CN109873917A - The wireless image transmission means of communication, device, Image transmission equipment and system - Google Patents
The wireless image transmission means of communication, device, Image transmission equipment and system Download PDFInfo
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- CN109873917A CN109873917A CN201910217876.4A CN201910217876A CN109873917A CN 109873917 A CN109873917 A CN 109873917A CN 201910217876 A CN201910217876 A CN 201910217876A CN 109873917 A CN109873917 A CN 109873917A
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Abstract
The application provides a kind of wireless image transmission means of communication, device, Image transmission equipment and system, which comprises if being currently at figure passes time slot, passes point again and again based on available figure and carries out image transmitting;The condition that preset transmission image can be met with the channel quality that figure passes frequency point;If being currently at the signalling time slot, determination can use frequency hopping frequency point from the specified frequency hopping frequency point in the corresponding frequency range of figure biography frequency point, can carry out signalling with frequency hopping frequency point based on described;It is described to meet default signalling condition with the channel quality of frequency hopping frequency point.The application efficiently solves the problems, such as that the transmission stability of wireless image transmission in the related technology is poor, guarantees the transmission stability of wireless image transmission.
Description
Technical field
This application involves field of image transmission more particularly to a kind of wireless image transmission means of communication, device, Image transmission equipment and it is
System.
Background technique
Wireless image transmission it is to be understood that wireless image transmission.Currently, the application system scope of wireless image transmission includes: mould
Quasi- transmission, number biography/network radio station, GSM (Global System for Mobile Communications, global system for mobile telecommunications
System)/GPRS (General Packet Radio Service, General Packet Radio Service), CDMA (Code division
Multiple access, CDMA), digital microwave (most of be spread spectrum microwave), WLAN (wireless network), COFDM (Code
Orthogonal frequency divisiomultiplexing, orthogonal frequency division multiplexing) etc..Wireless image transmission technology is widely applied
In fields such as monitoring, movies-making, unmanned planes.Referring to Fig. 1, wireless image transmission communication system chief component usually wraps
Contain: Image Acquisition end (such as camera), figure pass transmission system, figure passes reception system and figure transmitting/playing system.
Wireless image transmission communication system includes the wireless image transmission communication system such as WIFI communicated with fixed frequency at present
Figure passes communication system, and the wireless image transmission communication system such as bluetooth wireless image transmission communication system communicated based on frequency hopping
System;WIFI figure biography communication system has the function of ACS (automatic frequency selection) when, it can be achieved that being switched on and screens optimal frequency point comprising
AP (WirelessAccessPoint, access point) and STA (station, work station) after the upper AP of STA connection, are based on this wirelessly
Link and the optimal frequency point of screening carry out image or audio video transmission and other Signalling exchanges;The communication of bluetooth wireless image transmission
System uses frequency hopping, the carrier frequency of frequency hopping by a pseudo noise code control, in its band of operation, frequency synthesis
Device constantly changes frequency by the random law of pseudo noise code (PN code), so that the frequency based on jump carries out image or audio-video
Transmission and other Signalling exchanges.
In the implementation of the present invention, inventor has found: the wireless image transmission communication system communicated with fixed frequency
Anti-interference ability is weaker;And although the wireless image transmission communication system communicated based on frequency hopping has certain anti-interference energy
Power, but its can only the selected frequency of random law based on pseudo noise code communicated, and the random law of pseudo noise code is
The channel situation of the frequency of the selection in practical communication process can not be embodied, the channel resource of the frequency of its possible selection is in reality
It is occupied in use process, cause transmitting terminal to be obstructed with end communication is received, to affect the transmission stability of wireless image transmission.
Summary of the invention
In view of this, the application provides a kind of wireless image transmission means of communication, device, Image transmission equipment and system.
Firstly, the first aspect of the application provides a kind of wireless image transmission means of communication, suitable for supporting the figure of TDMA to pass
Equipment is divided into figure and passes time slot and signalling time slot in the period of the TDMA, which comprises
If being currently at figure passes time slot, point again and again is passed based on available figure and carries out image transmitting;It is described to pass frequency point with figure
Channel quality meets the condition of preset transmission image;
If being currently at the signalling time slot, determined from the specified frequency hopping frequency point in the corresponding frequency range of figure biography frequency point
Frequency hopping frequency point can be used, signalling can be carried out with frequency hopping frequency point based on described;It is described to be met with the channel quality of frequency hopping frequency point
Default signalling condition.
Optionally, the determination from the specified frequency hopping frequency point that can be passed with figure in the corresponding frequency range of frequency point can use frequency hopping
Frequency point, comprising:
Successively the channel of the specified frequency hopping frequency point is detected based on frequency hopping path, frequency hopping frequency can be used until obtaining
Point;The frequency hopping path is determined by pre-generated pseudo noise code.
Optionally, further includes:
It can periodically be detected with the channel that other figures other than figure biography frequency point pass frequency point in addition to described, by channel
The figure that quality meets the condition of the preset transmission image passes frequency point and is recorded as spare figure biography frequency point, so that described passed with figure
When the channel quality of frequency point does not meet the condition of the preset transmission image, what determination was new from the spare figure biography frequency point can
Frequency point is passed with figure.
Optionally, the method is applied to transmitting terminal;
The method also includes:
If being currently at the signalling time slot, and it is not received by the response message of receiving end within a preset time, from described
Optimal available frequency hopping frequency point is obtained in specified frequency hopping frequency point;The channel quality of the optimal available frequency hopping frequency point is optimal;
Signalling is carried out based on the optimal available frequency hopping frequency point, to receive the response message of the receiving end.
Optionally, the signalling time slot is divided into signaling reception time slot and signaling sending time slots;
The method is applied to receiving end;
Then the method also includes:
If being not received by the response message of transmitting terminal within a preset time, response message is being sent to the transmitting terminal
Following steps are executed before:
After figure biography time slot or the signaling sending time slots to be switched to signaling and receive time slot, used from described
Figure, which passes determination in the specified frequency hopping frequency point in the corresponding frequency range of frequency range point, can use frequency hopping frequency point, based on it is described can with frequency hopping frequency point into
Row signalling.
According to the second aspect of the embodiment of the present application, a kind of wireless image transmission communication device is provided, suitable for supporting TDMA's
Image transmission equipment, is divided into figure biography time slot in the period of the TDMA and signalling time slot, described device include:
Image transmission module passes point again and again based on available figure and carries out image transmitting if passing time slot for being currently at figure;Institute
State the condition that the channel quality that available figure passes frequency point meets preset transmission image;
Signalling module, if being passed in the corresponding frequency range of frequency point from described with figure for being currently at the signalling time slot
Determination can use frequency hopping frequency point in specified frequency hopping frequency point, can carry out signalling with frequency hopping frequency point based on described;It is described to use frequency hopping
The channel quality of frequency point meets default signalling condition.
According to the third aspect of the embodiment of the present application, a kind of Image transmission equipment is provided, comprising:
Processor;
Memory for storage processor executable instruction;
Wherein, the processor is configured to:
If being currently at figure passes time slot, point again and again is passed based on available figure and carries out image transmitting;It is described to pass frequency point with figure
Channel quality meets the condition of preset transmission image;
If being currently at the signalling time slot, determined from the specified frequency hopping frequency point in the corresponding frequency range of figure biography frequency point
Frequency hopping frequency point can be used, signalling can be carried out with frequency hopping frequency point based on described;It is described to be met with the channel quality of frequency hopping frequency point
Default signalling condition.
Optionally, the Image transmission equipment is the Image transmission equipment of transmitting terminal;
Then the processor is also configured to
If being currently at the signalling time slot, and it is not received by the response message of receiving end within a preset time, from described
Optimal available frequency hopping frequency point is obtained in specified frequency hopping frequency point;The channel quality of the optimal available frequency hopping frequency point is optimal;
Signalling is carried out based on the optimal available frequency hopping frequency point, to receive the response message of the receiving end.
Optionally, the Image transmission equipment is the Image transmission equipment of receiving end;
Then the processor is also configured to
If being not received by the response message of the transmitting terminal within a preset time, responded being sent to the transmitting terminal
Following steps are executed before message:
After figure biography time slot or the signaling sending time slots to be switched to signaling and receive time slot, used from described
Figure, which passes determination in the specified frequency hopping frequency point in the corresponding frequency range of frequency range point, can use frequency hopping frequency point, based on it is described can with frequency hopping frequency point into
Row signalling.
According to the fourth aspect of the embodiment of the present application, additionally provide a kind of wireless image transmission communication system, including transmitting terminal with
Receiving end;
The transmitting terminal and the receiving end are performed both by:
If being currently at figure passes time slot, point again and again is passed based on available figure and carries out image transmitting;It is described to pass frequency point with figure
Channel quality meets the condition of preset transmission image;
If being currently at the signalling time slot, determined from the specified frequency hopping frequency point in the corresponding frequency range of figure biography frequency point
Frequency hopping frequency point can be used, signalling can be carried out with frequency hopping frequency point based on described;It is described to be met with the channel quality of frequency hopping frequency point
Default signalling condition.
Optionally, the transmitting terminal if being also used to be currently at the signalling time slot, and is not received by within a preset time
The response message of receiving end obtains optimal available frequency hopping frequency point from the specified frequency hopping frequency point, is based on the optimal available jump
Again and again point carries out signalling, to receive the response message of the receiving end;The channel quality of the optimal available frequency hopping frequency point
It is optimal;
The receiving end, if being also used to be not received by the response message of the transmitting terminal within a preset time, to
The transmitting terminal executes following steps before sending response message: cutting by figure biography time slot or the signaling sending time slots
It is changed to after signaling reception time slot, determining from the specified frequency hopping frequency point in the corresponding frequency range of figure biography frequency range point can be used
Frequency hopping frequency point can carry out signalling with frequency hopping frequency point based on described.
The technical solution that embodiments herein provides can include the following benefits:
The application is carried out data transmission using TDMA transmission mode, be divided into the period of the TDMA figure pass time slot and
Signalling time slot passes point again and again based on available figure and carries out image transmitting if being currently at figure passes time slot;If be currently at signaling
Gap, then frequency hopping frequency point can be used by passing determination in the specified frequency hopping frequency point in the corresponding frequency range of frequency point with figure from described, based on described
Signalling can be carried out with frequency hopping frequency point;The embodiment of the present application, which realizes, first confirms that available figure passes frequency point, and further obtains
In the specified frequency hopping frequency point in the corresponding frequency range of figure biography frequency point, guarantee the preliminary available of the specified frequency hopping frequency point
Property, then available frequency hopping frequency point is further determined that from the specified frequency hopping frequency point, the channel quality with frequency hopping frequency point accords with
Default signalling condition is closed, so that based on described signalling can be carried out with frequency hopping frequency point, not only increases anti-interference, and
And guarantee the transmission stability of wireless image transmission.
It should be understood that above general description and following detailed description be only it is exemplary and explanatory, not
The application can be limited.
Detailed description of the invention
Fig. 1 is the schematic diagram of the wireless image transmission communication system provided in background technique;
A kind of Fig. 2A the application embodiment flow chart of the wireless image transmission means of communication shown according to an exemplary embodiment;
Fig. 2 B is the embodiment stream of the application second of wireless image transmission means of communication shown according to an exemplary embodiment
Cheng Tu;
Fig. 3 is the embodiment process of the application the third wireless image transmission means of communication shown according to an exemplary embodiment
Figure;
Fig. 4 is interaction timing when the application transmitting terminal shown according to an exemplary embodiment and receiving end are interfered
Figure;
Fig. 5 is the embodiment process of the application the 4th kind of wireless image transmission means of communication shown according to an exemplary embodiment
Figure;
Fig. 6 is a kind of the application signal of the embodiment of wireless image transmission communication device shown according to an exemplary embodiment
Figure;
Fig. 7 provides a kind of schematic diagram of Image transmission equipment according to an exemplary embodiment for the application;
Fig. 8 provides a kind of schematic diagram of wireless image transmission communication system according to an exemplary embodiment for the application.
Specific embodiment
Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to
When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment
Described in embodiment do not represent all embodiments consistent with the application.On the contrary, they be only with it is such as appended
The example of the consistent device and method of some aspects be described in detail in claims, the application.
It is only to be not intended to be limiting the application merely for for the purpose of describing particular embodiments in term used in this application.
It is also intended in the application and the "an" of singular used in the attached claims, " described " and "the" including majority
Form, unless the context clearly indicates other meaning.It is also understood that term "and/or" used herein refers to and wraps
It may be combined containing one or more associated any or all of project listed.
It will be appreciated that though various information, but this may be described using term first, second, third, etc. in the application
A little information should not necessarily be limited by these terms.These terms are only used to for same type of information being distinguished from each other out.For example, not departing from
In the case where the application range, the first information can also be referred to as the second information, and similarly, the second information can also be referred to as
One information.Depending on context, word as used in this " if " can be construed to " ... when " or " when ...
When " or " in response to determination ".
The wireless image transmission communication system anti-interference ability communicated in the related technology with fixed frequency is weaker;And based on jump
Although the wireless image transmission communication system that frequency technology is communicated has certain anti-interference ability, but it can only be based on pseudo noise code
The selected frequency of random law communicated, and the random law of pseudo noise code can not embody in practical communication process
The channel resource of the channel situation of the frequency of selection, the frequency of its possible selection is occupied in actual use, causes
Transmitting terminal is obstructed with end communication is received, to affect the transmission stability of wireless image transmission.
Based on problem present in above-mentioned the relevant technologies, the embodiment of the present application provides a kind of wireless image transmission means of communication,
It can effectively solve the problem of the transmission stability difference of wireless image transmission in the related technology.Fig. 2A is please referred to, is the application according to one
A kind of embodiment flow chart of wireless image transmission means of communication shown in exemplary embodiment, the method are suitable for supporting TDMA
The Image transmission equipment of (Time division multiple access, time division multiple acess), the Image transmission equipment can be computer, hand
The technical equipment with image wireless transmission function such as machine, personal plate, Intelligent flat or server;The TDMA technology is
One kind is the communication technology for realizing shared transmission medium (usually radio art) or network, it allows multiple users not
Same timeslice (time slot) is come using identical frequency;In the embodiment of the present application, figure is divided into the period of the TDMA
Time slot and signalling time slot are passed, wherein figure is transmitted through journey in a manner of one-way communication, then it is that figure passes hair that the figure in transmitting terminal, which passes time slot,
Time slot is sent, it is that figure passes reception time slot that the figure in receiving end, which passes time slot,;Signalling process is in a manner of both-way communication, the letter
It enables time slot be divided into signaling and receives time slot and signaling sending time slots, the receiving end and the transmitting terminal include the two letters
Enable time slot;It should be noted that the wireless image transmission communication process of the embodiment of the present application carries out data transmission on a radio frequency link.
Fig. 2A is please referred to, the wireless image transmission means of communication include:
Step S101 passes point again and again based on available figure and carries out image transmitting if being currently at figure passes time slot;The figure
The channel quality for passing frequency point meets the condition of preset transmission image.
Step S102, if being currently at the signalling time slot, from the specified frequency hopping in the corresponding frequency range of figure biography frequency point
Determination can use frequency hopping frequency point in frequency point, can carry out signalling with frequency hopping frequency point based on described;The letter with frequency hopping frequency point
Road quality meets default signalling condition.
It should be noted that the wireless image transmission means of communication of the present embodiment can be applied to the Image transmission equipment of transmitting terminal, it can also
Image transmission equipment applied to receiving end.
In step s101, the Image transmission equipment, which passes determination in frequency point from specified figure in advance, to pass frequency point with figure, described
Specified figure passes frequency point based on to what is obtained after target spectrum progress frequency range division, specifically, carries out to the target spectrum
After frequency range divides, figure biography frequency point is determined in each frequency range, in one example, as shown in table 1,5745~
5 segments are divided in the frequency spectrum of 5825 this 100M, determine that the figure in each frequency range passes frequency point, it is corresponding that the figure passes frequency point
Channel width is 20M.
Table 1
Frequency range (value of frequency point) | Bandwidth | Figure passes frequency point |
5735-5754(5745) | 20M | 5745 |
5755-5774(5765) | 20M | 5765 |
5775-5794(5785) | 20M | 5785 |
5795-5814(5805) | 20M | 5805 |
5815-5834(5825) | 20M | 5825 |
Wherein, it includes: the Image transmission equipment to all that the Image transmission equipment passes determination in frequency point to pass frequency point with figure from figure
Figure passes the corresponding frequency point of frequency point and is scanned, and passes the channel of frequency point to detect the figure, and channel quality is met preset biography
The figure of the condition of defeated image, which passes frequency point conduct, to pass frequency point with figure;It is understood that the application is for the transmission image
Any restrictions are not done in the specific setting of condition, can be specifically arranged according to actual conditions, such as the Image transmission equipment can select
Corresponding channel remaining bandwidth resource is selected more than preset threshold, such as 85%, 90% or 95% figure biography frequency point conduct can
Frequency point is passed with figure.In the present embodiment, after can passing frequency point described in the determination with figure, with this information it is possible to determine available figure pass frequency point and be greater than
Or be equal to 1, however, it is determined that available figure to pass the quantity of frequency point be 1, then transmitting terminal can pass frequency point hair based on the available figure
It send image and receiving end that can pass frequency point based on the available figure and receives image;If it is determined that available figure pass frequency point quantity be greater than
1, then communication two party (transmitting terminal and receiving end) can pass frequency point with figure based on the selection rule selection made an appointment, thus
Ensure communication two party work under same frequency point, guarantees that figure passes the reliable transmission of data and stablizes transmission;It is understood that
The application does not do any restrictions for the selection rule, can be specifically arranged according to actual conditions, such as can be according to frequency
Section divides vertical sequential selection first available figure and passes frequency point, perhaps select the last one available figure pass frequency point or
The available figure on designated position is selected to pass frequency point etc..
In the present embodiment, the receiving end is in the case where being currently at figure and passing sending time slots, based on can use figure described in determining
It passes to be put again and again to receiving end and sends image, and synchronously, the transmitting terminal is in the case where being currently at figure and passing reception time slot, based on true
The fixed image for using the figure biography point reception transmitting terminal again and again to send.
In step s 102, if being currently at the signalling time slot, the Image transmission equipment is corresponded to from described with figure biography frequency point
Frequency range in specified frequency hopping frequency point in determination can use frequency hopping frequency point, the specified frequency hopping frequency point be with it is described with figure pass frequency point
Target signaling frequency point in same frequency range.
It should be noted that dividing frequency range to the target spectrum in advance, and determine that a figure passes in each frequency range
While frequency point, the signaling frequency point of preset quantity is determined in each frequency range, it is to be understood that the application is for determining letter
The case where enabling the quantity of frequency point not do any restrictions, can dividing according to practical frequency range is specifically arranged, such as can be at one
3 signaling frequency points, 5 signaling frequency points or 7 signaling frequency points etc. are divided in frequency range, in one example, please refer to table 2,
5 segments are divided in the frequency spectrum of 5745~5825 this 100M, determine that the figure in each frequency range passes frequency point, the figure passes frequency point pair
The channel width answered is 20M, while 8 signaling frequency points in each frequency range has been determined, the corresponding channel of the signaling frequency point
Bandwidth is 2M.
Table 2
In the present embodiment, the Image transmission equipment using the signaling frequency point for using figure to pass in the corresponding frequency range of frequency point as
Specified frequency hopping frequency point, and when being in the signalling time slot, the Image transmission equipment selects that jump can be used from the specified frequency hopping frequency point
It is frequent, it is described to meet default signalling condition with the channel quality of frequency hopping frequency point;It is understood that the application is implemented
Example does not do any restrictions for the setting of the signalling condition, can be specifically arranged according to actual conditions, such as described
Corresponding channel remaining bandwidth resource can be more than preset threshold, such as 90% or 95% specified frequency hopping frequency by Image transmission equipment
Point conduct can use frequency hopping frequency point.
In one possible implementation, the Image transmission equipment can carry out channel inspection to all specified frequency hopping frequency points
Survey, channel quality met into the specified frequency hopping frequency point of default signalling condition as can use frequency hopping frequency point, with this information it is possible to determine can
Be more than or equal to 1 with the quantity of frequency hopping frequency point, however, it is determined that the quantity of available frequency hopping frequency point be 1, then transmitting terminal can be with
It jumps to the available frequency hopping frequency point and can be used frequency hopping frequency point and receiving end progress signalling and receiving end same based on this
Step jumps to the available frequency hopping frequency point and carries out signalling based on the available frequency hopping frequency point and the transmitting terminal;If it is determined that can
It is greater than 1 with the quantity of frequency hopping frequency point, then communication two party (transmitting terminal and receiving end) can be based on the signaling selection made an appointment
Rule selection can use frequency hopping frequency point, so that it is guaranteed that communication two party work guarantees the reliable transmission of signaling data under same frequency point
And stablize transmission;It is understood that the application does not do any restrictions for signaling selection rule, it can be according to practical feelings
Condition is specifically arranged, such as vertical sequential selection first available frequency hopping frequency can be divided according to available frequency hopping frequency point
Point perhaps selects the last one available frequency hopping frequency point or selects the available frequency hopping frequency point etc. on designated position;It can also foundation
The sequence of the channel width resource with frequency hopping frequency point from big to small selects the available frequency hopping frequency that channel width resource is optimal
Point etc..
In alternatively possible implementation, the Image transmission equipment can be based on frequency hopping path successively to the specified jump
Again and again the channel put is detected, and can use frequency hopping frequency point until obtaining;The frequency hopping path is true by pre-generated pseudo noise code
Fixed, specifically, the frequency hopping path is to be passed in the corresponding frequency range of frequency point to described with figure based on pre-generated pseudo noise code
All specified frequency hopping frequency points be ranked up after generate, it is to be understood that generation of the application for the pseudo noise code
Algorithm does not do any restrictions, can be specifically chosen according to actual conditions, for example, can be RS (Reed-Solomon) algorithm,
Gold algorithm, m algorithm or M algorithm;The embodiment of the present application ensure that by treating the detection of the channel of the frequency hopping frequency point of jump
Signalling stablizes transmission.
In one example, please refer to table 2, for example, specified frequency hopping frequency point be (5777,5779,5781,5783,5787,
It 5789,5791,5793) is, (5781 → 5787 → 5777 → 5791 → 5779 based on the frequency hopping path that the pseudo noise code determines
→ 5793 → 5783 → 5789), if being currently at the signalling time slot, than transmitting terminal as is now described be in signaling sending time slots and
The receiving end is synchronous to receive time slot in signaling, and communication two party (transmitting terminal and receiving end) is from not used specified frequency hopping frequency point
5781 start, and the channel of detection frequency point 5781 makees frequency point 5781 if its channel quality meets default signalling condition
For frequency hopping frequency point can be used, the transmitting terminal jumps to frequency point 5781 and sends signaling to the receiving end based on frequency point 5781, and
And the receiving end synchronizes the signaling for jumping to frequency point 5781 and receiving the transmitting terminal based on frequency point 5781;If frequency point 5781
Channel quality does not meet default signalling condition, then screens out frequency point 5781, frequency point 5787 is continued to test, until according to described
Frequency hopping path detection meets the available frequency hopping frequency point of default signalling condition to first channel quality;It should be noted that
Communication two party (transmitting terminal and receiving end) be specified frequency hopping frequency point that is not used and not screened out is detected, such as on
In the specified frequency hopping frequency point stated, in upper primary signalling time slot communication process, detect that 5781 channel quality of frequency point is not met
Default signalling condition is screened out, and channel quality has been used to meet the frequency point 5787 of default signalling condition, then is existed
Current signalling time slot, the receiving end and the transmitting terminal are based on frequency hopping path and detect since frequency point 5777.
The embodiment of the present application, which realizes, first confirms that available figure passes frequency point, and further obtains and pass frequency point with figure described
Specified frequency hopping frequency point in corresponding frequency range, guarantees the preliminary availability of the specified frequency hopping frequency point, then from the specified frequency hopping
Available frequency hopping frequency point is further determined that in frequency point, it is described to meet default signalling condition with the channel quality of frequency hopping frequency point,
To which based on described signalling can be carried out with frequency hopping frequency point, anti-interference is not only increased, and guarantee the biography of wireless image transmission
Defeated stability.
Fig. 2 B is please referred to, is the application second of wireless image transmission means of communication shown according to an exemplary embodiment, it should
The technical solution of the disclosure is described in more detail relative to Fig. 1 for embodiment.The method specifically includes:
Step S201 passes point again and again based on available figure and carries out image transmitting if being currently at figure passes time slot;The figure
The channel quality for passing frequency point meets the condition of preset transmission image.Similar with the step S101 in Fig. 1, details are not described herein again.
Step S202, if being currently at the signalling time slot, from the specified frequency hopping in the corresponding frequency range of figure biography frequency point
Determination can use frequency hopping frequency point in frequency point, can carry out signalling with frequency hopping frequency point based on described;The letter with frequency hopping frequency point
Road quality meets default signalling condition.Similar with the step S102 in Fig. 1, details are not described herein again.
Step S203 can periodically be examined in addition to described with the channel that other figures other than figure biography frequency point pass frequency point
It surveys, the figure that channel quality meets the condition of the preset transmission image is passed into frequency point and is recorded as spare figure biography frequency point, so that institute
When stating the condition that can be used the channel quality of figure biography frequency point not meet the preset transmission image, passed in frequency point from the spare figure
Determine that new available figure passes frequency point.
It should be noted that the wireless image transmission means of communication of the present embodiment can be applied to the Image transmission equipment of transmitting terminal, it can also
Image transmission equipment applied to receiving end.
In step S203, the Image transmission equipment can pass frequency point to other figures other than the biography frequency point with figure
Channel is periodically detected, to determine that other figures pass the real-time status of the channel of frequency point, if detecting the presence of channel matter
The figure that amount meets the condition of the preset transmission image passes frequency point, then is recorded as spare figure and passes frequency point, use described
When the channel quality that figure passes frequency point does not meet the condition of the preset transmission image, the Image transmission equipment is then from the spare figure
It passes and determines that new available figure passes frequency point in frequency point, and the corresponding frequency range of frequency point is passed based on new available figure and determines new specified jump
It is frequent, guarantee the safety and stability of wireless image transmission communication;It should be noted that communication two party is based on the frequency made an appointment
Point selection rule carries out the selection that new available figure passes frequency point, so that it is guaranteed that passing frequency point in same available figure carries out image transmitting,
Guarantee the reliability and stability of figure transmission.
In one embodiment, the Image transmission equipment can be based on pre-generated pseudo noise code to new specified frequency hopping frequency point
It is ranked up, to obtain new frequency hopping path, to ensure that signalling path communication security and reliability.
Fig. 3 and Fig. 4 is please referred to, is the application the third wireless image transmission communication side shown according to an exemplary embodiment
The technical solution of the disclosure is described in more detail relative to Fig. 1 for method, the embodiment.The wireless image transmission means of communication of the present embodiment are answered
For the Image transmission equipment of transmitting terminal, the method is specifically included:
Step S301 passes point again and again based on available figure and carries out image transmitting if being currently at figure passes time slot;The figure
The channel quality for passing frequency point meets the condition of preset transmission image.Similar with the step S101 in Fig. 1, details are not described herein again.
Step S302, if being currently at the signalling time slot, from the specified frequency hopping in the corresponding frequency range of figure biography frequency point
Determination can use frequency hopping frequency point in frequency point, can carry out signalling with frequency hopping frequency point based on described;The letter with frequency hopping frequency point
Road quality meets default signalling condition.Similar with the step S102 in Fig. 1, details are not described herein again.
Step S303, if being currently at the signalling time slot, and the response for being not received by receiving end within a preset time disappears
Breath, obtains optimal available frequency hopping frequency point from the specified frequency hopping frequency point, carries out signaling based on the optimal available frequency hopping frequency point
Transmission, to receive the response message of the receiving end;The channel quality of the optimal available frequency hopping frequency point is optimal.
In the present embodiment, a TDMA period of transmitting terminal includes that figure passes sending time slots, signaling receives time slot and letter
Enable sending time slots;One TDMA period of receiving end includes that figure passes reception time slot, signaling receives time slot and signaling sending time slots.
In step S303, if being currently at the signalling time slot, and it is not received by the sound of receiving end within a preset time
Message is answered, shows that the communication process of Current communications both sides is influenced by air interference, then the transmitting terminal is to all specified jumps
Again and again point is detected, and obtains the optimal specified frequency hopping frequency point of channel quality as optimal available frequency hopping frequency point, then described
Transmitting terminal is switched to the optimal available frequency hopping frequency point, and carries out signaling based on the optimal available frequency hopping frequency point and receiving end and lead to
News, to receive the response message of the receiving end.
Specifically, the receiving end is based on the optimal available frequency hopping frequency point to reception when being in signaling sending time slots
End sends inquiry message, and when receiving time slot in signaling, to be received described based on the optimal available frequency hopping frequency point etc.
The response message of receiving end, and the figure is passed time slot for the receiving end or the signaling sending time slots are switched to signaling and receive
After time slot, determination can carry out frequency handover with frequency hopping frequency point, until being switched to the optimal available frequency hopping frequency point and receiving
The inquiry message sends response message to the transmitting terminal based on the inquiry message, then the transmitting terminal can be in
Signaling receives the response message of the receiving end when receiving time slot, both sides restore normal communication, to guarantee signaling communication
Reliability.
Fig. 4 and Fig. 5 is please referred to, is the application the 4th kind of wireless image transmission communication side shown according to an exemplary embodiment
The technical solution of the disclosure is described in more detail relative to Fig. 1 for method, the embodiment.The wireless image transmission means of communication of the present embodiment are answered
For the Image transmission equipment of receiving end, the method is specifically included:
Step S401 passes point again and again based on available figure and carries out image transmitting if being currently at figure passes time slot;The figure
The channel quality for passing frequency point meets the condition of preset transmission image.Similar with the step S101 in Fig. 1, details are not described herein again.
Step S402, if being currently at the signalling time slot, from the specified frequency hopping in the corresponding frequency range of figure biography frequency point
Determination can use frequency hopping frequency point in frequency point, can carry out signalling with frequency hopping frequency point based on described;The letter with frequency hopping frequency point
Road quality meets default signalling condition.Similar with the step S102 in Fig. 1, details are not described herein again.
Step S403 is sent out if being not received by the response message of transmitting terminal within a preset time to the transmitting terminal
It send and executes following steps before response message: being received figure biography time slot or the signaling sending time slots are switched to signaling
After time slot, determination can use frequency hopping frequency point, base from the specified frequency hopping frequency point in the corresponding frequency range of figure biography frequency range point
Signalling is carried out with frequency hopping frequency point in described.
In the present embodiment, a TDMA period of receiving end includes that figure passes reception time slot, signaling receives time slot and letter
Enable sending time slots.
In step S403, if being not received by the response message of transmitting terminal within a preset time, show that Current communications are double
The communication process of side is influenced by air interference, and the transmitting terminal is based on the optimal available frequency hopping frequency point and receiving end carries out letter
Communication is enabled, to receive the response message of the receiving end, correspondingly, figure biography reception time slot is switched to signaling and connect by the transmitting terminal
Time receiving gap, or signaling sending time slots are switched to after signaling receives time slot, the corresponding frequency of frequency range point is passed with figure from described
Determination can use frequency hopping frequency point in specified frequency hopping frequency point in section, and can use the transmitting terminals to be received such as frequency hopping frequency point based on described
Message, the transmitting terminal is based on that can carry out frequency point jump with frequency hopping frequency point described in determining, until the frequency point of the receiving end
When being switched to optimal available frequency hopping frequency point identical with the transmitting terminal, the inquiry that the receiving end receives the transmitting terminal disappears
Breath, then the transmitting terminal generates response message, and the message based on the transmitting terminal based on the inquiry message of the transmitting terminal
In included timestamp when the transmitting terminal is switched to signaling and receives time slot, synchronism switching is signaling sending time slots, then
Response message is sent to the transmitting terminal based on the optimal available frequency hopping frequency point, so that both sides restore normal communication mistake
Journey guarantees the reliability of signaling communication.
Corresponding with the embodiment of the wireless image transmission means of communication of the application, it is logical that present invention also provides a kind of wireless image transmissions
Interrogate the embodiment of device, Image transmission equipment, wireless image transmission communication system and computer readable storage medium.
As shown in fig. 6, the application also provides a kind of wireless image transmission communication device, suitable for supporting the Image transmission equipment of TDMA,
It is divided into figure biography time slot in the period of the TDMA and signalling time slot, device include:
Image transmission module 21 passes point again and again based on available figure and carries out image transmitting if passing time slot for being currently at figure;
The condition that preset transmission image can be met with the channel quality that figure passes frequency point.
Signalling module 22, if being passed in the corresponding frequency range of frequency point from described with figure for being currently at the signalling time slot
Specified frequency hopping frequency point in determination can use frequency hopping frequency point, signalling can be carried out with frequency hopping frequency point based on described;The jump
Again and again the channel quality put meets default signalling condition.
Optionally, the signalling module includes:
Frequency hopping frequency point determination unit can be used, if for being currently at the signalling time slot, based on frequency hopping path successively to the finger
The channel for determining frequency hopping frequency point is detected, and can use frequency hopping frequency point until obtaining;The frequency hopping path is based on pre-generated puppet
Random code generates described can be passed with figure after all specified frequency hopping frequency points in the corresponding frequency range of frequency point are ranked up.
Signalling unit, for based on described signalling can be carried out with frequency hopping frequency point.
Optionally, further includes:
Frequency point detection module, the channel for passing frequency point to other figures other than the biography frequency point with figure carry out week
The figure that channel quality meets the condition of the preset transmission image is passed frequency point and is recorded as spare figure biography frequency by the detection of phase property
Point, so that when the condition that can not meet the preset transmission image with the channel quality that figure passes frequency point, from described spare
Figure, which passes, determines that new available figure passes frequency point in frequency point.
Optionally, described device is applied to the Image transmission equipment of transmitting terminal.
The signalling module 22 if being also used to be currently at the signalling time slot, and does not receive within a preset time
To the response message of receiving end, optimal available frequency hopping frequency point is obtained from the specified frequency hopping frequency point, based on described optimal available
Frequency hopping frequency point carries out signalling, to receive the response message of the receiving end;The channel matter of the optimal available frequency hopping frequency point
It measures optimal.
Optionally, the signalling time slot is divided into signaling reception time slot and signaling sending time slots.
Described device is applied to the Image transmission equipment of receiving end;
The signalling module 22, if being also used to be not received by the response message of transmitting terminal within a preset time,
Following steps are executed before sending response message to the transmitting terminal: when the figure is passed time slot or signaling transmission
Gap is switched to after signaling reception time slot, is determined from the specified frequency hopping frequency point in the corresponding frequency range of figure biography frequency range point
Frequency hopping frequency point can be used, signalling can be carried out with frequency hopping frequency point based on described.
For device embodiment, since it corresponds essentially to embodiment of the method, so related place is referring to method reality
Apply the part explanation of example.The apparatus embodiments described above are merely exemplary, wherein being used as separate part description
Unit may or may not be physically separated, component shown as a unit may or may not be
Physical unit, it can it is in one place, or may be distributed over multiple network units.It can be according to the actual needs
Some or all of the modules therein is selected to realize the purpose of the present invention program.Those of ordinary skill in the art are not paying wound
In the case that the property made is worked, it can understand and implement.
Correspondingly, the application also provides a kind of Image transmission equipment 30 as shown in Figure 7, it include processor 31;It can for storing
The memory 32 executed instruction, the memory 32 include computer program 33;Wherein, processor 31 is configured as:
If being currently at figure passes time slot, point again and again is passed based on available figure and carries out image transmitting;It is described to pass frequency point with figure
Channel quality meets the condition of preset transmission image;
If being currently at the signalling time slot, determined from the specified frequency hopping frequency point in the corresponding frequency range of figure biography frequency point
Frequency hopping frequency point can be used, signalling can be carried out with frequency hopping frequency point based on described;It is described to be met with the channel quality of frequency hopping frequency point
Default signalling condition.
The processor 31 executes the computer program 33 for including in the memory 32, during the processor 31 can be
Central Processing Unit (Central Processing Unit, CPU), can also be other general processors, digital signal processor
(Digital Signal Processor, DSP), specific integrated circuit (Application Specific Integrated
Circuit, ASIC), ready-made programmable gate array (Field-Programmable Gate Array, FPGA) or other can
Programmed logic device, discrete gate or transistor logic, discrete hardware components etc..General processor can be microprocessor
Or the processor is also possible to any conventional processor etc..
The memory 32 stores the computer program of the wireless image transmission means of communication, and the memory 32 may include
The storage medium of at least one type, storage medium include flash memory, hard disk, multimedia card, card-type memory (for example, SD or DX
Memory etc.), random access storage device (RAM), static random-access memory (SRAM), read-only memory (ROM), electricity can
Erasable programmable read-only memory (EPROM) (EEPROM), programmable read only memory (PROM), magnetic storage, disk, CD etc..
Moreover, equipment can cooperate with the network storage device for the store function for executing memory by network connection.Memory 32 can
To be the internal storage unit of equipment 30, such as the hard disk or memory of equipment 30.Memory 32 is also possible to the outside of equipment 30
The plug-in type hard disk being equipped in storage equipment, such as equipment 30, intelligent memory card (Smart Media Card, SMC), safe number
Word (Secure Digital, SD) card, flash card (Flash Card) etc..Further, memory 32 can also both include setting
Standby 30 internal storage unit also includes External memory equipment.Memory 32 is for storing needed for computer program 33 and equipment
Other programs and data.Memory 32 can be also used for temporarily storing the data that has exported or will export.
The computer of such as computer software, hardware or any combination thereof can be used in various embodiments described herein
Readable medium is implemented.Hardware is implemented, embodiment described herein can be by using application-specific IC
(ASIC), digital signal processor (DSP), digital signal processing device (DSPD), programmable logic device (PLD), scene can
Programming gate array (FPGA), controller, microcontroller, microprocessor, is designed to execute function described herein processor
At least one of electronic unit is implemented.For software implementation, the embodiment of such as process or function can with allow to hold
The individual software modules of at least one functions or operations of row is implemented.Software code can be by with any programming language appropriate
The software application (or program) write is implemented, and software code can store in memory and be executed by controller.
Electronic equipment 30 includes but is not limited to exist below form: (1) mobile communication equipment: the characteristics of this kind of equipment is tool
Standby mobile communication function, and to provide speech, data communication as main target.This Terminal Type include: smart phone (such as
IPhone), multimedia handset, functional mobile phone and low-end mobile phone etc.;(2) super mobile personal computer equipment: this kind of equipment
The scope for belonging to personal computer has calculating and processing function, generally also has mobile Internet access characteristic.This Terminal Type includes:
PDA, MID and UMPC equipment etc., such as iPad;(3) portable entertainment device: this kind of equipment can show and play in multimedia
Hold.Such equipment includes: audio, video player (such as iPod), handheld device, e-book and intelligent toy and just
Take formula in-vehicle navigation apparatus;(4) server: providing the equipment of the service of calculating, and the composition of server includes processor, hard disk, interior
It deposits, system bus etc., server is similar with general computer architecture, but since it will provide highly reliable service,
Processing capacity, stability, reliability, safety, scalability, in terms of it is more demanding;(5) other have number
According to the electronic equipment of interactive function.Equipment may include, but be not limited only to, processor 31, memory 32.Those skilled in the art can
To understand, Fig. 7 is only the example of electronic equipment 30, does not constitute the restriction to electronic equipment 30, may include than illustrating more
More or less component perhaps combines certain components or different components, such as equipment can also be set including input and output
Standby, network access equipment, bus etc..
Optionally, the Image transmission equipment is the Image transmission equipment of transmitting terminal.
Then the processor is also configured to
If being currently at the signalling time slot, and it is not received by the response message of receiving end within a preset time, from described
Optimal available frequency hopping frequency point is obtained in specified frequency hopping frequency point, signalling is carried out based on the optimal available frequency hopping frequency point, to connect
Receive the response message of the receiving end;The channel quality of the optimal available frequency hopping frequency point is optimal.
Optionally, the Image transmission equipment is the Image transmission equipment of receiving end.
Then the processor is also configured to
If being not received by the response message of the transmitting terminal within a preset time, responded being sent to the transmitting terminal
Following steps are executed before message: by the figure pass time slot or the signaling sending time slots be switched to signaling receive time slot it
Afterwards, frequency hopping frequency point can be used by passing determination in the specified frequency hopping frequency point in the corresponding frequency range of frequency range point with figure from described, based on described
Signalling can be carried out with frequency hopping frequency point.
The function of each unit and the realization process of effect are specifically detailed in the above method and correspond to step in above equipment
Realization process, details are not described herein.
In the exemplary embodiment, a kind of non-transitorycomputer readable storage medium including instruction, example are additionally provided
It such as include the memory of instruction, above-metioned instruction can be executed by the processor of device to complete the above method.For example, non-transitory meter
Calculation machine readable storage medium storing program for executing can be ROM, random access memory (RAM), CD-ROM, tape, floppy disk and optical data storage and set
It is standby etc..
Referring to Fig. 8, present invention also provides a kind of wireless image transmission communication system, including transmitting terminal 41 and receiving end 42;
The transmitting terminal 41 is put to the receiving end 42 if passing time slot for being currently at figure based on available figure biography again and again
Transmit image;The condition that preset transmission image can be met with the channel quality that figure passes frequency point.
The receiving end 42, if passing time slot for being currently at figure, determination can pass frequency point with figure, and pass frequency based on available figure
Frequency point receives the image that the transmitting terminal 41 transmits;It is described to meet preset transmission image with the channel quality of figure biography frequency point
Condition.
The transmitting terminal 41 is passed in the corresponding frequency range of frequency point from described with figure if being also used to be currently at the signalling time slot
Specified frequency hopping frequency point in determination can use frequency hopping frequency point, signaling biography can be carried out with the receiving end 42 with frequency hopping frequency point based on described
It is defeated;It is described to meet default signalling condition with the channel quality of frequency hopping frequency point.
The receiving end 42 is passed in the corresponding frequency range of frequency point from described with figure if being also used to be currently at the signalling time slot
Specified frequency hopping frequency point in determination can use frequency hopping frequency point, signaling biography can be carried out with the transmitting terminal 41 with frequency hopping frequency point based on described
It is defeated;It is described to meet default signalling condition with the channel quality of frequency hopping frequency point.
Optionally, the transmitting terminal 41 if being also used to be currently at the signalling time slot, and does not receive within a preset time
To the response message of receiving end 42, optimal available frequency hopping frequency point is obtained from the specified frequency hopping frequency point, based on it is described it is optimal can
Signalling is carried out with frequency hopping frequency point, to receive the response message of the receiving end 42;The letter of the optimal available frequency hopping frequency point
Road optimal quality.
Correspondingly, the then receiving end 42, if being also used to be not received by the sound of the transmitting terminal 41 within a preset time
Message is answered, then is executed before receiving the inquiry message of the transmitting terminal 41 and sending response message to the transmitting terminal following
Step: after figure biography time slot or the signaling sending time slots to be switched to signaling and receive time slot, from described with figure
Frequency hopping frequency point can be used by passing determination in the specified frequency hopping frequency point in the corresponding frequency range of frequency range point, can be carried out with frequency hopping frequency point based on described
Signalling.
Those skilled in the art after considering the specification and implementing the invention disclosed here, will readily occur to of the invention its
Its embodiment.The present invention is directed to cover any variations, uses, or adaptations of the invention, these modifications, purposes or
Person's adaptive change follows general principle of the invention and including the undocumented common knowledge in the art of the present invention
Or conventional techniques.The description and examples are only to be considered as illustrative, and true scope and spirit of the invention are by following
Claim is pointed out.
It should be understood that the present invention is not limited to the precise structure already described above and shown in the accompanying drawings, and
And various modifications and changes may be made without departing from the scope thereof.The scope of the present invention is limited only by the attached claims.
The above is merely preferred embodiments of the present invention, be not intended to limit the invention, it is all in spirit of the invention and
Within principle, any modification, equivalent substitution, improvement and etc. done be should be included within the scope of the present invention.
Claims (11)
1. a kind of wireless image transmission means of communication, which is characterized in that suitable for supporting the Image transmission equipment of TDMA, the period of the TDMA
It is inside divided into figure and passes time slot and signalling time slot, which comprises
If being currently at figure passes time slot, point again and again is passed based on available figure and carries out image transmitting;The channel that frequency point is passed with figure
Quality meets the condition of preset transmission image;
If being currently at the signalling time slot, determined from the specified frequency hopping frequency point in the corresponding frequency range of figure biography frequency point available
Frequency hopping frequency point can carry out signalling with frequency hopping frequency point based on described;It is described can be met with the channel quality of frequency hopping frequency point it is default
Signalling condition.
2. the wireless image transmission means of communication according to claim 1, which is characterized in that described to pass frequency point pair with figure from described
Determination can use frequency hopping frequency point in specified frequency hopping frequency point in the frequency range answered, comprising:
Successively the channel of the specified frequency hopping frequency point is detected based on frequency hopping path, frequency hopping frequency point can be used until obtaining;Institute
Frequency hopping path is stated to be determined by pre-generated pseudo noise code.
3. the wireless image transmission means of communication according to claim 1, which is characterized in that further include:
It can periodically be detected with the channel that other figures other than figure biography frequency point pass frequency point in addition to described, by channel quality
The figure for meeting the condition of the preset transmission image passes frequency point and is recorded as spare figure biography frequency point, so that described pass frequency point with figure
Channel quality when not meeting the condition of the preset transmission image, passed from the spare figure and determine new available figure in frequency point
Pass frequency point.
4. the wireless image transmission means of communication according to claim 1, which is characterized in that the method is applied to transmitting terminal;
The method also includes:
If being currently at the signalling time slot, and it is not received by the response message of receiving end within a preset time, is specified from described
Optimal available frequency hopping frequency point is obtained in frequency hopping frequency point;The channel quality of the optimal available frequency hopping frequency point is optimal;
Signalling is carried out based on the optimal available frequency hopping frequency point, to receive the response message of the receiving end.
5. the wireless image transmission means of communication according to claim 1, which is characterized in that the signalling time slot is divided into signaling reception
Time slot and signaling sending time slots;
The method is applied to receiving end;
Then the method also includes:
If being not received by the response message of transmitting terminal within a preset time, before sending response message to the transmitting terminal
Execute following steps:
After figure biography time slot or the signaling sending time slots to be switched to signaling and receive time slot, passed from described with figure
Determination can use frequency hopping frequency point in specified frequency hopping frequency point in the corresponding frequency range of frequency range point, can carry out letter with frequency hopping frequency point based on described
Enable transmission.
6. a kind of wireless image transmission communication device, which is characterized in that suitable for supporting the Image transmission equipment of TDMA, the period of the TDMA
It is inside divided into figure biography time slot and signalling time slot, described device includes:
Image transmission module passes point again and again based on available figure and carries out image transmitting if passing time slot for being currently at figure;It is described can
Meet the condition of preset transmission image with the channel quality that figure passes frequency point;
Signalling module, if passing specifying in the corresponding frequency range of frequency point with figure from described for being currently at the signalling time slot
Determination can use frequency hopping frequency point in frequency hopping frequency point, can carry out signalling with frequency hopping frequency point based on described;It is described to use frequency hopping frequency point
Channel quality meet default signalling condition.
7. a kind of Image transmission equipment, which is characterized in that the Image transmission equipment supports TDMA, is divided into figure in the period of the TDMA
It passes time slot and signalling time slot, the equipment includes:
Processor;
Memory for storage processor executable instruction;
Wherein, the processor is configured to:
If being currently at figure passes time slot, point again and again is passed based on available figure and carries out image transmitting;The channel that frequency point is passed with figure
Quality meets the condition of preset transmission image;
If being currently at the signalling time slot, determined from the specified frequency hopping frequency point in the corresponding frequency range of figure biography frequency point available
Frequency hopping frequency point can carry out signalling with frequency hopping frequency point based on described;It is described can be met with the channel quality of frequency hopping frequency point it is default
Signalling condition.
8. Image transmission equipment according to claim 7, which is characterized in that the Image transmission equipment is the Image transmission equipment of transmitting terminal;
Then the processor is also configured to
If being currently at the signalling time slot, and it is not received by the response message of receiving end within a preset time, is specified from described
Optimal available frequency hopping frequency point is obtained in frequency hopping frequency point;The channel quality of the optimal available frequency hopping frequency point is optimal;
Signalling is carried out based on the optimal available frequency hopping frequency point, to receive the response message of the receiving end.
9. Image transmission equipment according to claim 7, which is characterized in that the Image transmission equipment is the Image transmission equipment of receiving end;
Then the processor is also configured to
If being not received by the response message of the transmitting terminal within a preset time, response message is being sent to the transmitting terminal
Following steps are executed before:
After figure biography time slot or the signaling sending time slots to be switched to signaling and receive time slot, passed from described with figure
Determination can use frequency hopping frequency point in specified frequency hopping frequency point in the corresponding frequency range of frequency range point, can carry out letter with frequency hopping frequency point based on described
Enable transmission.
10. a kind of wireless image transmission communication system, which is characterized in that including transmitting terminal and receiving end;
The transmitting terminal and the receiving end are performed both by following steps:
If being currently at figure passes time slot, point again and again is passed based on available figure and carries out image transmitting;The channel that frequency point is passed with figure
Quality meets the condition of preset transmission image;
If being currently at the signalling time slot, determined from the specified frequency hopping frequency point in the corresponding frequency range of figure biography frequency point available
Frequency hopping frequency point can carry out signalling with frequency hopping frequency point based on described;It is described can be met with the channel quality of frequency hopping frequency point it is default
Signalling condition.
11. wireless image transmission communication system according to claim 10, which is characterized in that
The transmitting terminal if being also used to be currently at the signalling time slot, and is not received by the sound of receiving end within a preset time
Message is answered, optimal available frequency hopping frequency point is obtained from the specified frequency hopping frequency point, is carried out based on the optimal available frequency hopping frequency point
Signalling, to receive the response message of the receiving end;The channel quality of the optimal available frequency hopping frequency point is optimal;
The receiving end, if being also used to be not received by the response message of the transmitting terminal within a preset time, in Xiang Suoshu
Transmitting terminal executes following steps before sending response message: being switched to by figure biography time slot or the signaling sending time slots
After signaling receives time slot, determination can use frequency hopping from the specified frequency hopping frequency point that can be passed with figure in the corresponding frequency range of frequency range point
Frequency point can carry out signalling with frequency hopping frequency point based on described.
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Denomination of invention: Wireless image transmission communication method, device, image transmission equipment and system Effective date of registration: 20210826 Granted publication date: 20200814 Pledgee: Shenzhen small and medium sized small loan Co., Ltd Pledgor: SHENZHEN HOLLYLAND TECHNOLOGY Co.,Ltd. Registration number: Y2021440020085 |