CN105892441A - Vehicle-mounted remote monitoring system testing device and method - Google Patents
Vehicle-mounted remote monitoring system testing device and method Download PDFInfo
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- CN105892441A CN105892441A CN201510489849.4A CN201510489849A CN105892441A CN 105892441 A CN105892441 A CN 105892441A CN 201510489849 A CN201510489849 A CN 201510489849A CN 105892441 A CN105892441 A CN 105892441A
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- circuit
- built
- operation information
- satellite positioning
- monitoring system
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B23/00—Testing or monitoring of control systems or parts thereof
- G05B23/02—Electric testing or monitoring
- G05B23/0205—Electric testing or monitoring by means of a monitoring system capable of detecting and responding to faults
- G05B23/0218—Electric testing or monitoring by means of a monitoring system capable of detecting and responding to faults characterised by the fault detection method dealing with either existing or incipient faults
- G05B23/0224—Process history based detection method, e.g. whereby history implies the availability of large amounts of data
Abstract
An embodiment of the invention discloses a vehicle-mounted remote monitoring system testing device and method. A vehicle-mounted remote monitoring system comprises a component circuit. The testing device comprises a configuration file generating module used for generating configuration files, a CAN communication module and a display module, wherein the CAN communication module is used for sending the configuration files to the vehicle-mounted remote monitoring system which controls operation of the component circuit according to the configuration files, the CAN communication module is also used for receiving operation information of the component circuit from the vehicle-mounted remote monitoring system and sending to the operation information of the component circuit to the display module, and the display module is used for displaying the operation information of the component circuit.
Description
Technical field
The present invention relates to automobile technical field, more particularly, to test device and the test of a kind of mounted remote monitoring system
Method.
Background technology
Energy shortage, oil crisis and environmental pollution grow in intensity, and bring tremendous influence to the life of people, are directly connected to
National economy and the sustainable development of society.Countries in the world are all at active development new energy technology.Electric automobile drops as one
Low consumption of petroleum, low stain, low noise new-energy automobile it is considered to be solve energy crisis and the important way of ecological deterioration
Footpath.Hybrid vehicle takes into account pure electric automobile and the advantage of traditional combustion engine automobile simultaneously, is meeting vehicle dynamic quality requirement
With continual mileage require on the premise of, be effectively improved fuel economy, reduce discharge it is considered to be the most energy-conservation and
One of active path reduced discharging.
Mounted remote monitoring system can realize wireless remote monitering, global positioning system (Global Positioning System,
GPS) Orientation on map, vehicle history driving trace playback, speech talkback, alarm linkage, remote-recording video storage, remotely under
Carry the functions such as video recording, vehicle region management, equipment remote upgrade.Pure electric automobile and hybrid vehicle have extensively
Application.
Currently for the detection of mounted remote monitoring system, major part producer is all to utilize artificial realization in the production phase of product
Manually detection.
But, manual detection has inefficiency and the highest shortcoming of accuracy in detection.
Summary of the invention
The purpose of the present invention is to propose to the test device of a kind of mounted remote monitoring system, thus improve automatization's journey of detection
Degree.
Another object of the present invention is the method for testing proposing a kind of mounted remote monitoring system, thus improves the automatic of detection
Change degree.
According to the one side of embodiment of the present invention, the test device of a kind of mounted remote monitoring system proposed, described vehicle-mounted far
Range monitoring system includes built-up circuit;Described test device includes:
Configuration file generation module, is used for generating configuration file;
Controller local area network (Controller Area Network, CAN) communication module, for supervising to described mounted remote
Ore-controlling Role sends described configuration file, and wherein said mounted remote monitoring system controls described composition electricity based on described configuration file
The operation on road;It is additionally operable to receive built-up circuit operation information from described mounted remote monitoring system, and described built-up circuit is transported
Row information is sent to display module;
Display module, is used for showing described built-up circuit operation information.
Preferably, also include:
Information remote acquisition module, for obtaining built-up circuit operation information by remote mode;
Judge module, for the described built-up circuit operation information received when CAN and information remote acquisition module
When the described built-up circuit operation information of acquisition is identical, it is determined that described built-up circuit is normal, and/or, work as CAN
When the built-up circuit operation information that the built-up circuit operation information received and information remote acquisition module obtain differs, it is determined that institute
State built-up circuit abnormal, and result of determination is sent to display module is shown.
Preferably, the described built-up circuit operation information that CAN receives includes what described radio communication circuit was carried
The presence of user;Described information remote acquisition module is wireless communication module;
Wireless communication module, for the mark inquiry Cloud Server according to the described user prestored, to determine described user
Presence;
Judge module, for the presence included in the described built-up circuit operation information that CAN receives
With wireless communication module determined by presence identical time, it is determined that described radio communication circuit is normal, and/or, work as CAN
Determined by presence and the wireless communication module included in described built-up circuit operation information that communication module receives
When line states differs, it is determined that described built-up circuit is abnormal, and result of determination is sent to display module is shown.
Preferably, described built-up circuit is satellite positioning circuitry;The described built-up circuit operation information that CAN receives
Satellite positioning coordinate including mounted remote monitoring system;Described information remote acquisition module is satellite positioning module;
Satellite positioning module, for obtaining the satellite positioning coordinate of test position;
Judge module, for the satellite fix included in the described built-up circuit operation information that CAN receives
When coordinate is identical with the satellite positioning coordinate acquired in satellite positioning module, it is determined that described satellite positioning circuitry is normal, and/or,
Satellite positioning coordinate included in the described built-up circuit operation information that CAN receives and satellite positioning module
When acquired satellite positioning coordinate differs, it is determined that described satellite positioning circuitry is abnormal, and is sent to show by result of determination
Show that module is shown.
Preferably, described radio communication circuit includes: general packet radio service technology circuit, gsm communication circuit, WLAN
Circuit, interphone circuit, satellite television circuit, bluetooth communication circuit, infrared communication circuit or purple honeybee telecommunication circuit.
Preferably, described satellite positioning circuitry includes: gps satellite positioning circuit, big-dipper satellite positioning circuit or GLONASS
Satellite positioning circuitry.
According to the another aspect of embodiment of the present invention, the method for testing of a kind of mounted remote monitoring system is proposed, including:
Generate configuration file;
Sending described configuration file to mounted remote monitoring system, mounted remote monitoring system controls certainly based on described configuration file
The operation of the built-up circuit of body;
Built-up circuit operation information is received from mounted remote monitoring system;
Show described built-up circuit operation information.
Preferably, the method also includes:
Built-up circuit operation information is obtained by remote mode;
When the described built-up circuit operation information received from mounted remote monitoring system and described group obtained by remote mode
When becoming circuit operation information identical, it is determined that described built-up circuit is normal, and/or, when the institute received from mounted remote monitoring system
When the described built-up circuit operation information stating built-up circuit operation information and obtained by remote mode is differed, it is determined that described group
Become circuit abnormal;
Display result of determination.
Preferably, described built-up circuit is radio communication circuit, the described built-up circuit fortune received from mounted remote monitoring system
Row information comprises the presence of the user that described radio communication circuit is carried;
Described obtain built-up circuit operation information by remote mode and include: inquire about according to the mark of the described user prestored
Cloud Server, to determine the presence of described user;The method includes:
When the described presence included in the built-up circuit operation information that mounted remote monitoring system receives and inquiry cloud
When determined by server, described presence is identical, it is determined that described radio communication circuit is normal, and/or, when from mounted remote
Monitoring system receive built-up circuit operation information included in described presence with inquiry Cloud Server determined by institute
State presence when differing, it is determined that described radio communication circuit is abnormal.
Preferably, described built-up circuit is satellite positioning circuitry;The described described composition electricity received from mounted remote monitoring system
Road operation information comprises the satellite positioning coordinate of mounted remote monitoring system;
Described by remote mode obtain built-up circuit operation information include: by remote mode obtain test position satellite
Position coordinate;The method includes:
When the described satellite positioning coordinate included in the built-up circuit operation information that mounted remote monitoring system receives is with logical
Cross described satellite positioning coordinate that remote mode obtains identical time, it is determined that described satellite positioning circuitry is normal, and/or, when from car
Carry long distance control system receive built-up circuit operation information included in described satellite positioning coordinate with pass through remote mode
When the described satellite positioning coordinate obtained differs, it is determined that described satellite positioning circuitry is abnormal.
From technique scheme it can be seen that in embodiments of the present invention, configuration file generation module generates configuration file;
CAN sends configuration file to mounted remote monitoring system, and wherein mounted remote monitoring system is based on configuration file control
Make the operation of the built-up circuit of self;CAN also receives built-up circuit operation information from mounted remote monitoring system,
And built-up circuit operation information is sent to display module;Display module, is used for showing built-up circuit operation information.Thus may be used
Seeing, after the application present invention, corresponding configuration based on configuration file controls the operation of built-up circuit, and testing staff only needs naked eyes
Observe display module and show built-up circuit operation information either with or without normal, i.e. can determine that built-up circuit is the most working properly, thus
Achieve semi-automatic detection mounted remote monitoring system the most working properly.
It addition, in embodiments of the present invention, information remote acquisition module obtains built-up circuit operation information by remote mode,
Judge module compares built-up circuit operation information and the composition of information remote acquisition module acquisition that CAN receives again
The concordance of circuit operation information, it is achieved thereby that full-automatic detection mounted remote monitoring system is the most working properly, and carries
High detection accuracy.
Accompanying drawing explanation
The present invention is only schematically illustrated and explains by the following drawings, not delimit the scope of the invention.
Fig. 1 is the structure chart of the test device of the mounted remote monitoring system according to the present invention.
Fig. 2 is the structure chart of the test device of the mounted remote monitoring system according to first embodiment of the invention.
Fig. 3 is the structure chart of the test device of the mounted remote monitoring system according to second embodiment of the invention.
Fig. 4 is the structure chart of the test device of the mounted remote monitoring system according to third embodiment of the invention.
Fig. 5 is the method for testing flow chart of the mounted remote monitoring system according to the present invention.
Detailed description of the invention
In order to technical characteristic, purpose and the effect of invention are more clearly understood from, the now tool of the comparison accompanying drawing explanation present invention
Body embodiment, the most identical label represents identical part.
Succinct and directly perceived in order on describing, enters the solution of the present invention hereafter by describing some representational embodiments
Row illustrates.In embodiment, substantial amounts of details is only used for help and understands the solution of the present invention.However, it will be apparent that the skill of the present invention
These details can be not limited to when art scheme realizes.In order to avoid unnecessarily having obscured the solution of the present invention, some are implemented
Mode describes the most meticulously, but only gives framework.Hereinafter, " including " refers to " including but not limited to ",
" according to ... " refer to " according at least to ..., but be not limited to according only to ... ".Due to the language convention of Chinese, hereafter
In when being not specifically stated the quantity of a composition, it is meant that it can also be multiple that this composition can be one, or can be regarded as
At least one.
Fig. 1 is the structure chart of the test device of the mounted remote monitoring system according to the present invention.This test device 100 is used for surveying
Test run carries long distance control system 200.Mounted remote monitoring system 200 includes main control chip 201 and built-up circuit 202.
As it is shown in figure 1, this test device 100 includes: configuration file generation module 101, CAN 102 and aobvious
Show module 103;Wherein:
Configuration file generation module 101, is used for generating configuration file;
CAN 102, for sending configuration file to mounted remote monitoring system 200, wherein mounted remote monitoring
System 200 controls the operation of the built-up circuit 202 of self based on configuration file;CAN 102, is additionally operable to receive
The built-up circuit operation information that mounted remote monitoring system 200 returns, and built-up circuit operation information is sent to display module
103;
Display module 103, is used for showing built-up circuit operation information.
The configuration file that configuration file generation module 101 is generated, for specifying the method for operation of built-up circuit 202.Configuration
File specifically may be embodied as by the control routine of the compiled generation of programming language.Configuration file is assigned with built-up circuit 202
Operational factor.Specifically, the operational factor that configuration file is specified may include that built-up circuit runs time, built-up circuit
Operation order and built-up circuit enable order, etc..
The main control chip 201 of mounted remote monitoring system 200 resolves configuration file, to obtain the operation ginseng of built-up circuit 202
Number, and the operation of built-up circuit 202 is controlled based on this operational factor.
Preferably, built-up circuit 202 specifically includes: radio communication circuit and/or satellite positioning circuitry, etc..It is highly preferred that
Radio communication circuit may include that general packet radio service technology circuit, gsm communication circuit, WLAN circuitry, right
Say dynamo-electric road, satellite television circuit, bluetooth communication circuit, infrared communication circuit or purple honeybee telecommunication circuit, etc.;Satellite
Position circuit may include that gps satellite positioning circuit, big-dipper satellite positioning circuit or GLONASS satellite positioning circuitry, etc..
Enumerate the detailed description of the invention of built-up circuit 202 in detail above, it will be appreciated by those of skill in the art that this retouching
It is only exemplary for stating, and is not used to limit the protection domain of built-up circuit 202.
When CAN 102 cannot set up correspondence with mounted remote monitoring system 200, display module 103
On can not show information, now testing staff can be determined that the CAN function of mounted remote monitoring system 200 breaks down.
When CAN 102 can set up correspondence with mounted remote monitoring system 200, display module 103
On can show information, now testing staff can be determined that the CAN function of mounted remote monitoring system 200 is normal.
When display module 103 can normally show from the built-up circuit operation information that mounted remote monitoring system 200 receives,
Testing staff is it can be assumed that built-up circuit 202 is working properly.
In this embodiment, testing staff has only to perusal display module 103 either with or without normally showing built-up circuit
Operation information, i.e. can determine that built-up circuit 202 is the most working properly, it is achieved thereby that semi-automatic detection mounted remote monitoring
System is the most working properly.
Special when, built-up circuit 202 can generate built-up circuit operation information, but the generation composition generated is electric
Road operation information is inaccurate, and now built-up circuit 202 still works abnormal.But, testing staff can show with perusal
Show that module 103 the most normally shows built-up circuit operation information, but cannot artificial judgment built-up circuit operation information the most accurate,
Therefore testing staff may misidentification to determine built-up circuit 202 working properly.
In one embodiment, test device 100 also includes:
Information remote acquisition module 104, for obtaining built-up circuit operation information by remote mode;
Judge module 105, obtains with information remote for the built-up circuit operation information received based on CAN 102
The concordance of built-up circuit operation information that module 104 obtains, it is judged that built-up circuit functional, and will determine that result sends
Shown to display module.Specifically, the built-up circuit operation information received when CAN 102 is remote with information
Journey acquisition module 104 obtain built-up circuit operation information consistent time, it is judged that module 105 judge built-up circuit functional as
Normally, i.e. judge that built-up circuit is normal;Built-up circuit operation information and information remote when CAN 102 reception
Acquisition module 104 obtain built-up circuit operation information inconsistent time, it is judged that module 105 judge built-up circuit functional as
Abnormal, i.e. judge that built-up circuit is abnormal.Visible, information remote acquisition module 201 obtains composition electricity by remote mode
Road operation information, it is judged that the built-up circuit operation information that module 202 compares CAN 102 reception again is remote with information
The concordance of the built-up circuit operation information that journey acquisition module 104 obtains, can be the most normal with automatic decision built-up circuit 200,
It is achieved thereby that a kind of fully-automated synthesis mode, improve detection accuracy.
Fig. 2 is the structure chart of the test device of the mounted remote monitoring system according to first embodiment of the invention.In fig. 2,
Built-up circuit 202 is embodied as radio communication circuit 202.CAN 102 is from mounted remote monitoring system 200
The built-up circuit operation information received includes the presence of the user that radio communication circuit 202 carried.Information remote obtains
Module 104 is embodied as wireless communication module 104.
The CAN 102 of test device 100 sends configuration file to mounted remote monitoring system 200.This configuration
The operational factor that file is specified includes that radio communication circuit enables order.The main control chip 201 of mounted remote monitoring system 200
From configuration file, parse radio communication circuit enable order, and enable radio communication circuit 202 and work, thus channel radio
Letter circuit 202 sets up correspondence with Cloud Server, records the user that radio communication circuit 202 is carried in Cloud Server
Presence.
The user that the main control chip 201 of mounted remote monitoring system 200 is carried based on radio communication circuit 202 in wire
State constitutes built-up circuit operation information, and built-up circuit operation information is sent to test the CAN of device 100
102.CAN 102 receives the built-up circuit operation that the main control chip 201 of mounted remote monitoring system 200 returns
Information, parses the presence of the user that radio communication circuit 202 is carried from built-up circuit operation information, and by nothing
The presence of the user that line telecommunication circuit 202 is carried is sent to display module 103 and is shown.
And, the wireless communication module 104 of test device 100 accesses Cloud Server by remote mode, with from Cloud Server
Obtain the presence of the user that radio communication circuit 202 is carried.
Judge module 105 presence based on the user that CAN 102 receives obtains with wireless communication module 104
The concordance of the presence of the user taken, it is judged that radio communication circuit 202 functional, and will determine that result is sent to show
Show that module 103 is shown.Specifically, the presence of the user received when CAN 102 and radio communication
When the presence of the user that module 104 obtains is consistent, it is determined that radio communication circuit 202 normally works, and at display mould
Block 103 sends the prompting that radio communication circuit normally works;When CAN 102 receive user in wire
When the presence of the user that state obtains with wireless communication module 104 is inconsistent, it is determined that the abnormal work of radio communication circuit 202
Make, and in display module 103, send the prompting of radio communication circuit irregular working.
Fig. 3 is the structure chart of the test device of the mounted remote monitoring system according to second embodiment of the invention.
In figure 3, built-up circuit 202 is embodied as satellite positioning circuitry 202.CAN 102 from vehicle-mounted far
The built-up circuit operation information that range monitoring system 200 receives includes the satellite positioning coordinate of mounted remote monitoring system 200.Letter
Cease long-range acquisition module 104 and be embodied as satellite positioning module 104.
The CAN 102 of test device 100 sends configuration file to mounted remote monitoring system 200.This configuration
The operational factor that file is specified includes that satellite positioning circuitry enables order.The main control chip 201 of mounted remote monitoring system 200
From configuration file, parse satellite positioning circuitry enable order, and enable satellite positioning circuitry 202 and work, thus satellite
Position circuit 202 obtains the satellite positioning coordinate of mounted remote monitoring system 200.
Main control chip 201 satellite positioning coordinate based on mounted remote monitoring system 200 structure of mounted remote monitoring system 200
Become built-up circuit operation information, and built-up circuit operation information is sent to test the CAN 102 of device 100.
CAN 102 receives the built-up circuit operation information that the main control chip 201 of mounted remote monitoring system 200 returns,
From built-up circuit operation information, parse the satellite positioning coordinate of mounted remote monitoring system 200, and mounted remote is monitored
The satellite positioning coordinate of system 200 is sent to display module 103 and is shown.
And, the satellite positioning module 104 of test device 100 accesses satellite fix server by remote mode, with from defending
Star location-server obtains the satellite positioning coordinate (i.e. the satellite positioning coordinate of test position) of test device 100.Owing to surveying
Electricity testing device 100 with mounted remote monitoring system 200 geographical position closely, therefore mounted remote monitoring system 200 satellite
The elements of a fix are identical or the most close with the satellite positioning coordinate of test device 100.
The satellite positioning coordinate that judge module 105 receives based on CAN 102 obtains with satellite positioning module 104
The concordance of satellite positioning coordinate, it is judged that satellite positioning circuitry 202 functional, and will determine that result is sent to show mould
Block 103 is shown.Specifically, when satellite positioning coordinate and the satellite positioning module 104 of CAN 102 reception
When the satellite positioning coordinate of acquisition is consistent, it is determined that satellite positioning circuitry 202 normally works, and send out in display module 103
Go out the prompting that satellite positioning circuitry normally works;Satellite positioning coordinate and satellite fix when CAN 102 reception
When the satellite positioning coordinate of module 104 acquisition is inconsistent, it is determined that satellite positioning circuitry 202 irregular working, and in display
Module 103 sends the prompting of satellite positioning circuitry irregular working.
The built-up circuit 202 more than respectively describing mounted remote monitoring system is embodied as the demonstrative structure of single circuit.Real
On border, the built-up circuit 202 of mounted remote monitoring system may be embodied as multiple circuit, and this be there is no by embodiment of the present invention
Limit.
Fig. 4 is the structure chart of the test device of the mounted remote monitoring system according to third embodiment of the invention.In the diagram,
The built-up circuit of mounted remote monitoring system includes: radio communication circuit 2021 and satellite positioning circuitry 2022;And, car
Carry long distance control system and include CAN 203, CAN 203 and the CAN communication testing device 100
Module 102 is connected.Test device 100 includes wireless communication module 1041 and satellite positioning module 1042.
The CAN 102 of test device 100 is to the CAN 203 of mounted remote monitoring system 200
Send configuration file.This configuration file specifies each built-up circuit (i.e. radio communication circuit 2021 in mounted remote monitoring system 200
With satellite positioning circuitry 2022) testing sequence, and respectively specify that radio communication circuit 2021 and satellite positioning circuitry 2022
Operational factor.The operational factor of radio communication circuit 2021 includes that radio communication circuit enables order;Satellite positioning circuitry
The operational factor of 2022 includes that satellite positioning circuitry enables order.
Assuming that this configuration file nominative testing order is: 1, radio communication circuit 2021;2, satellite positioning circuitry 2022.
So, test process specifically includes:
First, perform to perform test for radio communication circuit 2021.Test process bag for radio communication circuit 2021
Include:
The CAN 102 of test device 100 sends configuration file to mounted remote monitoring system 200.This configuration
The operational factor that file is specified includes that radio communication circuit enables order.The main control chip 201 of mounted remote monitoring system 200
From configuration file, parse radio communication circuit enable order, and enable radio communication circuit 2021 and work, thus wireless
Telecommunication circuit 2021 and Cloud Server set up correspondence, record what radio communication circuit 2021 was carried in Cloud Server
The presence of user.
The user's that the main control chip 201 of mounted remote monitoring system 200 is carried based on radio communication circuit 2021 is online
State constitutes built-up circuit operation information, and built-up circuit operation information is sent to test the CAN communication mould of device 100
Block 102.CAN 102 receives the built-up circuit fortune that the main control chip 201 of mounted remote monitoring system 200 returns
Row information, parses the presence of the user that radio communication circuit 2021 is carried from built-up circuit operation information, and
The presence of the user carried by radio communication circuit 2021 is sent to display module 103 and is shown.
And, the wireless communication module 1041 of test device 100 accesses Cloud Server by remote mode, with from cloud service
Device obtains the presence of the user that radio communication circuit 2021 is carried.
Judge module 105 presence based on the user that CAN 102 receives obtains with wireless communication module 1041
The concordance of the presence of the user taken, it is judged that radio communication circuit 2021 functional, and will determine that result is sent to
Display module 103 is shown.Specifically, the presence of the user received when CAN 102 and channel radio
When the presence of the user that letter module 1041 obtains is consistent, it is determined that radio communication circuit 2021 normally works, and aobvious
Show and module 103 sends the prompting that radio communication circuit normally works;When CAN 102 receive user
When the presence of the user that line states obtains with wireless communication module 1041 is inconsistent, it is determined that radio communication circuit 2021 is not
Normal work, and in display module 103, send the prompting of radio communication circuit irregular working.
Then, perform to perform test for satellite positioning circuitry 2022.Test process bag for satellite positioning circuitry 2022
Include:
The CAN 102 of test device 100 is specified in the configuration file that mounted remote monitoring system 200 sends
Operational factor include satellite positioning circuitry enable order.The main control chip 201 of mounted remote monitoring system 200 is from configuration literary composition
Part parses satellite positioning circuitry and enables order, and enable satellite positioning circuitry 2022 and work, thus satellite positioning circuitry
2022 satellite positioning coordinates obtaining mounted remote monitoring system 200.
Main control chip 201 satellite positioning coordinate based on mounted remote monitoring system 200 structure of mounted remote monitoring system 200
Become built-up circuit operation information, and built-up circuit operation information is sent to test the CAN 102 of device 100.
CAN 102 receives the built-up circuit operation information that the main control chip 201 of mounted remote monitoring system 200 returns,
From built-up circuit operation information, parse the satellite positioning coordinate of mounted remote monitoring system 200, and mounted remote is monitored
The satellite positioning coordinate of system 200 is sent to display module 103 and is shown.
And, the satellite positioning module 1042 of test device 100 accesses satellite fix server by remote mode, with from
Satellite fix server obtains the satellite positioning coordinate of test device 100.Owing to test device 100 with mounted remote monitoring is
Unite 200 geographical position closely, therefore mounted remote monitoring system 200 satellite positioning coordinate and test the defending of device 100
The star elements of a fix are identical or the most close.
The satellite positioning coordinate that judge module 105 receives based on CAN 102 obtains with satellite positioning module 1042
The concordance of satellite positioning coordinate, it is judged that satellite positioning circuitry 2022 functional, and will determine that result is sent to display
Module 103 is shown.Specifically, when satellite positioning coordinate and the satellite positioning module of CAN 102 reception
When 1042 satellite positioning coordinates obtained are consistent, it is determined that satellite positioning circuitry 2022 normally works, and at display module 103
In send the prompting that satellite positioning circuitry normally works;Satellite positioning coordinate and satellite when CAN 102 reception
When the satellite positioning coordinate of locating module 1042 acquisition is inconsistent, it is determined that satellite positioning circuitry 2022 irregular working, and
The prompting of satellite positioning circuitry irregular working is sent in display module 103.
When expecting the testing sequence changing each internal circuit in mounted remote monitoring system 200, can be in configuration file
Change corresponding testing sequence.
Based on foregoing detailed description, embodiment of the present invention also proposed the method for testing of a kind of mounted remote monitoring system.
Fig. 5 is the method for testing flow chart of the mounted remote monitoring system according to the present invention.
As it is shown in figure 5, the method includes:
Step 501: generate configuration file.
Step 502: sending configuration file to mounted remote monitoring system, mounted remote monitoring system is based on configuration file control
The operation of the built-up circuit of self.
Step 503: receive built-up circuit operation information from mounted remote monitoring system.
Step 504: display built-up circuit operation information.
In one embodiment, the method also includes:
Built-up circuit operation information is obtained by remote mode;When the built-up circuit received from mounted remote monitoring system runs letter
When ceasing identical with the built-up circuit operation information obtained by remote mode, it is determined that built-up circuit is normal, and/or, when from vehicle-mounted
The built-up circuit operation information that long distance control system receives is differed with the built-up circuit operation information obtained by remote mode
Time, it is determined that built-up circuit is abnormal;Display result of determination.Wherein it is possible to hold in any time of method flow shown in Fig. 5
The step for that row obtaining built-up circuit operation information, embodiment of the present invention is to this and indefinite.
In one embodiment, built-up circuit is radio communication circuit, the built-up circuit received from mounted remote monitoring system
Operation information comprises the presence of the user that radio communication circuit is carried;The method includes: when from mounted remote monitoring being
The presence included in built-up circuit operation information that system receives is identical with inquiring about presence determined by Cloud Server
Time, it is determined that radio communication circuit is normal, and/or, when institute from the built-up circuit operation information that mounted remote monitoring system receives
When presence determined by the presence comprised and inquiry Cloud Server differs, it is determined that radio communication circuit is abnormal.
In one embodiment, built-up circuit is satellite positioning circuitry;The built-up circuit received from mounted remote monitoring system
Operation information comprises the satellite positioning coordinate of mounted remote monitoring system;Built-up circuit operation information bag is obtained by remote mode
Include: obtained the satellite positioning coordinate of test position by remote mode;The method includes: when connecing from mounted remote monitoring system
The satellite positioning coordinate included in built-up circuit operation information received and the satellite positioning coordinate phase obtained by remote mode
Simultaneously, it is determined that satellite positioning circuitry is normal, and/or, when from the built-up circuit operation information that mounted remote monitoring system receives
When the satellite positioning coordinate comprised is differed with the satellite positioning coordinate obtained by remote mode, it is determined that satellite positioning circuitry
Abnormal.
In sum, in embodiments of the present invention, configuration file generation module generates configuration file;CAN to
Mounted remote monitoring system sends configuration file, and wherein mounted remote monitoring system controls the composition electricity of self based on configuration file
The operation on road;CAN also receives built-up circuit operation information from mounted remote monitoring system, and is transported by built-up circuit
Row information is sent to display module;Display module, is used for showing built-up circuit operation information.As can be seen here, the application present invention
Afterwards, corresponding configuration based on configuration file controls the operation of built-up circuit, and testing staff has only to perusal display module
Either with or without normal display built-up circuit operation information, mounted remote monitoring system can be detected the most working properly, thus realize
Semi-automatic mode detects mounted remote monitoring system.
It addition, in embodiments of the present invention, information remote acquisition module obtains built-up circuit operation information by remote mode,
Judge module compares built-up circuit operation information and the composition electricity of information remote acquisition module acquisition that CAN receives
The concordance of road operation information, automatic decision built-up circuit is the most normal, thus also achieves mounted remote monitoring system
Fully-automated synthesis, and improve detection accuracy.
The a series of detailed description of those listed above is only for illustrating of the feasibility embodiment of the present invention, and
And be not used to limit the scope of the invention, all equivalent embodiments made without departing from skill of the present invention spirit or change,
As feature combination, split or repeat, should be included within the scope of the present invention.
Claims (10)
1. a test device for mounted remote monitoring system, described mounted remote monitoring system includes built-up circuit;Its feature exists
In, described test device includes:
Configuration file generation module, is used for generating configuration file;
CAN, for sending described configuration file to described mounted remote monitoring system, wherein said mounted remote is supervised
Ore-controlling Role controls the operation of described built-up circuit based on described configuration file;It is additionally operable to from described mounted remote monitoring system reception group
Become circuit operation information, and described built-up circuit operation information is sent to display module;
Display module, is used for showing described built-up circuit operation information.
Device the most according to claim 1, it is characterised in that also include:
Information remote acquisition module, for obtaining built-up circuit operation information by remote mode;
Judge module, obtains with information remote acquisition module for the described built-up circuit operation information received when CAN
Described built-up circuit operation information identical time, it is determined that described built-up circuit is normal, and/or, when CAN receives
When the described built-up circuit operation information that described built-up circuit operation information and information remote acquisition module obtain differs, it is determined that institute
State built-up circuit abnormal, and result of determination is sent to display module is shown.
Device the most according to claim 2, it is characterised in that described built-up circuit is radio communication circuit;CAN leads to
The described built-up circuit operation information that letter module receives includes the presence of the user that described radio communication circuit carried;Described
Information remote acquisition module is wireless communication module;
Described wireless communication module, for the mark inquiry Cloud Server according to the described user prestored, to determine described use
The presence at family;
Described judge module, for the described presence included in the built-up circuit operation information that CAN receives
With wireless communication module determined by described presence identical time, it is determined that described radio communication circuit is normal, and/or, work as CAN
Determined by described presence and the wireless communication module included in built-up circuit operation information that communication module receives described
When line states differs, it is determined that described built-up circuit is abnormal, and result of determination is sent to display module is shown.
Device the most according to claim 2, it is characterised in that described built-up circuit is satellite positioning circuitry;CAN leads to
The described built-up circuit operation information that letter module receives includes the satellite positioning coordinate of mounted remote monitoring system;Described information remote
Acquisition module is satellite positioning module;
Satellite positioning module, for obtaining the satellite positioning coordinate of test position;
Judge module, for the described satellite positioning coordinate included in the built-up circuit operation information that CAN receives
Time identical with the described satellite positioning coordinate acquired in satellite positioning module, it is determined that described satellite positioning circuitry is normal, and/or, when
The described satellite positioning coordinate included in built-up circuit operation information that CAN receives is obtained with satellite positioning module
When the described satellite positioning coordinate taken differs, it is determined that described satellite positioning circuitry is abnormal, and result of determination is sent to display
Module is shown.
Device the most according to claim 3, it is characterised in that described radio communication circuit includes: general grouped wireless takes
Business technology circuit, gsm communication circuit, WLAN circuitry, interphone circuit, satellite television circuit, bluetooth communication circuit,
Infrared communication circuit or purple honeybee telecommunication circuit.
Device the most according to claim 4, it is characterised in that described satellite positioning circuitry includes: gps satellite location electricity
Road, big-dipper satellite positioning circuit or GLONASS satellite positioning circuitry.
7. the method for testing of a mounted remote monitoring system, it is characterised in that including:
Generate configuration file;
Sending described configuration file to mounted remote monitoring system, described mounted remote monitoring system controls based on described configuration file
The operation of the built-up circuit of self;
Built-up circuit operation information is received from described mounted remote monitoring system;
Show described built-up circuit operation information.
Method the most according to claim 7, it is characterised in that the method also includes:
Built-up circuit operation information is obtained by remote mode;
When the described built-up circuit operation information received from mounted remote monitoring system and the described composition electricity obtained by remote mode
When road operation information is identical, it is determined that described built-up circuit is normal, and/or, when the described composition received from mounted remote monitoring system
When circuit operation information is differed with the described built-up circuit operation information obtained by remote mode, it is determined that described built-up circuit is not
Normally;
Display result of determination.
Method the most according to claim 8, it is characterised in that described built-up circuit is radio communication circuit, from vehicle-mounted far
The described built-up circuit operation information that range monitoring system receives comprises the presence of the user that described radio communication circuit is carried;
Described obtain built-up circuit operation information by remote mode and include: inquire about cloud according to the mark of the described user prestored
Server, to determine the presence of described user;The method includes:
When the described presence included in the built-up circuit operation information that mounted remote monitoring system receives and inquiry cloud service
When determined by device, described presence is identical, it is determined that described radio communication circuit is normal, and/or, when from mounted remote monitoring being
System receive built-up circuit operation information included in described presence with inquiry Cloud Server determined by described presence
When differing, it is determined that described radio communication circuit is abnormal.
Method the most according to claim 8, it is characterised in that described built-up circuit is satellite positioning circuitry;Described from
The described built-up circuit operation information that mounted remote monitoring system receives comprises the satellite positioning coordinate of mounted remote monitoring system;Institute
State and included by remote mode acquisition built-up circuit operation information: obtained the satellite positioning coordinate of test position by remote mode;
The method includes:
When the described satellite positioning coordinate included in the built-up circuit operation information that mounted remote monitoring system receives and by remote
When described satellite positioning coordinate that journey mode obtains is identical, it is determined that described satellite positioning circuitry is normal, and/or, when from mounted remote
Monitoring system receive built-up circuit operation information included in described satellite positioning coordinate with obtained by remote mode described in
When satellite positioning coordinate differs, it is determined that described satellite positioning circuitry is abnormal.
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