CN101355777A

CN101355777A - Remote mobile phone test system and method base on bus interception and video acquisition

Info

Publication number: CN101355777A
Application number: CN 200810222943
Authority: CN
Inventors: 余纯龙
Original assignee: Individual
Current assignee: Individual
Priority date: 2008-09-23
Filing date: 2008-09-23
Publication date: 2009-01-28
Anticipated expiration: 2028-09-23
Also published as: CN101355777B

Abstract

The invention relates to a remote mobile phone test system based on bus interception and video acquisition. The system comprises a video acquisition device, a test device, a network server and a remote work station, wherein the video acquisition device is used for acquiring the video of the screen of a mobile phone to be tested; the test device is used for acquiring other external bus interface signals besides the screen by a mode of bus interception and receiving control signals from a remote work station; the network server is used for connecting the video acquisition device and the test device with the remote work station through the Internet; and the remote work station is used for simulating the mobile phone to be tested according to the bus interface signals, carrying out operations through the mobile phone to be tested and screen video, and producing control signals transmitted to the test device via the network server. The invention also relates to a method corresponding to the remote mobile phone test system based on bus interception. The technical proposal can conveniently realize a remote mobile phone test through acquiring the external bus interface signals of the mobile phone to be tested, making use of the remote video acquisition of the screen, and carrying out signal transmission through the Internet.

Description

Remote mobile phone test system and method based on bus interception and video acquisition

Technical field

The present invention relates to the mobile terminal test technical field, relate in particular to a kind of remote mobile phone test system and method based on bus interception and video acquisition.

Background technology

Along with mobile phone popularizing in worldwide, also increasing based on the application development of mobile phone, the testing requirement supporting with it is also increasing.Because the complexity of Wireless Application Environment, all can there be some fine distinctions in the various places branch of each carrier network even same operator on network environment.All kinds of mobile phone terminals are because the difference of software and hardware to the understanding separately of various criterion, also can cause the difference on some compatibility.Therefore, the test of application program need be tested compatibility in mobile phone and the mobile phone, comprise the compatibility of application program to different mobile phone terminals, and mobile phone is to the compatibility of different operators network.

Prior art is in testing mobile phone during application program, and means are to buy mobile phone as much as possible and test respectively usually, to guarantee the compatibility of application program.Especially application program is carried out in the on-the-spot test in to mobile phone and mobile phone, it requires tested mobile phone, tester must arrive test site just can carry out debugging at net of tested mobile phone, therefore, a kind of open remote test system and method are demanded exploitation urgently.In addition, existing unartificial mode obtains the information mode of peripheral hardware in the tested mobile phone, generally be to adopt the application programming interfaces that provide in the intelligent operating system to obtain, the information that obtains peripheral hardware thus will be relevant with the operating system that the person of being acquired adopts, and at some not in the tested mobile phone of open interface, can not obtain the peripheral hardware information of tested mobile phone by this kind mode, promptly enable to obtain peripheral hardware information by operating system, also might there be compatibility issue in the software that obtains information with the application program in tested mobile phone or the tested mobile phone.

Summary of the invention

(1) technical problem that will solve

The purpose of this invention is to provide a kind of remote mobile phone test system and method based on bus interception and video acquisition, need buy more mobile phone with mobile phone test in the solution prior art, and require the tester to test at the scene by the manual type testing mobile phone, then have the defective of application compatibility problem by unartificial mode.

(2) technical scheme

In order to achieve the above object, technical scheme of the present invention proposes a kind of remote mobile phone test system based on bus interception and video acquisition, and this system comprises:

Video acquisition device carries out video acquisition to the screen of tested mobile phone, and the screen video signal of collection transfers to remote work station by the webserver;

Testing apparatus utilizes the bus interception mode to obtain the bus interface signal of tested mobile phone other peripheral hardwares except that screen, transfers to remote work station by the webserver, and receives the control signal of described remote work station;

The webserver is connected to remote work station by the internet with described video acquisition device and described testing apparatus;

Remote work station according to the described tested mobile phone of described bus interface signal imitation, utilizes the tested mobile phone of simulation and carries out operational testing in conjunction with described screen video signal, and the control signal of generation transfers to described testing apparatus by the described webserver.

In the above-mentioned remote mobile phone test system based on bus interception and video acquisition, described testing apparatus further comprises:

The test communications unit is connected with the described webserver by internet or local mutual contact mode, is used for the transfer of data between the described testing apparatus and the webserver;

The peripheral hardware connection unit is connected between the mainboard of described tested mobile phone and other peripheral hardwares except that screen the bus interface that is used to duplicate described other peripheral hardwares;

The bus interception unit by described peripheral hardware connection unit, obtains the bus interface signal of other peripheral hardwares of described tested mobile phone except that screen, and sends control signal from remote work station to described other peripheral hardwares.

In the above-mentioned remote mobile phone test system based on bus interception and video acquisition, described bus interception unit further comprises:

The signals collecting subelement by the described peripheral bus interface that duplicates, obtains the peripheral bus interface signal of described tested mobile phone;

Interface shielding subelement shields the peripheral bus interface of described tested mobile phone;

Signal sends subelement, after described interface shielding subelement shields the peripheral hardware bus interface, transmits control signal to described peripheral hardware by the described peripheral bus interface that duplicates.

In the above-mentioned remote mobile phone test system based on bus interception and video acquisition, described remote work station further comprises:

Data communication units is connected with the described webserver by internet or local mutual contact mode, is used for the transfer of data between the described remote work station and the webserver;

The mobile phone analogue unit according to the tested mobile phone peripheral bus interface signal from described testing apparatus that described data communication units receives, is simulated the real time status of tested mobile phone, generates the virtual mobile phone interface;

The operational testing unit, screen video signal in conjunction with described data communication units reception from described video acquisition device, utilize described virtual mobile phone interface to carry out operational testing, and will send to testing apparatus through the webserver by data communication units according to the control signal that described operational testing produces.

Technical scheme of the present invention also proposes a kind of remote mobile phone test system based on bus interception, and this system comprises:

Testing apparatus utilizes the bus interception mode to obtain the bus interface signal of the peripheral hardware of tested mobile phone, transfers to remote work station by the webserver, and receives the control signal of described remote work station;

The webserver connects described testing apparatus and remote work station by the internet;

Remote work station according to the bus interface signal of described testing apparatus by webserver transmission, is simulated described tested mobile phone, and produces control signal according to the tested mobile phone of operational testing simulation, transfers to described testing apparatus by the described webserver.

In the above-mentioned remote mobile phone test system based on bus interception, described testing apparatus further comprises:

The peripheral hardware connection unit is connected between the mainboard and peripheral hardware of described tested mobile phone the bus interface that is used to duplicate described peripheral hardware;

The bus interception unit by described peripheral hardware connection unit, obtains the bus interface signal of the peripheral hardware of described tested mobile phone, and sends control signal from described remote work station to described peripheral hardware.

In the above-mentioned remote mobile phone test system based on bus interception, described bus interception unit further comprises:

In the above-mentioned remote mobile phone test system based on bus interception, described remote work station further comprises:

The operational testing unit, operational testing is carried out at the virtual mobile phone interface that utilizes described mobile phone analogue unit to generate, and will send to testing apparatus through the webserver by data communication units according to the control signal that described operational testing produces.

Technical scheme of the present invention continues to propose a kind of remote handset method of testing based on bus interception and video acquisition, and this method comprises:

Screen to tested mobile phone carries out video acquisition, and utilizes the bus interception mode to obtain the bus interface signal of the peripheral hardware of tested mobile phone except that screen;

Screen video signal and the bus interface signal gathered are sent to the remote testing end by the internet;

Described remote testing end is simulated the real time status of described tested mobile phone according to the bus interface signal, utilize the tested mobile phone of described simulation and carry out operational testing, and will be sent to tested mobile phone by the internet according to the control signal that described operational testing produces in conjunction with described screen video signal;

Described tested mobile phone is controlled described peripheral hardware according to described control signal, changes under the described outer control that is located at described control signal, and the peripheral bus interface signal after the variation continues to utilize the bus interception mode to be sent to the remote testing end by the internet.

The last a kind of remote handset method of testing of technical scheme of the present invention based on bus interception, this method comprises:

Utilize the bus interception mode to obtain the bus interface signal of the peripheral hardware of tested mobile phone, and be sent to the remote testing end by the internet;

Described remote testing end is simulated the real time status of described tested mobile phone according to described bus interface signal;

Utilize the tested mobile phone of described simulation to carry out operational testing, and will be sent to tested mobile phone by the internet according to the control signal that described operational testing produces;

(3) beneficial effect

Technical scheme of the present invention is obtained the peripheral bus interface signal of tested mobile phone by the bus interception mode, long-distance video collection in conjunction with mobile phone screen, and the control signal by internet transfer bus interface signal, screen video signal and test between tested mobile phone location and tester location, can realize long-range mobile phone test, the tester need not to test at the scene, has also avoided utilizing software interface to obtain the compatibility issue of peripheral hardware information.

Description of drawings

Fig. 1 is the remote mobile phone test system example structure figure that the present invention is based on bus interception;

Fig. 2 is the testing apparatus structure chart of system embodiment of the present invention among Fig. 1;

Fig. 3 is the remote mobile phone test system example structure figure that the present invention is based on bus interception and video acquisition;

Fig. 4 is the remote handset method of testing embodiment flow chart that the present invention is based on bus interception;

Fig. 5 is the remote handset method of testing embodiment flow chart that the present invention is based on bus interception and video acquisition.

Embodiment

Following examples are used to illustrate the present invention, but are not used for limiting the scope of the invention.

Fig. 1 is embodiment one structure chart of remote mobile phone test system of the present invention, as shown in the figure, the system of present embodiment comprises: testing apparatus 11, utilize the bus interception mode to obtain the bus interface signal of the peripheral hardware of tested mobile phone, transfer to remote work station 13 by the webserver 12, and the control signal of receiving remote workstation1 3; The webserver 12 connects testing apparatus 11 and remote work station 13 by the internet; Remote work station 13 according to the bus interface signal of testing apparatus 11 by the webserver 12 transmission, is simulated tested mobile phone, and produces control signal according to the tested mobile phone of operational testing simulation, transfers to testing apparatus 11 by the webserver 12.

Wherein, testing apparatus 11 further comprises: test communications unit 111, be connected with the webserver 12 by internet or local mutual contact mode, and be used for the transfer of data between the testing apparatus 11 and the webserver 12; Peripheral hardware connection unit 112 is connected between the mainboard and peripheral hardware of tested mobile phone the bus interface that is used to duplicate peripheral hardware; Bus interception unit 113 by peripheral hardware connection unit 112, obtains the bus interface signal of the peripheral hardware of tested mobile phone, and sends control signal from remote work station 13 to peripheral hardware.

Remote work station 13 then further comprises: data communication units 131, be connected with the webserver 12 by internet or local mutual contact mode, and be used for the transfer of data between the remote work station 13 and the webserver 12; Mobile phone analogue unit 132 according to the tested mobile phone peripheral bus interface signal from testing apparatus 11 that data communication units 131 receives, is simulated the real time status of tested mobile phone, generates the virtual mobile phone interface; Operational testing unit 133, operational testing is carried out at the virtual mobile phone interface that utilizes mobile phone analogue unit 132 to generate, and will send to testing apparatus 11 through the webserver 12 by data communication units 131 according to the control signal that operational testing produces.

The remote work station 13 of the foregoing description is meant the equipment that can install with the client software that moves system of the present invention, includes but not limited to PC, other special test equipment etc.Client software is simulated the operation interface and the audiovisual interface of tested mobile phone, and the tester operates the strange land mobile phone by operation interface, and obtains the state and the information of the mobile phone in strange land by the audiovisual interface.Client software can provide a kind of script simultaneously, and the tester can be submitted to the webserver 12 by script with the step of test, and 12 bases of the webserver require to start 11 pairs of tested mobile phones of testing apparatus accordingly and test.

In addition, the webserver 12 can send to the data of same tested mobile phone a plurality of testers' remote work station, thereby realizes that a plurality of testers test same tested mobile phone; The webserver 12 can also acceptance test person be tested the requirement of many mobile phones, and according to tester's requirement data is carried out between remote work station and testing apparatus alternately, thereby realizes that the tester tests many tested mobile phones simultaneously.

The script that the tester can utilize client software to provide is submitted to the webserver 12 with corresponding testing procedure, and 12 of the webservers are tested tested mobile phone by testing procedure according to request; Also the corresponding test starting time can be submitted to the webserver 12 in addition, 12 of the webservers regularly start test according to request.

Mentioned internet among the follow-up embodiment of present embodiment and the present invention, it can be local area network (LAN), also can be metropolitan area network or wide area network, its real needs according to test can adopt habitual ADSL (Asymmetric Digital Subscriber Line, Asymmetrical Digital Subscriber Line), ATM (Asynchronous Transfer Mode, asynchronous transfer mode) or SDH technology such as (Synchron-ous Digital Hierarchy, SDH (Synchronous Digital Hierarchy)) realize.Mentioned local interconnected means then mean the connected mode between the equipment of same region among the embodiment, comprise connected modes such as USB, serial ports.Mentioned mobile phone peripheral hardware among the embodiment is meant other parts with respect to the master control chip of mobile phone, includes but not limited to the LCDs of mobile phone, camera, loud speaker, keyboard, pick-up, global location parts, power supply unit, bluetooth component, wireless local net means etc.

Fig. 2 is the testing apparatus structure chart of the invention described above remote mobile phone test system embodiment one, as shown in the figure, bus interception unit 113 further comprises: signals collecting subelement 1131, by the peripheral bus interface that duplicates, obtain the peripheral bus interface signal of tested mobile phone; Interface shielding subelement 1132 shields the peripheral bus interface of tested mobile phone; Signal sends subelement 1133, then after 1132 pairs of peripheral hardware bus interface of interface shielding subelement shield, transmits control signal to peripheral hardware by the peripheral bus interface that duplicates.

Continue after the peripheral hardware of tested mobile phone (as liquid crystal display screen 24, keypad 25, loud speaker 26 etc.) is disassembled, to be connected respectively on the peripheral hardware connection unit 112 in the testing apparatus as shown in Figure 2.The cell phone mainboard 27 of tested mobile phone is fixed on the testing station.With liquid crystal display screen 24 is example, and the LCD Interface on the cell phone mainboard 27 is connected with peripheral hardware connection unit 112, and other peripheral hardware is similar.Thereby bus interception unit 113 just can be truncated to the peripheral bus interface signal of mobile phone by peripheral hardware connection unit 112, and can control the peripheral bus of mobile phone.Other peripheral hardware that need test connects in a similar manner.

The test communication unit 111 of present embodiment adopts modular structures, and RJ45 interface, USB interface and other communication interface can be provided, and the interface of wireless module such as WiMax can also be provided as required.

The mobile phone that is the TD028TGEA1 LCDs with a employing model is a measurand below, and the concrete composition of testing apparatus is described in detail in detail:

TD028TGEA1 is the RGB pattern TFT LCDs of a 2.8 inches 320 * 240 dot matrix, and its data and control interface meet MDDI (Mobile Display DigitalInterface, mobile display digital interface) standard.This standard is based on LVDS (Low VoltageDifferential Signaling, low-voltage differential signal) transmission technology, the transmission rate of the highest support 3.2Gbps.The number to 6 that uses the MDDI interface significantly to reduce to connect holding wire has effectively reduced the noise jamming problem.What TD028TGEA1 and Host (main device) adopted is that physical interface is the socket of 27 pins.Like this, be welded with the socket of one 27 pin on the circuit board of testing apparatus, TD028TGEA1 is connected on this socket, is connected on the mainboard of tested mobile phone by other winding displacement again.Thereby 27 pin sockets that are welded on the circuit board just can be drawn 6 signal line to the bus interception parts from circuit board.

Intercept the bus signals of high speed like this, require the input/output interface speed of intercepting parts enough fast.According to the specification of TD028TGEA1, can select model for use is that the FPGA device of EP4SE680 is as the bus interception unit.EP4SE680 is by the advantage and the ripe transceiver and the memory interface technology of 40-nm processing procedure, and system bandwidth has reached very high level, and has excellent signal integrity.Its key advantages comprises: high density has 680K logical block, 22.4Mbits in-line memory and 1360 18x18 multipliers; High system bandwidth has 48 high-speed transceivers of 8.5Gbps and 1067Mbps (533MHz) DDR3 memory interface; Low-power consumption is under the support of 40-nm advantage and power consumption technology able to programme, than other the high-end FPGA low in energy consumption 50% on the market; PCI Express stone intellectual property Gen1 (2.5Gbps) and Gen2 (5.0Gbps), 4 x8 modules have realized full end points or root port function; Excellent signal integrity can drive 50, and " backboard, speed reaches 6.375Gbps, supports the plug and play signal integrity.

The invention described above is based on the remote mobile phone test system embodiment of bus interception, obtain the peripheral bus interface signal of tested mobile phone by the bus interception mode, and the control signal by internet transfer bus interface signal and test between tested mobile phone location and tester location, can realize long-range mobile phone test, the tester need not to test at the scene, has also avoided utilizing software interface to obtain the compatibility issue of peripheral hardware information.However, in actual applications, the above-mentioned purpose that may can not realize real-time testing based on the remote test system of bus interception owing to the bottleneck of network transfer speeds; Especially for the screen interface signal of bus transfer rate, not only bring difficulty, and the realization of bus interception is also comparatively painstaking to Network Transmission up to the Gbps level.

The problems referred to above that may exist at remote mobile phone test system based on bus interception, the present invention also proposes a kind of remote mobile phone test system based on bus interception and video acquisition, the embodiment structure as shown in Figure 3, comprise: video acquisition device 31, screen to tested mobile phone carries out video acquisition, and the screen video signal of collection transfers to remote work station 34 by the webserver 33; Testing apparatus 32 utilizes the bus interception mode to obtain the bus interface signal of tested mobile phone other peripheral hardwares except that screen, transfers to remote work station 34 by the webserver 33, and the control signal of receiving remote work station 34; The webserver is connected to remote work station 34 by the internet with video acquisition device 31 and testing apparatus 32; 34 of remote work stations are according to the tested mobile phone of bus interface signal imitation, and utilize the tested mobile phone combining screen vision signal of simulation to carry out operational testing, and the control signal of generation transfers to testing apparatus 32 by the webserver 33.

Because the demand of mobile phone test, the video acquisition device 31 of present embodiment can be selected devices such as high definition camera or video camera for use, transmit after also can cooperating video compression chip or software that the tested mobile phone screen vision signal of gathering is compressed in addition, to satisfy high speed internet network transmission requirements.Some this area conventional techniques means that can associate therefrom also should belong to protection scope of the present invention, are not given unnecessary details herein.

Testing apparatus 32 in the foregoing description further comprises: test communications unit 321, be connected with the webserver 33 by internet or local mutual contact mode, and be used for the transfer of data between the testing apparatus 32 and the webserver 33; Peripheral hardware connection unit 322 is connected between the mainboard of tested mobile phone and other peripheral hardwares except that screen the bus interface that is used to duplicate other peripheral hardwares; Bus interception unit 323 by peripheral hardware connection unit 322, obtains the bus interface signal of other peripheral hardwares of tested mobile phone except that screen, and sends control signal from remote work station 34 to other peripheral hardwares.Except that the bus interface signal of screen not being intercepted, other parts all with above-mentioned identical based on the testing apparatus among the remote mobile phone test system embodiment of bus interception, are illustrated herein no longer in addition.

Remote work station 34 in the foregoing description further comprises: data communication units 341, be connected with the webserver 33 by internet or local mutual contact mode, and be used for the transfer of data between the remote work station 34 and the webserver 33; Mobile phone analogue unit 342 according to the tested mobile phone peripheral bus interface signal from testing apparatus 32 that data communication units receives, is simulated the real time status of tested mobile phone, generates the virtual mobile phone interface; Operational testing unit 343, the screen video signal that the binding data communication unit receives from video acquisition device 31, utilize the virtual mobile phone interface to carry out operational testing, and will send to testing apparatus 32 through the webserver 33 by data communication units according to the control signal that operational testing produces.

Fig. 4 is the remote handset method of testing embodiment flow chart that the present invention is based on bus interception, as shown in the figure, may further comprise the steps:

S401, utilize the bus interception mode to obtain the bus interface signal of the peripheral hardware of tested mobile phone, and be sent to the remote testing end by the internet;

S402, remote testing end are simulated the real time status of tested mobile phone according to the bus interface signal;

The tested mobile phone of S403, utilization simulation carries out operational testing, and will be sent to tested mobile phone by the internet according to the control signal that operational testing produces;

S404, tested mobile phone are controlled peripheral hardware according to control signal;

S405, tested mobile phone outer is located under the control of control signal and changes, and the peripheral bus interface signal after the variation continues to utilize the bus interception mode to be sent to the remote testing end by the internet.

When the tester had requiring of test, the operation remote work station also started client software, and client software is connected to the webserver by the internet, and the webserver allows the selected tested mobile phone of tester after the tester is carried out authentication.After the tester was selected, the situation of the peripheral hardware of tested mobile phone just restored on remote work station in real time, and simulates a mobile phone on remote work station.During mobile phone that tester's test client software simulation comes out, all operational orders all are sent on the tested mobile phone in real time.Because the peripheral hardware situation of tested mobile phone is reduced in real time on remote work station and is shown, so on the mobile phone that tester's operating result is also come out to simulation by real time reaction simultaneously.Thereby tester's mobile phone that the operated client software simulation comes out on remote work station just as the real tested mobile phone of on-the-spot real-time operation, thereby is realized the strange land test.

Fig. 5 is the remote handset method of testing embodiment flow chart that the present invention is based on bus interception and video acquisition, as shown in the figure, may further comprise the steps:

S501, the screen of tested mobile phone is carried out video acquisition, and utilize the bus interception mode to obtain the bus interface signal of the peripheral hardware of tested mobile phone except that screen;

S502, screen video signal and the bus interface signal of gathering is sent to the remote testing end by the internet;

S503, remote testing end are simulated the real time status of tested mobile phone according to the bus interface signal;

The tested mobile phone and the combining screen vision signal of S504, utilization simulation are carried out operational testing, and will be sent to tested mobile phone by the internet according to the control signal that operational testing produces;

S505, tested mobile phone are controlled peripheral hardware according to control signal, are located at outward under the control of control signal to change, and the peripheral bus interface signal after the variation continues to utilize the bus interception mode to be sent to the remote testing end by the internet.

When the tester had requiring of test, the operation remote work station also started client software, and client software is connected to the webserver by the internet, and the webserver allows the selected tested mobile phone of tester after the tester is carried out authentication.After the tester was selected, the peripheral hardware situation of tested mobile phone was just crossed the intercepting of bus signals together and is transmitted on the remote work station and restores in real time, and simulates a mobile phone on remote work station.The screen of tested mobile phone then also is transmitted through the network to remote work station by the video acquisition signal, thereby the tester can monitor the screen state of tested mobile phone.During mobile phone that tester's test client software simulation comes out, all operational orders all are sent on the tested mobile phone in real time.Because the peripheral hardware situation of tested mobile phone is reduced in real time on remote work station and is shown, so on the mobile phone that tester's operating result is also come out to simulation by real time reaction simultaneously.Simultaneously, the tester is by changing the reference that compares as test result to the screen change of analogue mobile phone and the tested mobile phone screen of video acquisition.Thereby tester's mobile phone that the operated client software simulation comes out on remote work station just as the real tested mobile phone of on-the-spot real-time operation, thereby is realized the strange land test.

Because the test major part of application program all is to carry out according to certain standard in mobile phone and the mobile phone, action and process that a large amount of repeatability is wherein arranged, remote testing method of the present invention also can provide a kind of script operation, the tester can programme the action and the process of these repeatability by script, and be submitted to the webserver, thereby the webserver can carry out testing by setting action by the operational testing work station, and can realize that the fixed time begins test.

More than be preferred forms of the present invention, according to content disclosed by the invention, those of ordinary skill in the art can expect some identical, replacement schemes apparently, all should fall into the scope of protection of the invention.

Claims

1, a kind of remote mobile phone test system based on bus interception and video acquisition is characterized in that, this system comprises:

According to claim 1 based on the remote mobile phone test system of bus interception and video acquisition, it is characterized in that 2, described testing apparatus further comprises:

3, as described in the claim 2 based on the remote mobile phone test system of bus interception and video acquisition, it is characterized in that described bus interception unit further comprises:

According to claim 1 based on the remote mobile phone test system of bus interception and video acquisition, it is characterized in that 4, described remote work station further comprises:

5, a kind of remote mobile phone test system based on bus interception is characterized in that, this system comprises:

6, as described in the claim 5 based on the remote mobile phone test system of bus interception, it is characterized in that described testing apparatus further comprises:

7, as described in the claim 6 based on the remote mobile phone test system of bus interception, it is characterized in that described bus interception unit further comprises:

8, as described in the claim 5 based on the remote mobile phone test system of bus interception, it is characterized in that described remote work station further comprises:

9, a kind of remote handset method of testing based on bus interception and video acquisition is characterized in that this method comprises:

10, a kind of remote handset method of testing based on bus interception is characterized in that this method comprises: