CN105743553A - Uplink performance test system and method for multi-antenna mobile terminal - Google Patents

Abstract

The invention provides an uplink emitting performance test system and method for a multi-antenna mobile terminal. The uplink emitting performance test system mainly comprises a multi-antenna terminal to be tested, a signal grouping unit, a detection antenna allocation unit and a test unit, wherein the multi-antenna terminal to be tested is used for generating and transmitting L paths of signals; the signal grouping unit is used for processing the L paths of signals to form K multi-path signals, dividing the K multi-path signals into N groups of multi-path signals, and outputting the N groups of multi-path signals; the detection antenna allocation unit is used for allocating the N groups of multi-path signals to corresponding detection antennas according to a number and position information of the detection antennas in a fully-anechoic darkroom; and the test unit is used for transmitting the N groups of multi-path signals to a base-station simulator through the detection antennas, and processing and measuring the received signals through the base-station simulator to obtain uplink emitting performance of the multi-antenna terminal to be tested. Through adoption of the uplink emitting performance test system and method, uplink emitting performance test can be performed on the multi-antenna terminal in a real environment.

Description

A kind of ascending performance test system and method for multiple antennas mobile terminal

Technical field

The present invention relates to the communications field, the ascending performance particularly to a kind of multiple antennas mobile terminal tests system and method.

Background technology

One of MIMO technology Chief technology becoming next generation wireless communication, adopts the wireless communication system of MIMO technology and wireless terminal also progressively to start to be widely used in practice.On market, the radiance quality of miscellaneous wireless terminal is the focal issue that we pay close attention to.Radiance test and appraisal include up emitting performance and the down-link reception performance of wireless terminal.

About the radiance assessment method of wireless terminal of single-input single-output (SISO, SimpleInputSimpleOutput) and standard applied highly developed.The most frequently used measurement scheme is single antenna OTA (OvertheAir) test carried out in specific full noise elimination darkroom, and test index mainly has up total radiant power TRP and descending total receiving sensitivity TIS.

The leading indicator of current MIMOOTA test is to obtain the change curve of terminal throughput by controlling to arrive the reception watt level at measured terminal antenna port place, handling capacity change curve has weighed the quality of user equipment downlink receptivity, but about the Te st grogram of up emitting performance of the wireless terminal with MIMO and standard also still under discussion.

Based on this, need the solution that the up emitting performance test of a kind of multiple antennas mobile terminal that can carry out under true environment is provided badly.

Summary of the invention

For the deficiencies in the prior art, the invention provides the system of the ascending performance of a kind of multiple antennas mobile terminal test, this system can carry out the test of the up emitting performance of multiple antennas mobile terminal under true environment.It addition, the method additionally providing the ascending performance test of a kind of multiple antennas mobile terminal.

In order to solve above-mentioned technical problem, embodiments of the invention provide firstly the ascending performance test system of a kind of multiple antennas mobile terminal, including: multiple antennas terminal to be measured, it is used for producing and send L road signal, wherein, L is the antenna number of described multiple antennas terminal to be measured；Signal grouped element, for described L road signal is processed, forms K bar multipath signal, and exports after described K bar multipath signal is divided into N group multipath signal；Exploring antenna allocation units, for according to the exploring antenna quantity in full noise elimination darkroom and positional information, distributing to corresponding exploring antenna by described N group multipath signal；Test cell, for described N group multipath signal is sent to base station simulator by exploring antenna, and carries out to the received signal processing and measuring by described base station simulator, obtains the up emitting performance of described multiple antennas terminal to be measured.

Preferably, described signal grouped element farther includes: signal packet subelement, for described L road signal carries out multipath channel process, forms K bar multipath signal；Passage configuration control unit, for the exploring antenna according to described full noise elimination darkroom and positional information, it is determined that multipath signal rule of classification；Signal connexon unit, for according to described multipath signal rule of classification, exporting to described exploring antenna allocation units after described K bar multipath signal is divided into N group multipath signal.

Preferably, described exploring antenna allocation units farther include: full noise elimination darkroom configuration control unit, for storing quantity and the positional information of the exploring antenna in described full noise elimination darkroom, and this information feed back to described passage configuration control unit；Exploring antenna distribution subelement, for determining the allocation rule of exploring antenna；Exploring antenna connexon unit, for the allocation rule according to described exploring antenna, is attached the described N group multipath signal of input and exploring antenna.

Preferably, described multipath signal rule of classification is: the angle that arrives of every multipath signal is normalized to the integral multiple arriving angular unit angle value closest to this multipath signal；The multipath signal with identical normalization arrival angle value is divided into one group；Wherein, described unit angle value refers to the angle in described full noise elimination darkroom between any two exploring antennas.

Preferably, the allocation rule of described exploring antenna is: according to the angle information often organizing multipath signal, be attached by the exploring antenna often organizing the corresponding angle of multipath signal；Wherein, the angle of described exploring antenna refer to the line of this exploring antenna and described base station simulator in the plane that exploring antenna is constituted relative to the angle of reference line, described reference line is a diameter in the circumference of exploring antenna composition, it is preferred to horizontal diameter.

The embodiment of the present invention additionally provides the ascending performance method of testing of a kind of multiple antennas mobile terminal, comprise the following steps: S1, the L road signal sent from multiple antennas terminal to be measured is processed, form K bar multipath signal, and export after described K bar multipath signal is divided into N group multipath signal, wherein, L is the antenna number of described multiple antennas terminal to be measured；S2, according to the quantity of the exploring antenna in full noise elimination darkroom and positional information, described N group multipath signal is distributed to corresponding exploring antenna；S3, N group multipath signal is sent to base station simulator by described exploring antenna, and carries out to the received signal processing and measuring by described base station simulator, obtain the up emitting performance of described multiple antennas terminal to be measured.

Preferably, described step S1 farther includes: S11, described L road signal carries out multipath channel process, forms K bar multipath signal；S12, according to the exploring antenna in described full noise elimination darkroom and positional information, it is determined that multipath signal rule of classification；S13, according to described multipath signal rule of classification, export after the described K bar multipath signal received is divided into N group multipath signal.

Preferably, described step S2 farther includes: S21, the quantity storing the exploring antenna in described full noise elimination darkroom and positional information；S22, determine the allocation rule of exploring antenna；S23, allocation rule according to described exploring antenna, be attached the described N group multipath signal of input and exploring antenna.

Preferably, described multipath signal rule of classification is: the angle that arrives of every multipath signal is normalized to the integral multiple arriving angular unit angle value closest to this multipath signal；The multipath signal with identical normalization arrival angle value is divided into one group；Wherein, described unit angle value refers to the angle in described full noise elimination darkroom between any two exploring antennas.

Preferably, the allocation rule of described exploring antenna is: according to the angle information often organizing multipath signal, be attached by the exploring antenna often organizing the corresponding angle of multipath signal；Wherein, the angle of described exploring antenna refer to the line of this exploring antenna and described base station simulator in the plane that exploring antenna is constituted relative to the angle of reference line, described reference line is a diameter in the circumference of exploring antenna composition, it is preferred to horizontal diameter.

The ascending performance test system of the multiple antennas mobile terminal that the embodiment of the present invention provides, on the basis based on full noise elimination darkroom, by multipath signal is carried out packet transaction, such that it is able to the output port of multiplexed signals grouped element, reduce the cost increasing number of devices because of device port number not.

And, by the multipath signal after packet being carried out the distribution of dynamic exploring antenna resource, reappear real wireless multi-path communication environments.

It addition, multiple antennas mobile terminal to be sent by base station simulator reception process and the measurement of signal, obtain the Devices to test up emitting performance under multiple antennas scene.

Accompanying drawing explanation

Accompanying drawing is used for providing being further appreciated by of the technical scheme to the application or prior art, and constitutes a part for description.Wherein, the accompanying drawing expressing the embodiment of the present application is used for explaining the technical scheme of the application together with embodiments herein, but is not intended that the restriction to technical scheme.

Fig. 1 is the frame diagram of the ascending performance test system of the multiple antennas mobile terminal of the embodiment of the present invention；

Fig. 2 is the overall flow figure of the ascending performance method of testing of the multiple antennas mobile terminal of the embodiment of the present invention；

Fig. 3 is exploring antenna quantity and the Position Number hum pattern of the embodiment of the present invention.

Detailed description of the invention

Describing embodiments of the present invention in detail below with reference to drawings and Examples, to the present invention, how application technology means solve technical problem whereby, and the process that realizes reaching relevant art effect can fully understand and implement according to this.Each feature in the embodiment of the present application and embodiment, can be combined with each other under not colliding premise, and the technical scheme formed is all within protection scope of the present invention.

Fig. 1 is the frame diagram of the ascending performance test system of the multiple antennas mobile terminal of the embodiment of the present invention.

As it is shown in figure 1, this ascending performance test system specifically includes that multiple antennas terminal 11 to be measured, signal grouped element 12, exploring antenna allocation units 13 and test cell 14.

Multiple antennas terminal 11 to be measured, is used for producing L road signal, and is sent to signal grouped element 12 by L road signal, and wherein, L is the antenna number of multiple antennas terminal 11 to be measured.Specifically, multiple antennas terminal 11 to be measured launches L road signal with rated power after receiving the instruction of base station simulator, and exports at most in channel bank simulator (being made up of signal grouped element 12 and exploring antenna allocation units 13).Multichannel channel simulator is used for simulating real wireless space communication environments.

Signal grouped element 12, for L road signal is processed, forms K bar multipath signal, and is exported to exploring antenna allocation units 13 by output port after K bar multipath signal is divided into N group multipath signal.Exploring antenna allocation units 13, for according to the quantity of exploring antenna in full noise elimination darkroom and positional information, distributing to corresponding exploring antenna by the N group multipath signal of input.Wherein, full noise elimination darkroom refers to the special test environment when carrying out handset capability test.

Test cell 14, it is made up of some exploring antennas, receive after the signal of multichannel channel simulator, N group multipath signal is sent to base station simulator by exploring antenna, and carry out to the received signal processing and measuring by base station simulator, obtain the up emitting performance of multiple antennas terminal to be measured.

It follows that some compositions of native system are specifically described with continued reference to Fig. 1.

As it is shown in figure 1, signal grouped element 12 farther includes: signal packet subelement 121, signal connexon unit 122 and passage configuration control unit 123.

Signal packet subelement 121, for L road signal carries out multipath channel process, after forming K bar multipath signal, sends it in signal connexon unit 122.Carrying out multipath channel process, L road signal is formed as in the process of K bar multipath signal, refer to when the multiple signals of multi-antenna terminal are sent to base station, propagate in space, impact by factors such as atural object, landforms and sea situations, make receiver receive and arrive base station through several paths such as refraction, reflection and direct projections, material is thus formed multipath signal.Here L road signal processing is K bar multipath signal, carrys out analogue signal with this and arrives the space-multipath effect of base station from terminal.

Passage configuration control unit 123, for the configuration information (i.e. exploring antenna and positional information) according to full noise elimination darkroom, it is determined that multipath signal rule of classification, a step control signal connexon unit 122 of going forward side by side.Signal connexon unit 122, for according to multipath signal rule of classification, after the K bar multipath signal of reception is divided into N group multipath signal, exporting it to exploring antenna allocation units 13 through output port.

The present embodiment is on the basis based on full noise elimination darkroom, by multipath signal is carried out packet transaction, such that it is able to the output port of multiplexed signals grouped element 12, solve the problem that the output port number of signal grouped element 12 is limited while remaining the angle information of multipath signal, reduce the cost increasing number of devices because of device port number not.

It should be noted that, multipath signal rule of classification in this enforcement is preferably: the angle that arrives of every multipath signal is normalized to the integral multiple arriving angular unit angle value closest to this multipath signal, then the multipath signal with identical normalization arrival angle value is divided into one group, wherein, unit angle value refers to the angle in full noise elimination darkroom between any two exploring antennas.

Exploring antenna allocation units 13 farther include: full noise elimination darkroom configuration control unit 131, exploring antenna distribution subelement 132 and exploring antenna connexon unit 133.

Full noise elimination darkroom configuration control unit 131, for storing exploring antenna quantity and the positional information in full noise elimination darkroom, and feeds back to passage configuration control unit 123 by this information.Exploring antenna distribution subelement 132, for determining the allocation rule of exploring antenna.Exploring antenna connexon unit 133, for the allocation rule according to exploring antenna, arrives the N group multipath signal of input in angle value by it and is attached with exploring antenna, complete the distribution to respective angles exploring antenna of the N group multipath signal.

By the multipath signal after packet being carried out the distribution of dynamic exploring antenna resource, it is achieved that by the true wireless multi-path communication environments between multiple antennas terminal to base station to be measured simulator, such that it is able to obtain the up emitting performance under multiple antennas scene.

It should be noted that the allocation rule of exploring antenna is preferably: the angle information being grouped according to each output port multipath of signal grouped element 12, the exploring antenna often organizing the corresponding angle of multipath signal is attached.Wherein, the angle of exploring antenna refer to the line of this exploring antenna and base station simulator in the plane that exploring antenna is constituted relative to the angle of reference line.Reference line is a diameter in the circumference that exploring antenna is constituted, it is preferred to horizontal diameter.

Fig. 2 is the overall flow figure of the ascending performance method of testing of the multiple antennas mobile terminal of the embodiment of the present invention, and the workflow of the ascending performance test system of the multiple antennas mobile terminal of the present embodiment is described below with reference to Fig. 2.

As in figure 2 it is shown, L road signal is processed by signal grouped element 12, form K bar multipath signal, and be divided into K bar multipath signal after N group multipath signal exporting (step S1).

Specifically, L road signal, according to channel model, is carried out multipath channel process, forms K bar multipath signal by the signal packet subelement 121 in signal grouped element 12.In the present embodiment, every multipath signal is preferably and is obtained by 10 strip footpath signal syntheses, carrys out analogue signal from the space-multipath fading profiles before multiple antennas terminal to base station simulator antenna to be measured with this.

Passage configuration control unit 123 is according to the exploring antenna in full noise elimination darkroom and positional information, it is determined that multipath signal rule of classification.

It should be noted that, in the present embodiment, the general configuration in full noise elimination darkroom is as follows: exploring antenna number is generally 24,32,64, and all horizontal homogeneous is distributed in terminal surrounding to be measured, and exploring antenna number represents the angle simulation precision that full noise elimination darkroom can reach.By sending the signal of different capacity in different time, locus, the multi-path information such as time delay in simulating multi-path environment, angle of arrival, PAS.

Determined multipath signal rule of classification is: the angle that arrives of every multipath signal is normalized to the integral multiple arriving angular unit angle value closest to this multipath signal, then the multipath signal with identical normalization arrival angle value is divided into one group.Wherein, unit angle value refers to the angle in full noise elimination darkroom between any two exploring antennas.

It is configured to example: angle simulation step-length S=(360 °/24)=15 ° with 24 exploring antennas, determine that group technology is according to unit angle value S: the arrival angle value of every multipath signal is defined as the integral multiple (0 ° of arrive angle actual value closest to every multipath signal 15 °, ± 15 °, ± 30 °, ... ± 180 °), then the multipath signal with identical arrival angle value being classified as one group, often in group, the angle that arrives of all multipath signals is the integral multiple of 15 °.

It addition, according to the line of exploring antenna and terminal to be measured in the plane that exploring antenna is constituted relative to the angle (AOA value) of reference line to every antenna number An, n ∈ [-11 ,+12], reference line is taken as the line of A0 and A12, referring to Fig. 3.

After again, signal connexon unit 122 is according to multipath signal rule of classification, the K bar multipath signal of reception is divided into N group multipath signal, and exports to exploring antenna allocation units 13 through the output port of signal grouped element 12, record the arrival angle value of multipath signal on each output port simultaneously.

Channel model for SCM, ITU-RM.2135, WINNERII definition, the number wherein comprising main footpath is generally 10-20, and the output port number of channel packet unit 12 is generally less than 10, so needing multipath signal to be grouped with certain rule, such that it is able to the output port of multiplexed signals grouped element 12, guarantee that, under the premise not increasing signal grouped element number, multi-path information can be delivered on exploring antenna.Wherein, N is equal to the actual signal grouped element 12 output port number enabled.

K bar multipath signal is grouped, solves multipath number and the signal grouped element 12 unmatched problem of output port number, both remained the angle information of multipath signal, and solved again the problem that channel simulator grouped element 12 output port number is limited.

Wherein, multipath signal rule of classification is: the angle that arrives of every multipath signal is normalized to the integral multiple arriving angular unit angle value closest to this multipath signal, then, the multipath signal with identical normalization arrival angle value is divided into one group, wherein, unit angle value refers to the angle in full noise elimination darkroom between any two exploring antennas.For example, if exploring antenna number is 24, then the unit angle value of its correspondence is 15 °.

It follows that exploring antenna allocation units 13 are according to the quantity of exploring antenna in full noise elimination darkroom and positional information, the N group multipath signal of input is distributed to corresponding exploring antenna (step S2).Specifically, quantity and the positional information of the exploring antenna in full noise elimination darkroom are stored by full noise elimination darkroom configuration control unit 131.The allocation rule of exploring antenna determined by exploring antenna distribution subelement 132.The exploring antenna connexon unit 133 allocation rule according to exploring antenna, arrives the N group multipath signal of input in angle value by it and is attached with exploring antenna, complete the distribution to respective angles exploring antenna of the N group multipath signal.

Wherein, the allocation rule of exploring antenna is: the angle information being grouped according to each output port multipath of signal grouped element 12, is attached by the exploring antenna often organizing the corresponding angle of multipath signal.Wherein, the angle of exploring antenna refer to the line of this exploring antenna and base station simulator in the plane that exploring antenna is constituted relative to the angle of reference line.Reference line is a diameter in the circumference that exploring antenna is constituted, it is preferred to horizontal diameter.It should be noted that herein with respect to line preferred levels diameter, meet general custom, it is simple to understand and calculate.

Finally, test cell 14 by N group multipath signal by exploring antenna be sent to base station simulator (base station simulator essence is a signal processor, under the test environment simulation actual communication in base station.), and carry out to the received signal processing and measuring by base station simulator, obtain the up emitting performance (step S3) of multiple antennas terminal to be measured 11.Base station simulator receives after the signal of multi-antenna terminal, measures parameters such as obtaining N group multipath signal arrival angle, time delay, power.The up emitting performance of multi-antenna terminal is calculated afterwards according to measurement result.Additionally, it should be noted that, here up emitting performance refers generally to: total radiant power (TotalRadiatedPower, TRP), by receiving the time delay of multipath signal, arrive angle, power and process and calculate the radio-frequency radiation performance finally giving terminal.

In sum, the ascending performance test system of the multiple antennas mobile terminal that the embodiment of the present invention provides, on the basis based on full noise elimination darkroom, by multipath signal is carried out packet transaction, such that it is able to the output port of multiplexed signals grouped element, reduce the cost increasing number of devices because of device port number not.And, by the multipath signal after packet being carried out the distribution of dynamic exploring antenna resource, reappear real wireless multi-path communication environments.It addition, multiple antennas mobile terminal to be sent by base station simulator reception process and the measurement of signal, obtain the Devices to test up emitting performance under multiple antennas scene.

Embodiment of above is merely to illustrate the present invention; and it is not limitation of the present invention; those of ordinary skill about technical field; without departing from the spirit and scope of the present invention; can also make a variety of changes and modification; therefore all equivalent technical schemes fall within scope of the invention, and the scope of patent protection of the present invention should be defined by the claims.

Claims (10)

1. the ascending performance test system of a multiple antennas mobile terminal, it is characterised in that including:

Multiple antennas terminal to be measured, is used for producing and send L road signal, and wherein, L is the antenna number of described multiple antennas terminal to be measured；

Signal grouped element, for described L road signal is processed, forms K bar multipath signal, and exports after described K bar multipath signal is divided into N group multipath signal；

Exploring antenna allocation units, for according to the exploring antenna quantity in full noise elimination darkroom and positional information, distributing to corresponding exploring antenna by described N group multipath signal；

Test cell, for described N group multipath signal is sent to base station simulator by exploring antenna, and carries out to the received signal processing and measuring by described base station simulator, obtains the up emitting performance of described multiple antennas terminal to be measured.

2. the system as claimed in claim 1, it is characterised in that described signal grouped element farther includes:

Signal packet subelement, for described L road signal carries out multipath channel process, forms K bar multipath signal；

Passage configuration control unit, for the exploring antenna according to described full noise elimination darkroom and positional information, it is determined that multipath signal rule of classification；

Signal connexon unit, for according to described multipath signal rule of classification, exporting to described exploring antenna allocation units after described K bar multipath signal is divided into N group multipath signal.

3. system as claimed in claim 2, it is characterised in that described exploring antenna allocation units farther include:

Full noise elimination darkroom configuration control unit, for storing quantity and the positional information of the exploring antenna in described full noise elimination darkroom, and feeds back to described passage configuration control unit by this information；

Exploring antenna distribution subelement, for determining the allocation rule of exploring antenna；

Exploring antenna connexon unit, for the allocation rule according to described exploring antenna, is attached the described N group multipath signal of input and exploring antenna.

4. system as claimed in claim 2, it is characterised in that described multipath signal rule of classification is:

The angle that arrives of every multipath signal is normalized to the integral multiple arriving angular unit angle value closest to this multipath signal；

The multipath signal with identical normalization arrival angle value is divided into one group；

Wherein, described unit angle value refers to the angle in described full noise elimination darkroom between any two exploring antennas.

5. system as claimed in claim 3, it is characterised in that the allocation rule of described exploring antenna is:

According to the angle information often organizing multipath signal, the exploring antenna often organizing the corresponding angle of multipath signal is attached；

Wherein, the angle of described exploring antenna refer to the line of this exploring antenna and described base station simulator in the plane that exploring antenna is constituted relative to the angle of reference line, described reference line is a diameter in the circumference of exploring antenna composition, it is preferred to horizontal diameter.

6. the ascending performance method of testing of a multiple antennas mobile terminal, it is characterised in that comprise the following steps:

S1, the L road signal sent from multiple antennas terminal to be measured being processed, form K bar multipath signal, and export after described K bar multipath signal is divided into N group multipath signal, wherein, L is the antenna number of described multiple antennas terminal to be measured；

S2, according to the quantity of the exploring antenna in full noise elimination darkroom and positional information, described N group multipath signal is distributed to corresponding exploring antenna；

S3, N group multipath signal is sent to base station simulator by described exploring antenna, and carries out to the received signal processing and measuring by described base station simulator, obtain the up emitting performance of described multiple antennas terminal to be measured.

7. method as claimed in claim 6, it is characterised in that described step S1 farther includes:

S11, described L road signal is carried out multipath channel process, form K bar multipath signal；

S12, according to the exploring antenna in described full noise elimination darkroom and positional information, it is determined that multipath signal rule of classification；

S13, according to described multipath signal rule of classification, export after the described K bar multipath signal received is divided into N group multipath signal.

8. method as claimed in claim 7, it is characterised in that described step S2 farther includes:

S21, the quantity storing the exploring antenna in described full noise elimination darkroom and positional information；

S22, determine the allocation rule of exploring antenna；

S23, allocation rule according to described exploring antenna, be attached the described N group multipath signal of input and exploring antenna.

9. method as claimed in claim 7, it is characterised in that described multipath signal rule of classification is:

The angle that arrives of every multipath signal is normalized to the integral multiple arriving angular unit angle value closest to this multipath signal；

The multipath signal with identical normalization arrival angle value is divided into one group；

Wherein, described unit angle value refers to the angle in described full noise elimination darkroom between any two exploring antennas.

10. method as claimed in claim 9, it is characterised in that the allocation rule of described exploring antenna is:

According to the angle information often organizing multipath signal, the exploring antenna often organizing the corresponding angle of multipath signal is attached；

Wherein, the angle of described exploring antenna refer to the line of this exploring antenna and described base station simulator in the plane that exploring antenna is constituted relative to the angle of reference line, described reference line is a diameter in the circumference of exploring antenna composition, it is preferred to horizontal diameter.