the third is determined from third arrangement set Sequence, and when the third arrangement set includes the arrangement set obtained according to First ray set and the second arrangement set,

The arrangement set obtained according to the First ray set and second arrangement set, including it is following at least it One：

Any one sequence in the First ray set carries out a little with any one sequence in second arrangement set Multiply the arrangement set of Sequence composition that processing obtains；

Any one sequence in the First ray set is multiplied with any one sequence in second arrangement set The arrangement set for the Sequence composition that method is handled；

The element of any one sequence in the First ray set replaces any one sequence in second arrangement set The arrangement set for the Sequence composition that the nonzero element of row obtains；

The element of any one sequence in the First ray set and any one sequence in second arrangement set Nonzero element carry out the arrangement set of Sequence composition that handles of dot product.

10. data creation method according to claim 1, which is characterized in that determined according to First ray and the second sequence During third sequence or

The First ray is obtained from First ray set, including one below：

First ray is obtained from the First ray set using randomly selected mode；

11. data creation method according to claim 1, which is characterized in that determined according to First ray and the second sequence During third sequence or

12. data creation method according to claim 1, which is characterized in that determined according to First ray and the second sequence During third sequence,

The nonzero element in second sequence is replaced using the element in the First ray, generates third sequence；Alternatively,

The value that element in the First ray with the nonzero element in second sequence obtain after dot product processing is replaced The nonzero element in second sequence is changed, generates third sequence.

13. data creation method according to claim 1, which is characterized in that described the is determined from third arrangement set During three sequences,

14. data creation method according to claim 1, which is characterized in that

When determining third sequence according to First ray and the second sequence, alternatively, determining the third sequence from third arrangement set Row, and when the third arrangement set includes the arrangement set obtained according to First ray set and the second arrangement set, it is described Method further includes one below：

The third sequence is determined from third arrangement set, and state third arrangement set do not include according to First ray set and During the arrangement set that the second arrangement set obtains, the method further includes one below：

15. data creation method according to claim 1, which is characterized in that the method further includes：

1,1i, -1 or -1i are multiplied by each element or V element of the third sequence, alternatively, being multiplied by the G powers of 1i； Alternatively,

16. data creation method according to claim 1, which is characterized in that described to use the third sequence pair first Data carry out processing the second data of generation, including：

17. data creation method according to claim 1, which is characterized in that the method further includes：

18. data creation method according to claim 1, which is characterized in that

19. data creation method according to claim 1, which is characterized in that

20. data creation method according to claim 17, which is characterized in that the transfer resource specified includes following At least one：Carrier wave, time slot, running time-frequency resource, spatial domain resource, code domain resource, frequency-hopping mode, antenna port.

21. data creation method according to claim 20, which is characterized in that the running time-frequency resource is believed for upstream data Road either uplink control channel or random access channel.

22. data creation method according to claim 1, which is characterized in that first data include it is following at least it One information：Situation of remote, the operation information of driver, the information and control signaling that vehicle sensors are perceived；Wherein, the vehicle Condition information includes at least one of：Vehicular mark, the travel speed of the vehicle current geographic position, the vehicle, The color of the size of the vehicle, the vehicle；The operation information includes at least one of：The driver is to the vehicle Ongoing operation, the driver prepare the operation carried out to the vehicle.

23. a kind of data generating device, which is characterized in that described device includes：

Determination unit, for determining third sequence according to First ray and the second sequence, wherein, the First ray is from the first sequence It is obtained in row set, second sequence is obtained from the second arrangement set；Alternatively, described the is determined from third arrangement set Three sequences；

Wherein, M, L, N, C, P, W are positive integer.

24. data generating device according to claim 23, which is characterized in that the determination unit according to First ray and The value of sequential element in first specified sequence set described in when second sequence determines third sequence or

The determination unit determines the sequence in the third specified sequence set during third sequence from third arrangement set The value of column element, both from least one following set：

25. data generating device according to claim 23, which is characterized in that the determination unit according to First ray and When second sequence determines third sequence, alternatively, determining the third sequence from third arrangement set, and the third sequence sets When closing the arrangement set including being obtained according to First ray set and the second arrangement set,

Arrangement set 1：

The arrangement set 1, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1,1i, -1i],

Third sequence is [1,1i, 1, -1i],

4th sequence is [1,1i, 1i, -1]；

Arrangement set 2：

The arrangement set 2, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1, -1],

Second sequence is [1,1,1i, 1i],

Third sequence is [1,1i, 1,1i],

4th sequence is [1,1i, 1i, 1]；

Arrangement set 3：

The arrangement set 2, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1i],

Second sequence is [1,1,1i, 1],

Third sequence is [1,1i, 1,1],

4th sequence is [1,1i, 1i, -1i]；

Arrangement set 4：

The arrangement set 4, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1, -1i],

Second sequence is [1,1,1i, -1],

Third sequence is [1,1i, 1, -1],

4th sequence is [1,1i, 1i, 1i]；

Arrangement set 5：

The arrangement set 5, comprising the sequence that 1 length is 2, wherein,

First ray is [1,1]；

Arrangement set 6：

The arrangement set 6, comprising the sequence that 1 length is 2, wherein,

First ray is [1, -1]；

Arrangement set 7：

The arrangement set 7, comprising the sequence that 1 length is 2, wherein,

First ray is [1,1i]；

Arrangement set 8：

The arrangement set 8, comprising the sequence that 1 length is 2, wherein,

First ray is [1, -1i]；

Arrangement set 9：

The arrangement set 9, comprising the sequence that 4 length are 1, wherein,

First ray is [1],

Second sequence is [1i],

Third sequence is [- 1],

4th sequence is [- 1i]；

Arrangement set 10：

The arrangement set 10, comprising the sequence that 4 length are 1, wherein,

First ray is [1+1i],

Second sequence is [- 1+1i],

Third sequence is [- 1-1i],

4th sequence is [1-1i]；

Arrangement set 11：

The arrangement set 11, comprising the sequence that 2 length are 1, wherein,

First ray is [1],

Second sequence is [- 1]；

Arrangement set 12：

The arrangement set 12, comprising the sequence that 2 length are 1, wherein,

First ray is [1i],

Second sequence is [- 1i]；

Arrangement set 13：

The arrangement set 13, comprising the sequence that 1 length is 1, wherein,

First ray is [1]；

Arrangement set 14：

The arrangement set 14, comprising the sequence that 1 length is 1, wherein,

First ray is [- 1]；

Arrangement set 15：

The arrangement set 15, comprising the sequence that 1 length is 1, wherein,

First ray is [1i]；

Arrangement set 16：

The arrangement set 16, comprising the sequence that 1 length is 1, wherein,

First ray is [- 1i]；

Arrangement set 17：

The arrangement set 17, comprising the sequence that 4 length are 3, wherein,

First ray is [1,1,1]；

Second sequence is [1, -1, -1],

Third sequence is [- 1,1, -1],

4th sequence is [- 1,1,1]；

Wherein, i is imaginary unit, i=sqrt (- 1).

26. data generating device according to claim 23, which is characterized in that the determination unit according to First ray and When second sequence determines third sequence, alternatively, determining the third sequence from third arrangement set, and the third sequence sets When closing the arrangement set including being obtained according to First ray set and the second arrangement set, it is additionally operable to：

27. data generating device according to claim 23, which is characterized in that the determination unit according to First ray and When second sequence determines third sequence, alternatively, determining the third sequence from third arrangement set, and the third sequence sets It closes and includes the second specified sequence set, the arrangement set handled to the second specified sequence set, according to first During at least one arrangement set that arrangement set and the second arrangement set obtain,

The second specified sequence set includes at least one of：

Hadamard sequences set；

Walsh sequence set；

Discrete Fourier transform arrangement set；

Unit matrix arrangement set.

28. data generating device according to claim 23, which is characterized in that the determination unit according to First ray and When second sequence determines third sequence, alternatively, determining the third sequence from third arrangement set, and the third sequence sets It closes and includes the second specified sequence set, the arrangement set handled to the second specified sequence set, according to First ray During at least one arrangement set that set and the second arrangement set obtain,

Arrangement set 1：

The arrangement set 1, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1, -1, -1],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1, -1,1]；

Arrangement set 2：

The arrangement set 2, comprising the sequence that 4 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1i, -1, -1i],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1i, -1,1i]；

Arrangement set 3：

The arrangement set 3, comprising the sequence that 2 length are 2, wherein,

First ray is [1,1],

Second sequence is [1, -1]；

Arrangement set 4：

The arrangement set 4, comprising the sequence that 1 length is 1, wherein,

First ray is [1]；

Arrangement set 5：

The arrangement set 5, comprising the sequence that 6 length are 4, wherein,

First ray is [1,1,0,0],

Second sequence is [1,0,1,0],

Third sequence is [1,0,0,1],

4th sequence is [0,1,1,0],

5th sequence is [0,1,0,1],

6th sequence is [0,0,1,1]；

Arrangement set 6：

The arrangement set 6, comprising the sequence that 4 length are 6, wherein,

First ray is [1,1,1,0,0,0],

Second sequence is [1,0,0,1,1,0],

Third sequence is [0,1,0,0,1,1],

4th sequence is [0,0,1,1,0,1],

Arrangement set 7：

The arrangement set 7, comprising the sequence that 4 length are 6, wherein,

First ray is [1,0,1,0,1,0],

Second sequence is [1,0,0,1,0,1],

Third sequence is [0,1,1,0,0,1],

4th sequence is [0,1,0,1,1,0],

Arrangement set 8：

The arrangement set 8, comprising the sequence that 4 length are 4, wherein,

First ray is [1,0,0,0],

Second sequence is [0,1,0,0],

Third sequence is [0,0,1,0],

4th sequence is [0,0,0,1]；

Arrangement set 9：

The arrangement set 9, comprising the sequence that 6 length are 6, wherein,

First ray is [1,1,1,1,1,1],

Second sequence is [1,1,1i, -1, -1, -1i],

Third sequence is [1,1i, -1i, 1i, -1i, -1],

4th sequence is [1, -1,1, -1i, -1,1i],

5th sequence is [1, -1, -1,1,1i, -1i],

6th sequence is [1, -1i, -1, -1,1,1i]；

Wherein, i is imaginary unit, i=sqrt (- 1).

29. data generating device according to claim 23, which is characterized in that the determination unit according to First ray and When second sequence determines third sequence, alternatively, determining the third sequence from third arrangement set, and the third sequence sets It closes and includes the second specified sequence set, the arrangement set handled to the second specified sequence set, according to First ray During at least one arrangement set that set and the second arrangement set obtain, it is additionally operable to：

30. data generating device according to claim 23, which is characterized in that the determination unit is from third arrangement set In determine the third sequence when,

Arrangement set 1：

The arrangement set 1, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1, -1, -1],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1, -1,1],

5th sequence is [1,1,1i, -1i],

6th sequence is [1,1, -1i, 1i],

7th sequence is [1, -1,1i, 1i],

8th sequence is [1, -1, -1i, -1i],

9th sequence is [1,1i, 1, -1i],

Tenth sequence is [1,1i, -1,1i],

11st sequence is [1, -1i, 1,1i],

12nd sequence is [1, -1i, -1, -1i],

13rd sequence is [1,1i, 1i, -1],

14th sequence is [1,1i, -1i, 1],

15th sequence is [1, -1i, 1i, 1],

16th sequence is [1, -1i, -1i, -1]；

Arrangement set 2：

The arrangement set 2, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1, -1],

Second sequence is [1,1, -1,1],

Third sequence is [1, -1,1,1],

4th sequence is [1, -1, -1, -1],

5th sequence is [1,1,1i, 1i],

6th sequence is [1,1, -1i, -1i],

7th sequence is [1, -1,1i, -1i],

8th sequence is [1, -1, -1i, 1i],

9th sequence is [1,1i, 1,1i],

Tenth sequence is [1,1i, -1, -1i],

11st sequence is [1, -1i, 1, -1i],

12nd sequence is [1, -1i, -1,1i],

13rd sequence is [1,1i, 1i, 1],

14th sequence is [1,1i, -1i, -1],

15th sequence is [1, -1i, 1i, -1],

16th sequence is [1, -1i, -1i, 1]；

Arrangement set 3：

The arrangement set 3, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1,1i],

Second sequence is [1,1, -1, -1i],

Third sequence is [1, -1,1, -1i],

4th sequence is [1, -1, -1,1i],

5th sequence is [1,1,1i, 1],

6th sequence is [1,1, -1i, -1],

7th sequence is [1, -1,1i, -1],

8th sequence is [1, -1, -1i, 1],

9th sequence is [1,1i, 1,1],

Tenth sequence is [1,1i, -1, -1],

11st sequence is [1, -1i, 1, -1],

12nd sequence is [1, -1i, -1,1],

13rd sequence is [1,1i, 1i, -1i],

14th sequence is [1,1i, -1i, 1i],

15th sequence is [1, -1i, 1i, 1i],

16th sequence is [1, -1i, -1i, -1i]；

Arrangement set 4：

The arrangement set 4, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1, -1i],

Second sequence is [1,1, -1,1i],

Third sequence is [1, -1,1,1i],

4th sequence is [1, -1, -1, -1i],

5th sequence is [1,1,1i, -1],

6th sequence is [1,1, -1i, 1],

7th sequence is [1, -1,1i, 1],

8th sequence is [1, -1, -1i, -1],

9th sequence is [1,1i, 1, -1],

Tenth sequence is [1,1i, -1,1],

11st sequence is [1, -1i, 1,1],

12nd sequence is [1, -1i, -1, -1],

13rd sequence is [1,1i, 1i, 1i],

14th sequence is [1,1i, -1i, -1i],

15th sequence is [1, -1i, 1i, -1i],

16th sequence is [1, -1i, -1i, 1i]；

Arrangement set 5：

The arrangement set 5, comprising the sequence that 16 length are 4, wherein,

First ray is [1,1,1,1],

Second sequence is [1,1i, -1, -1i],

Third sequence is [1, -1,1, -1],

4th sequence is [1, -1i, -1,1i],

5th sequence is [1,1,1i, -1i],

6th sequence is [1,1i, -1i, -1],

7th sequence is [1, -1,1i, 1i],

8th sequence is [1, -1i, -1i, 1],

9th sequence is [1,1i, 1, -1i],

Tenth sequence is [1, -1, -1, -1],

11st sequence is [1, -1i, 1,1i],

12nd sequence is [1,1, -1,1],

13rd sequence is [1,1i, 1i, -1],

14th sequence is [1, -1, -1i, 1i],

15th sequence is [1, -1i, 1i, 1],

16th sequence is [1,1, -1i, -1i]；

17th sequence is [1,1,1, -1],

18th sequence is [1,1i, -1,1i],

19th sequence is [1, -1,1,1],

20th sequence is [1, -1i, -1, -1i],

21st sequence is [1,1,1i, 1i],

22nd sequence is [1,1i, -1i, 1],

23rd sequence is [1, -1,1i, -1i],

24th sequence is [1, -1i, -1i, -1],

25th sequence is [1,1i, 1,1i],

26th sequence is [1, -1, -1,1],

27th sequence is [1, -1i, 1, -1i],

28th sequence is [1,1, -1, -1],

29th sequence is [1,1i, 1i, 1],

30th sequence is [1, -1, -1i, -1i],

31st sequence is [1, -1i, 1i, -1],

32nd sequence is [1,1, -1i, 1i]；

Arrangement set 6：

The arrangement set 6, comprising the sequence that 32 length are 4, wherein,

First ray is [1,1,1,1i],

Second sequence is [1,1i, -1,1],

Third sequence is [1, -1,1, -1i],

4th sequence is [1, -1i, -1, -1],

5th sequence is [1,1,1i, 1],

6th sequence is [1,1i, -1i, -1i],

7th sequence is [1, -1,1i, -1],

8th sequence is [1, -1i, -1i, 1i],

9th sequence is [1,1i, 1,1],

Tenth sequence is [1, -1, -1, -1i],

11st sequence is [1, -1i, 1, -1],

12nd sequence is [1,1, -1, i],

13rd sequence is [1,1i, 1i, -1i],

14th sequence is [1, -1, -1i, -1],

15th sequence is [1, -1i, 1i, i],

16th sequence is [1,1, -1i, 1],

17th sequence is [1,1,1, -1i],

18th sequence is [1,1i, -1, -1],

19th sequence is [1, -1,1,1i],

20th sequence is [1, -1i, -1,1],

21st sequence is [1,1,1i, -1],

22nd sequence is [1,1i, -1i, 1i],

23rd sequence is [1, -1,1i, 1],

24th sequence is [1, -1i, -1i, -1i],

25th sequence is [1,1i, 1, -1],

26th sequence is [1, -1, -1,1i],

27th sequence is [1, -1i, 1,1],

28th sequence is [1,1, -1, -1i],

29th sequence is [1,1i, 1i, 1i],

30th sequence is [1, -1, -1i, 1],

31st sequence is [1, -1i, 1i, -1i],

32nd sequence is [1,1, -1i, -1]；

Arrangement set 7：

The arrangement set 7, comprising the sequence that 4 length are 4, wherein,

First ray is [1,0,0,0],

Second sequence is [0,1,0,0],

Third sequence is [0,0,1,0],

4th sequence is [0,0,0,1]；

Arrangement set 8：

The arrangement set 8, comprising the sequence that 16 length are 6, wherein,

First ray is [1,0,1,0,1,0],

Second sequence is [- 1,0,1,0, -1,0],

Third sequence is [1,0, -1,0, -1,0],

4th sequence is [- 1,0, -1,0,1,0],

5th sequence is [1,0,0,1,0,1],

6th sequence is [- 1,0,0,1,0, -1],

7th sequence is [1,0,0, -1,0, -1],

8th sequence is [- 1,0,0, -1,0,1],

9th sequence is [0,1,1,0,0,1],

Tenth sequence is [0, -1,1,0,0, -1],

11st sequence is [0,1, -1,0,0, -1],

12nd sequence is [0, -1, -1,0,0,1],

13rd sequence is [0,1,0,1,1,0],

14th sequence is [0, -1,0,1, -1,0],

15th sequence is [0,1,0, -1, -1,0],

16th sequence is [0, -1,0, -1,1,0]；

Arrangement set 9：

The arrangement set 9, comprising the sequence that 16 length are 6, wherein,

First ray is [1,1,1,0,0,0],

Second sequence is [- 1,1, -1,0,0,0],

Third sequence is [1, -1, -1,0,0,0],

4th sequence is [- 1, -1,1,0,0,0],

5th sequence is [0,0,1,1,1,0],

6th sequence is [0,0, -1, -1,1,0],

7th sequence is [0,0, -1,1, -1,0],

8th sequence is [0,0,1, -1, -1,0],

9th sequence is [1,0,0,0,1,1],

Tenth sequence is [- 1,0,0,0,1, -1],

11st sequence is [1,0,0,0, -1, -1],

12nd sequence is [- 1,0,0,0, -1,1],

13rd sequence is [0,1,0,1,0,1],

14th sequence is [0,1,0, -1,0, -1],

15th sequence is [0, -1,0,1,0, -1],

16th sequence is [0, -1,0, -1,0,1]；

Arrangement set 10：

The arrangement set 10, comprising the sequence that 16 length are 6, wherein,

First ray is [1,1,1,1,1,1],

Second sequence is [1,1,1,1, -1, -1],

Third sequence is [1,1,1, -1,1, -1],

4th sequence is [1,1,1, -1, -1,1],

5th sequence is [1,1, -1,1,1, -1],

6th sequence is [1,1, -1,1, -1,1],

7th sequence is [1,1, -1, -1,1,1],

8th sequence is [1,1, -1, -1, -1, -1],

9th sequence is [1, -1,1,1,1, -1],

Tenth sequence is [1, -1,1,1, -1,1],

11st sequence is [1, -1,1, -1,1,1],

12nd sequence is [1, -1,1, -1, -1, -1],

13rd sequence is [1, -1, -1,1,1,1],

14th sequence is [1, -1, -1,1, -1, -1],

15th sequence is [1, -1, -1, -1,1, -1],

16th sequence is [1, -1, -1, -1, -1,1]；

Arrangement set 11：

The arrangement set 11, comprising the sequence that 32 length are 4, wherein,

First ray is [1+0i, 1+0i, 1+0i, 1+0i],

Second sequence is [1+0i, 0+1i, -1+0i, -0-1i],

Third sequence is [1+0i, -1+0i, 1+0i, -1+0i],

4th sequence is [1+0i, -0-1i, -1+0i, 0+1i],

5th sequence is [0+2i, -0-1i, 0+2i, 0+1i],

6th sequence is [0+2i, 1+0i, -0-2i, 1+0i],

7th sequence is [0+2i, 0+1i, 0+2i, -0-1i],

8th sequence is [0+2i, -1+0i, -0-2i, -1+0i],

9th sequence is [0+2i, -0-1i, -1+0i, 2+0i],

Tenth sequence is [0+2i, 1+0i, 1+0i-0-2i],

11st sequence is [0+2i, 0+1i, -1+0i, -2+0i],

12nd sequence is [0+2i, -1+0i, 1+0i, 0+2i],

13rd sequence is [0+2i, -0-1i, 0+0i, -1+0i],

14th sequence is [0+2i, 1+0i, 0+0i, 0+1i],

15th sequence is [0+2i, 0+1i, 0+0i, 1+0i],

16th sequence is [0+2i, -1+0i, 0+0i, -0-1i],

17th sequence is [- 1+0i, -0-1i, -0-2i, -2+0i],

18th sequence is [- 1+0i, 1+0i, 0+2i, 0+2i],

19th sequence is [- 1+0i, 0+1i, -0-2i, 2+0i],

20th sequence is [- 1+0i, -1+0i, 0+2i, -0-2i],

21st sequence is [- 1+0i, -2+0i, 0+2i, 0+1i],

22nd sequence is [- 1+0i, -0-2i, -0-2i, 1+0i],

23rd sequence is [- 1+0i, 2+0i, 0+2i, -0-1i],

24th sequence is [- 1+0i, 0+2i, -0-2i, -1+0i],

25th sequence is [- 1+0i, -2+0i, 1+0i, -2+0i],

26th sequence is [- 1+0i, -0-2i, -1+0i, 0+2i],

27th sequence is [- 1+0i, 2+0i, 1+0i, 2+0i],

28th sequence is [- 1+0i, 0+2i, -1+0i, -0-2i],

29th sequence is [- 1+0i, -2+0i, -0-1i, 0+0i],

30th sequence is [- 1+0i, -0-2i, 0+1i, 0+0i],

31st sequence is [- 1+0i, 2+0i, -0-1i, 0+0i],

32nd sequence is [- 1+0i, 0+2i, 0+1i, 0+0i]；

Wherein, i is imaginary unit, i=sqrt (- 1)；

Wherein, any processing, including：

31. data generating device according to claim 23, which is characterized in that the determination unit is from third arrangement set In determine the third sequence, and the third arrangement set includes obtaining according to First ray set and the second arrangement set During arrangement set,

The determination unit is additionally operable to through at least one of mode according to the First ray set and second sequence Gather obtained arrangement set：

32. data generating device according to claim 23, which is characterized in that the determination unit according to First ray and When second sequence determines third sequence or

First ray is obtained from the First ray set using randomly selected mode；

33. data generating device according to claim 23, which is characterized in that the determination unit according to First ray and When second sequence determines third sequence, alternatively, determining the third sequence from third arrangement set, and the third sequence sets It closes and includes the second specified sequence set, the arrangement set handled to the second specified sequence set, according to First ray During at least one arrangement set that set and the second arrangement set obtain,

34. data generating device according to claim 23, which is characterized in that the determination unit according to First ray and When second sequence determines third sequence, it is additionally operable to：

35. data generating device according to claim 23, which is characterized in that the determination unit is from third arrangement set In determine the third sequence when, be additionally operable to：

36. data generating device according to claim 23, which is characterized in that described device further includes normalized list Member, wherein,

When the determination unit determines third sequence according to First ray and the second sequence, alternatively, from third arrangement set Determine the third sequence, and the third arrangement set includes the sequence obtained according to First ray set and the second arrangement set During row set, the normalized unit is used for：

The third sequence is determined from third arrangement set in the determination unit, and states third arrangement set and does not include basis During the arrangement set that First ray set and the second arrangement set obtain, the normalized unit is used for：

37. data generating device according to claim 23, which is characterized in that the determination unit is additionally operable to：

38. data generating device according to claim 23, which is characterized in that the generation unit is additionally operable to：

39. data generating device according to claim 23, which is characterized in that described device further includes：

Map unit for second data to be mapped to the transfer resource specified, is used to form transmitting signal and hair It send.

40. data generating device according to claim 23, which is characterized in that

41. data generating device according to claim 23, which is characterized in that

42. data generating device according to claim 39, which is characterized in that the transfer resource specified includes following At least one：Carrier wave, time slot, running time-frequency resource, spatial domain resource, code domain resource, frequency-hopping mode, antenna port.

43. data generating device according to claim 42, which is characterized in that the running time-frequency resource is believed for upstream data Road either uplink control channel or random access channel.

44. data generating device according to claim 23, which is characterized in that first data include it is following at least it One information：Situation of remote, the operation information of driver, the information and control signaling that vehicle sensors are perceived；Wherein, the vehicle Condition information includes at least one of：Vehicular mark, the travel speed of the vehicle current geographic position, the vehicle, The color of the size of the vehicle, the vehicle；The operation information includes at least one of：The driver is to the vehicle Ongoing operation, the driver prepare the operation carried out to the vehicle.

45. a kind of equipment, which is characterized in that the equipment includes processor and is stored with the processor-executable instruction Memory when described instruction is executed by processor, performs following operation：

Wherein, M, L, N, C, P, W are positive integer.

46. equipment according to claim 45, which is characterized in that the processor is true according to First ray and the second sequence The value of sequential element in first specified sequence set described in when determining third sequence, alternatively, being determined from third arrangement set The value of sequential element during the third sequence in the third specified sequence set, both from it is following set at least it One：

{ 1,1i, -1, -1i }；{ 1, -1 }；{ 1i, -1i }；{1}；{-1}；{1i}；{-1i}；{ 1+1i, -1+1i, -1-1i, 1- 1i}；Wherein, i is imaginary unit, i=sqrt (- 1).

47. equipment according to claim 45, which is characterized in that the processor is true according to First ray and the second sequence When determining third sequence, alternatively, determining the third sequence from third arrangement set, and the third arrangement set includes basis During the arrangement set that First ray set and the second arrangement set obtain, it is additionally operable to：

The processor determines the third sequence from third arrangement set, and states third arrangement set and do not include according to first During the arrangement set that arrangement set and the second arrangement set obtain, it is additionally operable to：

48. equipment according to claim 45, which is characterized in that the processor is additionally operable to the every of the third sequence A element or V element are multiplied by 1,1i, -1 or -1i, alternatively, being multiplied by the G powers of 1i；Alternatively,

49. equipment according to claim 45, which is characterized in that the processor is also used for the third sequence pair First data are extended processing the second data of generation；Or,

50. equipment according to claim 45, which is characterized in that the processor is additionally operable to map second data Onto specified transfer resource, it is used to form transmitting signal and transmission.