CN105262824A - Automobile monitoring method, device and system - Google Patents

Abstract

The present invention is suitable for the automobile monitoring field, and provides an automobile monitoring method, device and system for solving the problem that a third-party product can not be efficiently combined for the realization of real-time remote automobile monitoring in the prior art. The method includes the steps as follows: receiving the monitoring command by a connector, wherein, the monitoring command is transmitted by a background server; transmitting the received monitoring command to a vehicle-mounted executive device so that the vehicle-mounted executive device executes the monitoring command; receiving the execution result of the monitoring command returned by the vehicle-mounted executive device; transmitting the execution result to the background server so that the background server transmits the execution result to a client. The technical scheme provided by the invention realizes the real-time remote automobile monitoring by the efficient combination with the third-part product, is rid of product oneness, promotes the user experience, and simultaneously avoids the information security potential risk due to the direct access of the third-part product to the background server because a connector connects the third-part product with the background server, thereby increasing the system security.

Description

A kind of automobile monitoring method, Apparatus and system

Technical field

The present invention relates to automobile monitoring field, particularly relate to a kind of automobile monitoring method, Apparatus and system.

Background technology

Along with the high speed development of economic society, automobile application is in social life more and more universal, and automobile real-time remote monitoring is also day by day by people are paid attention to.

At present, automobile remote monitoring product is relatively single, a lot of remote supervisory and control(ling) equipment cannot be combined by the third-party product in onboard system, or, third-party product is combined with remote supervisory and control(ling) equipment to realize, need the background server of directly accessing remote supervisory and control(ling) equipment, cause the hidden danger of information security.

Summary of the invention

The object of the present invention is to provide a kind of automobile monitoring methods, devices and systems, be intended to solve the problem that effectively cannot realize automobile real-time remote monitoring in prior art in conjunction with third-party product.

First aspect present invention, provides a kind of automobile monitoring method, it is characterized in that, comprising:

Connector receives the monitor command that background server sends;

The described monitor command received is sent to vehicle-mounted final controlling element, so that described vehicle-mounted final controlling element performs described monitor command;

Receive the execution result of the described monitor command that described vehicle-mounted final controlling element returns;

Described execution result is sent to described background server, so that described execution result is sent to client by described background server.

Second aspect present invention, provides a kind of automobile monitoring device, it is characterized in that, comprising:

Order receiver module, for receiving the monitor command that background server sends;

Order sending module, for the described monitor command received is sent to vehicle-mounted final controlling element, so that described vehicle-mounted final controlling element performs described monitor command;

Result receiver module, for receiving the execution result of the described monitor command that described vehicle-mounted final controlling element returns;

Result sending module, for described execution result is sent to described background server, so that described execution result is sent to client by described background server.

Third aspect present invention, provides a kind of vehicle monitoring system, it is characterized in that, comprises client, background server, connector, vehicle-mounted final controlling element and file server;

Described client, for monitor command is sent to described background server, and receives the execution result of the described monitor command that described background server returns;

Described background server, for receiving the described monitor command that described client sends, and the described monitor command received is sent to described connector, receive the execution result of the described monitor command that described connector returns simultaneously, and the execution result of described monitor command is sent to described client;

Described connector, for receiving the described monitor command that described background server sends, and the described monitor command received is sent to vehicle-mounted final controlling element, receive the execution result of the described monitor command that described vehicle-mounted final controlling element returns simultaneously, and the execution result of described monitor command is sent to described background server, when the execution result of described monitor command comprises the output file of picture or video, described connector is also for being sent to described file server by described output file, receive the preservation address of the described output file that described file server returns, and described preservation address is sent to described background server,

Described vehicle-mounted final controlling element, for performing the described monitor command of the described connector transmission received, and is sent to described connector by the execution result of described monitor command;

Described file server, for when the execution result of described monitor command comprises the described output file of picture or video, receives the described output file that described connector sends, and the preservation address of described output file is returned to described connector.

The beneficial effect that the present invention compared with prior art exists is: on the one hand, after connector receives the monitor command of background server transmission, monitor command is sent to vehicle-mounted final controlling element, vehicle-mounted final controlling element performs monitor command and the execution result of monitor command is returned to connector, execution result is returned to background server by connector again, execution result is sent to client and shows by background server, because vehicle-mounted final controlling element can be third-party product, therefore achieve effectively in conjunction with the automobile real-time remote monitoring of third-party product by technical scheme provided by the invention, thus broken away from product unicity, improve Consumer's Experience, on the other hand, owing to using connector to connect third-party product and background server, avoid third-party product and directly access the information security hidden danger that background server brings, thus improve security of system.

Accompanying drawing explanation

Fig. 1 is the flow chart of the automobile monitoring method that the embodiment of the present invention one provides;

Fig. 2 is the flow chart of the automobile monitoring method that the embodiment of the present invention two provides;

Fig. 3 is the flow chart of the automobile monitoring method that the embodiment of the present invention three provides;

Fig. 4 is the flow chart of the automobile monitoring method that the embodiment of the present invention four provides;

Fig. 5 is the composition schematic diagram of the automobile monitoring device that the embodiment of the present invention five provides;

Fig. 6 is the composition schematic diagram of the vehicle monitoring system that the embodiment of the present invention six provides.

Embodiment

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Below in conjunction with concrete accompanying drawing, realization of the present invention is described in detail.

Embodiment one:

Fig. 1 is the flow chart of the automobile monitoring method that the embodiment of the present invention one provides, and the method can be applicable to connector, to realize the automobile real-time remote monitoring in conjunction with third-party product.The automobile monitoring method of Fig. 1 example specifically comprises step S101 to S104, and details are as follows:

S101, connector receive the monitor command that background server sends.

The order of automobile real-time remote monitoring is sent to connector by background server, and monitor command can be the some orders preset, such as, demarcate instruction, photographing instruction and video recording instruction etc.

Particularly, connector can be installed on automobile to be monitored, by the mobile communications networks such as 3G/4G and background server communication.

The monitor command received is sent to vehicle-mounted final controlling element by S102, connector, so that vehicle-mounted final controlling element performs monitor command.

Monitor command is sent to vehicle-mounted final controlling element, makes vehicle-mounted final controlling element perform corresponding policer operation according to monitor command after receiving the monitor command of background server transmission by connector.

Particularly, vehicle-mounted final controlling element can be third-party product, as drive recorder, and carries out communication by WIFI (WirelessFidelity, Wireless Fidelity) with connector.

S103, connector receive the execution result of the monitor command that vehicle-mounted final controlling element returns.

After vehicle-mounted final controlling element executes policer operation, the execution result of monitor command is sent to connector.

Particularly, demarcating the execution result of instruction is demarcate instruction to run succeeded or the mark of failure; The execution result of photographing instruction is that photographing instruction runs succeeded or the mark of failure, and result picture when running succeeded; The execution result of video recording instruction is that video recording instruction runs succeeded or the mark of failure, and result video when running succeeded.

Execution result is sent to background server by S104, connector, so that execution result is sent to client by background server.

The execution result of correspondence, according to different monitor commands, is sent to background server by connector, makes background server execution result can be sent to client, so that user is by the execution result of client checking monitoring order, realizes real-time remote monitoring.

Particularly, to demarcation instruction, connector directly demarcation instruction is run succeeded or the mark of failure is sent to background server; To photographing instruction or video recording instruction, connector is except running succeeded photographing instruction or video recording instruction or the mark of failure is sent to background server, the result video also needing the result picture that run succeeded by photographing instruction or video recording instruction to run succeeded uploads to file server and preserves, and the preservation address simultaneously returned by file server is sent to background server.

In the present embodiment, after connector receives the monitor command of background server transmission, monitor command is sent to third-party vehicle-mounted final controlling element, and the monitor command execution result returned by vehicle-mounted final controlling element is sent to background server, so that execution result is sent to client by background server, thus make user can by the implementation status of client real time inspection monitor command, achieve the automobile real-time remote monitoring in conjunction with third-party product, adopt connector to connect third-party product and background server simultaneously, avoid third-party product and directly access the information security hidden danger that background server brings, thus improve security of system.

Embodiment two:

Fig. 2 is the flow chart of the automobile monitoring method that the embodiment of the present invention two provides, and the method can be applicable to connector, to realize the automobile real-time remote monitoring in conjunction with third-party product.The automobile monitoring method of Fig. 2 example specifically comprises step S201 to S204, and details are as follows:

S201, connector receive the demarcation instruction that background server sends.

Particularly, demarcate refer to according to Road from Row sum-equal matrix shooting angle, when find remote monitoring shooting picture depart from traval trace, cross the street lines time, can by demarcation instruction the angle adjustment of shooting picture is rectified.

Particularly, connector can be installed on automobile to be monitored, by the mobile communications networks such as 3G/4G and background server communication.

The demarcation instruction received is sent to vehicle-mounted final controlling element by S202, connector, so that vehicle-mounted final controlling element performs demarcate instruction.

Demarcation instruction is sent to vehicle-mounted final controlling element after receiving the demarcation instruction of background server transmission by connector, makes vehicle-mounted final controlling element perform proving operation according to demarcation instruction, the angle adjustment of shooting picture is rectified.

Particularly, vehicle-mounted final controlling element can be third-party product, as drive recorder, and carries out communication by WIFI and connector.

S203, connector receive demarcation instruction that vehicle-mounted final controlling element returns and run succeeded or the mark of failure.

After vehicle-mounted final controlling element executes proving operation, demarcation instruction is run succeeded or the mark of failure sends to connector.

S204, connector are run succeeded at demarcation instruction or the mark of failure is sent to background server, so that background server is run succeeded at demarcation instruction or the mark of failure is sent to client.

Connector is run succeeded at demarcation instruction or the standard of failure is sent to background server, demarcation instruction can be run succeeded or the mark of failure is sent to client by background server, so that user checks the execution result demarcating instruction by client, realize real-time remote monitoring.

In the present embodiment, after connector receives the demarcation instruction of background server transmission, demarcation instruction is sent to third-party vehicle-mounted final controlling element, and the execution result that the demarcation instruction returned by vehicle-mounted final controlling element performs is sent to background server, so that execution result is sent to client by background server, thus make user can be demarcated the implementation status of instruction by client real time inspection, achieve the automobile real-time remote monitoring in conjunction with third-party product, adopt connector to connect third-party product and background server simultaneously, avoid third-party product and directly access the information security hidden danger that background server brings, thus improve security of system.

Embodiment three:

Fig. 3 is the flow chart of the automobile monitoring method that the embodiment of the present invention three provides, and the method can be applicable to connector, to realize the automobile real-time remote monitoring in conjunction with third-party product.The automobile monitoring method of Fig. 3 example specifically comprises step S301 to S304, and details are as follows:

S301, connector receive the photographing instruction that background server sends.

Photographing instruction is sent to connector by background server.

Particularly, connector can be installed on automobile to be monitored, by the mobile communications networks such as 3G/4G and background server communication.

The photographing instruction received is sent to vehicle-mounted final controlling element by S302, connector, so that vehicle-mounted final controlling element performs photographing instruction.

Photographing instruction is sent to vehicle-mounted final controlling element, makes vehicle-mounted final controlling element perform photographing operation according to photographing instruction after receiving the photographing instruction of background server transmission by connector, shooting current picture, and preserves with graphic form.

Particularly, vehicle-mounted final controlling element can be third-party product, as drive recorder, and carries out communication by WIFI and connector.

S303, when photographing instruction runs succeeded, connector receives the result picture of mark that photographing instruction that vehicle-mounted final controlling element returns runs succeeded and photographing instruction; When photographing instruction performs unsuccessfully, the photographing instruction that the described vehicle-mounted final controlling element of connector reception returns performs failed mark.

After vehicle-mounted final controlling element executes photographing operation, if photographing instruction runs succeeded, then the mark run succeeded by photographing instruction and the picture of shooting send to connector; If photographing instruction performs failure, then photographing instruction is performed failed mark and send to connector.

S304, when photographing instruction runs succeeded, result picture is sent to file server by connector, and the preservation address of result picture that the mark run succeeded by photographing instruction and file server return is sent to background server, so that the preservation address of the mark that run succeeded by photographing instruction of background server and result picture is sent to client; When photographing instruction performs unsuccessfully, photographing instruction is performed failed mark and is sent to background server by connector, so that photographing instruction is performed failed mark by background server be sent to client.

If photographing instruction runs succeeded, then the picture file that vehicle-mounted final controlling element is taken is uploaded to file server preservation by connector, after uploading end, file server returns to the network address of picture file preservation to connector, the mark that this zone network address and photographing instruction run succeeded is sent to background server by connector, make background server can be sent to client by preserving the mark that the network address of picture file and photographing instruction run succeeded, so as user downloaded by the network address that client shows captured by picture check.

If photographing instruction performs failure, then photographing instruction is directly performed failed mark and is sent to background server by connector, make background server instruction can be performed failed mark and be sent to client, so that user checks the execution result of photographing instruction by client, realize real-time remote monitoring.

In the present embodiment, after connector receives the photographing instruction of background server transmission, photographing instruction is sent to third-party vehicle-mounted final controlling element, and the execution result that the photographing instruction returned by vehicle-mounted final controlling element performs is sent to background server, so that execution result is sent to client by background server, thus make user can by the implementation status of client real time inspection photographing instruction, achieve the automobile real-time remote monitoring in conjunction with third-party product, adopt connector to connect third-party product and background server simultaneously, avoid third-party product and directly access the information security hidden danger that background server brings, thus improve security of system.

Embodiment four:

Fig. 4 is the flow chart of the automobile monitoring method that the embodiment of the present invention four provides, and the method can be applicable to connector, to realize the automobile real-time remote monitoring in conjunction with third-party product.The automobile monitoring method of Fig. 4 example specifically comprises step S401 to S404, and details are as follows:

S401, connector receive the video recording instruction that background server sends.

Video recording instruction is sent to connector by background server.

Particularly, connector can be installed on automobile to be monitored, by the mobile communications networks such as 3G/4G and background server communication.

The video recording instruction received is sent to vehicle-mounted final controlling element by S402, connector, so that vehicle-mounted final controlling element performs video recording instruction.

Video recording instruction is sent to vehicle-mounted final controlling element after receiving the video recording instruction of background server transmission by connector, makes vehicle-mounted final controlling element perform video recording operation according to video recording instruction, takes current picture, and preserve with visual form.

Particularly, vehicle-mounted final controlling element can be third-party product, as drive recorder, and carries out communication by WIFI and connector.

S403, when instruction of recording a video runs succeeded, connector receives the result picture of mark that video recording instruction that vehicle-mounted final controlling element returns runs succeeded and video recording instruction; When instruction of recording a video performs unsuccessfully, the video recording instruction that the described vehicle-mounted final controlling element of connector reception returns performs failed mark.

After vehicle-mounted final controlling element executes video recording operation, if video recording instruction runs succeeded, then mark video recording instruction run succeeded and the video of shooting send to connector; If video recording instruction performs failure, then video recording instruction is performed failed mark and send to connector.

S404, when record a video instruction run succeeded time, result video is sent to file server by connector, and the preservation address of the result video video recording mark that runs succeeded of instruction and file server returned is sent to background server, so that the preservation address of the mark that video recording instruction run succeeded of background server and result video is sent to client; When instruction of recording a video performs unsuccessfully, video recording instruction is performed failed mark and is sent to background server by connector, so that video recording instruction is performed failed mark by background server be sent to client.

If video recording instruction runs succeeded, then the video file that vehicle-mounted final controlling element is taken is uploaded to file server preservation by connector, after uploading end, file server returns to the network address of video file preservation to connector, the mark that this zone network address and video recording instruction run succeeded is sent to background server by connector, make background server the network address and the mark that runs succeeded of video recording instruction of preserving video file can be sent to client, so as user downloaded by the network address that client shows captured by video check.

If video recording instruction performs failure, then video recording instruction is directly performed failed mark and is sent to background server by connector, make background server instruction can be performed failed mark and be sent to client, so that user checks the execution result of video recording instruction by client, realize real-time remote monitoring.

In the present embodiment, after connector receives the video recording instruction of background server transmission, video recording instruction is sent to third-party vehicle-mounted final controlling element, and the execution result that the video recording instruction returned by vehicle-mounted final controlling element performs is sent to background server, so that execution result is sent to client by background server, thus make user can by client real time inspection video recording instruction implementation status, achieve the automobile real-time remote monitoring in conjunction with third-party product, adopt connector to connect third-party product and background server simultaneously, avoid third-party product and directly access the information security hidden danger that background server brings, thus improve security of system.

Embodiment five:

Fig. 5 is the composition schematic diagram of the automobile monitoring device that the embodiment of the present invention five provides, and for convenience of explanation, illustrate only the part relevant to the embodiment of the present invention.The automobile monitoring device of Fig. 5 example can be the executive agent of the automobile monitoring method that previous embodiment one to embodiment four provides.The automobile monitoring device of Fig. 5 example mainly comprises: order receiver module 51, order sending module 52, result receiver module 53 and result sending module 54.Be described in detail as follows:

Order receiver module 51, for receiving the monitor command that background server sends;

Order sending module 52, the monitor command for being received by order receiver module 51 is sent to vehicle-mounted final controlling element, so that described vehicle-mounted final controlling element performs described monitor command;

Result receiver module 53, for receiving the execution result of the monitor command that vehicle-mounted final controlling element returns;

Result sending module 53, is sent to background server for the execution result received by result receiver module 53, so that described execution result is sent to client by described background server.

Particularly, as shown in Figure 5, order receiver module 51 comprises:

Demarcate command reception submodule 511, for receiving the demarcation instruction that background server sends;

Photographing instruction receives submodule 512, for receiving the photographing instruction that background server sends;

Video recording command reception submodule 513, for receiving the video recording instruction that background server sends.

Particularly, as shown in Figure 5, order sending module 52 comprises:

Demarcate instruction and send submodule 521, be sent to vehicle-mounted final controlling element, so that described vehicle-mounted final controlling element performs described demarcation instruction for the demarcation instruction received by demarcation command reception submodule 511;

Photographing instruction sends submodule 522, and the photographing instruction received for photographing instruction being received submodule 512 is sent to vehicle-mounted final controlling element, so that described vehicle-mounted final controlling element performs described photographing instruction;

Video recording instruction sends submodule 523, is sent to vehicle-mounted final controlling element, so that described vehicle-mounted final controlling element performs described video recording instruction for the video recording instruction received by video recording command reception submodule 513.

Particularly, as shown in Figure 5, result receiver module 53 comprises:

Calibration result receives submodule 531, and the demarcation instruction returned for receiving vehicle-mounted final controlling element runs succeeded or the mark of failure;

Result of taking pictures receives submodule 531, for when photographing instruction runs succeeded, receive the result picture of mark that described photographing instruction that vehicle-mounted final controlling element returns runs succeeded and described photographing instruction, when photographing instruction performs unsuccessfully, receive the described photographing instruction that vehicle-mounted final controlling element returns and perform failed mark;

Video recording result receives submodule 533, for when instruction of recording a video runs succeeded, receive the result video of mark that described video recording instruction that vehicle-mounted final controlling element returns runs succeeded and described video recording instruction, when instruction of recording a video performs unsuccessfully, receive the mark that described video recording instruction execution that vehicle-mounted final controlling element returns is failed.

Particularly, as shown in Figure 5, result sending module 54 comprises:

Calibration result sends submodule 541, for demarcation instruction being run succeeded or the mark of failure is sent to background server, so that described background server is run succeeded at described demarcation instruction or the mark of failure is sent to client;

Result of taking pictures sends submodule 542, for when photographing instruction runs succeeded, result picture is sent to file server, and the preservation address of result picture that the mark run succeeded by described photographing instruction and described file server return is sent to background server, so that the preservation address of the mark that photographing instruction runs succeeded by described background server and result picture is sent to client, when photographing instruction performs unsuccessfully, photographing instruction is performed failed mark and is sent to background server, so that described photographing instruction is performed failed mark and is sent to client by described background server,

Video recording result sends submodule 543, for when instruction of recording a video runs succeeded, result video is sent to file server, and the preservation address of result video that the mark described video recording instruction run succeeded and described file server return is sent to background server, so that the preservation address of the mark that photographing instruction runs succeeded by described background server and result video is sent to client, when video recording operation performs unsuccessfully, video recording instruction is performed failed mark and is sent to background server, so that described video recording instruction is performed failed mark and is sent to client by described background server.

From the automobile monitoring device of above-mentioned Fig. 5 example, in the present embodiment, after connector receives the monitor command of background server transmission, monitor command is sent to third-party vehicle-mounted final controlling element, and the monitor command execution result returned by vehicle-mounted final controlling element is sent to background server, so that execution result is sent to client by background server, thus make user can by the implementation status of client real time inspection monitor command, achieve the automobile real-time remote monitoring in conjunction with third-party product, adopt connector to connect third-party product and background server simultaneously, avoid third-party product and directly access the information security hidden danger that background server brings, thus improve security of system.

Embodiment six:

Fig. 6 is the composition schematic diagram of the vehicle monitoring system that the embodiment of the present invention six provides, and for convenience of explanation, illustrate only the part relevant to the embodiment of the present invention.The vehicle monitoring system of Fig. 6 example mainly comprises: client 61, background server 62, connector 63, vehicle-mounted final controlling element 64 and file server 65, wherein, connector 63 can comprise the automobile monitoring device of Fig. 5 example, or the automobile monitoring device of Fig. 5 example forms the main part of connector 63.Be described in detail as follows:

Client 61, for monitor command is sent to background server 62, and receives the execution result of the described monitor command that background server 62 returns;

Background server 62, for receiving the monitor command that client 61 sends, and the monitor command received is sent to connector 63, the simultaneously execution result of described monitor command that returns of receiving connector 63, and the execution result of described monitor command is sent to client 61;

Connector 63, for receiving the monitor command that background server 62 sends, and the monitor command received is sent to vehicle-mounted final controlling element 64, receive the execution result of the described monitor command that vehicle-mounted final controlling element 64 returns simultaneously, and the execution result of described monitor command is sent to background server 62, when the execution result of monitor command comprises the output file of picture or video, connector 63 is also for being sent to file server 65 by described output file, receive the preservation address of the described output file that file server 65 returns, and described preservation address is sent to background server 62,

Vehicle-mounted final controlling element 64, for performing the monitor command of connector 63 transmission received, and is sent to connector 63 by the execution result of described monitor command;

File server 65, for when the execution result of monitor command comprises the output file of picture or video, the described output file that receiving connector 63 sends, and the preservation address of described output file is returned to connector 63.

Particularly, connector 63 can be installed on automobile to be monitored, between connector 63 and background server 62, and can carry out communication by mobile communications networks such as 3G/4G between connector 63 and file server 65; Vehicle-mounted final controlling element 64 can be third-party product, as drive recorder, and carries out communication by WIFI and connector 63; Client 61 can be various terminal equipment, such as mobile phone, computer etc., and carries out communication by the mobile communications networks such as 3G/4G and background server 62.

For clear interpretation the present embodiment, provide a kind of application example scene of the present embodiment below.

When car engine time, connector can be activated, now connector starts socket (socket) service, wait for that vehicle-mounted final controlling element and drive recorder connect this socket, when after successful connection, the result of successful connection is reported to background server by connector, background server judges if first time receives this result, then this result is pushed to client, client is according to the sequence number of connector and user ID (Identity, identity) bind this connector, and will the button display of this connector be represented on the client, complete the registration process of connector.

User can click the orders such as the pictures taken of the inside display, capture video and angle calibration after entering control inerface by the button clicking client display.When after the order that user clicks pictures taken or capture video, first this order is issued to background server, background server is issued to connector again, order is pushed to drive recorder by connector, drive recorder shooting current picture also uploads to connector with picture or visual form, file server is uploaded to again by connector, picture or video are preserved successfully with document form by file server, preservation address is returned to connector, connector returns to background server again, background server is sent to client, the reference address of the prompting that client then runs succeeded to user's display command and picture or video file, user can visit picture or video file by this network address.When find drive recorder shooting picture depart from traval trace, cross the street lines time, user issues demarcation instruction by client, drive recorder can perform demarcate order, the angle adjustment of shooting picture is rectified.

From the vehicle monitoring system of above-mentioned Fig. 6 example, in the present embodiment, monitor command is sent to background server by client, the monitor command received is sent to connector by background server, monitor command is sent to vehicle-mounted final controlling element and performs by connector again, execution result is returned to connector after executing monitor command by vehicle-mounted final controlling element, this result is sent to background server by connector, this result is sent to client by background server again, user is by the implementation status of client real time inspection monitor command, achieve the automobile real-time remote monitoring in conjunction with third-party product, adopt connector to connect third-party product and background server simultaneously, avoid third-party product and directly access the information security hidden danger that background server brings, thus improve security of system.

It should be noted that, each embodiment in this specification all adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, part identical or similar between each embodiment mutually see.For device class and system class embodiment, due to itself and embodiment of the method basic simlarity, so description is fairly simple, relevant part illustrates see the part of embodiment of the method.

It should be noted that in said apparatus embodiment, included modules and unit are carry out dividing according to function logic, but are not limited to above-mentioned division, as long as can realize corresponding function; In addition, the concrete title of each functional module and unit, also just for the ease of mutual differentiation, is not limited to protection scope of the present invention.

One of ordinary skill in the art will appreciate that, the all or part of step realized in the various embodiments described above method is that the hardware that can carry out instruction relevant by program has come, corresponding program can be stored in a computer read/write memory medium, described storage medium, such as ROM/RAM, disk or CD etc.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. an automobile monitoring method, is characterized in that, comprising:

Connector receives the monitor command that background server sends;

The described monitor command received is sent to vehicle-mounted final controlling element, so that described vehicle-mounted final controlling element performs described monitor command;

Receive the execution result of the described monitor command that described vehicle-mounted final controlling element returns;

Described execution result is sent to described background server, so that described execution result is sent to client by described background server.

2. automobile monitoring method according to claim 1, is characterized in that, described monitor command is for demarcating instruction, and the execution result of described monitor command comprises described demarcation instruction and runs succeeded or the mark of failure.

3. automobile monitoring method according to claim 1, is characterized in that, described monitor command is photographing instruction;

The execution result of the described monitor command that the described vehicle-mounted final controlling element of described reception returns comprises:

When described photographing instruction runs succeeded, receive the result picture of mark that described photographing instruction that described vehicle-mounted final controlling element returns runs succeeded and described photographing instruction;

When described photographing instruction performs unsuccessfully, receive the described photographing instruction that described vehicle-mounted final controlling element returns and perform failed mark;

Described described execution result is sent to described background server, comprises so that described execution result is sent to client by described background server:

When described photographing instruction runs succeeded, described result picture is sent to file server, and the preservation address of described result picture that the mark run succeeded by described photographing instruction and described file server return is sent to described background server, so that the preservation address of the mark that run succeeded by described photographing instruction of described background server and described result picture is sent to client;

When described photographing instruction performs unsuccessfully, described photographing instruction is performed failed mark and is sent to described background server, so that described photographing instruction is performed failed mark by described background server be sent to client.

4. automobile monitoring method according to claim 1, is characterized in that, described monitor command is video recording instruction;

The execution result of the described monitor command that the described vehicle-mounted final controlling element of described reception returns comprises:

When described video recording instruction runs succeeded, receive the result video of mark that described video recording instruction that described vehicle-mounted final controlling element returns runs succeeded and described video recording instruction;

When described video recording instruction performs unsuccessfully, receive the described video recording instruction that described vehicle-mounted final controlling element returns and perform failed mark;

Described described execution result is sent to described background server, comprises so that described execution result is sent to client by described background server:

When described video recording instruction runs succeeded, described result video is sent to file server, and the preservation address of described result video that the mark described video recording instruction run succeeded and described file server return is sent to described background server, so that the preservation address of the mark that run succeeded by described photographing instruction of described background server and described result video is sent to client;

When described video recording instruction performs unsuccessfully, described video recording instruction is performed failed mark and is sent to described background server, so that described video recording instruction is performed failed mark by described background server be sent to client.

5. an automobile monitoring device, is characterized in that, comprising:

Order receiver module, for receiving the monitor command that background server sends;

Order sending module, for the described monitor command received is sent to vehicle-mounted final controlling element, so that described vehicle-mounted final controlling element performs described monitor command;

Result receiver module, for receiving the execution result of the described monitor command that described vehicle-mounted final controlling element returns;

Result sending module, for described execution result is sent to described background server, so that described execution result is sent to client by described background server.

6. automobile monitoring device according to claim 5, is characterized in that,

Described monitor command comprises: demarcate instruction, photographing instruction and video recording instruction;

Described order receiver module comprises:

Demarcate command reception submodule, for receiving the demarcation instruction that background server sends;

Photographing instruction receives submodule, for receiving the photographing instruction that background server sends;

Video recording command reception submodule, for receiving the video recording instruction that background server sends.

7. automobile monitoring device according to claim 6, is characterized in that, described order sending module comprises:

Demarcate instruction and send submodule, for the described demarcation instruction received is sent to described vehicle-mounted final controlling element, so that described vehicle-mounted final controlling element performs described demarcation instruction;

Photographing instruction sends submodule, for the described photographing instruction received is sent to described vehicle-mounted final controlling element, so that described vehicle-mounted final controlling element performs described photographing instruction;

Video recording instruction sends submodule, for the described video recording instruction received is sent to described vehicle-mounted final controlling element, so that described vehicle-mounted final controlling element performs described video recording instruction.

8. automobile monitoring device according to claim 7, is characterized in that, described result receiver module comprises:

Calibration result receives submodule, and the described demarcation instruction returned for receiving described vehicle-mounted final controlling element runs succeeded or the mark of failure;

Result of taking pictures receives submodule, for when described photographing instruction runs succeeded, receive the result picture of mark that described photographing instruction that described vehicle-mounted final controlling element returns runs succeeded and described photographing instruction, when described photographing instruction performs unsuccessfully, receive the described photographing instruction that described vehicle-mounted final controlling element returns and perform failed mark;

Video recording result receives submodule, for when described video recording instruction runs succeeded, receive the result video of mark that described video recording instruction that described vehicle-mounted final controlling element returns runs succeeded and described video recording instruction, when described video recording instruction performs unsuccessfully, receive the described video recording instruction that described vehicle-mounted final controlling element returns and perform failed mark.

9. automobile monitoring device according to claim 8, is characterized in that, described result sending module comprises:

Calibration result sends submodule, for described demarcation instruction to be run succeeded or the mark of failure is sent to described background server, so that described background server is run succeeded at described demarcation instruction or the mark of failure is sent to client;

Result of taking pictures sends submodule, for when described photographing instruction runs succeeded, described result picture is sent to file server, and the preservation address of described result picture that the mark run succeeded by described photographing instruction and described file server return is sent to described background server, so that the preservation address of the mark that described photographing instruction runs succeeded by described background server and described result picture is sent to client, when described photographing instruction performs unsuccessfully, described photographing instruction is performed failed mark and is sent to described background server, so that described photographing instruction is performed failed mark and is sent to client by described background server,

Video recording result sends submodule, for when described video recording instruction runs succeeded, described result video is sent to described file server, and the preservation address of described result video that the mark described video recording instruction run succeeded and described file server return is sent to described background server, so that the preservation address of the mark that described photographing instruction runs succeeded by described background server and described result video is sent to client, when described video recording operation performs unsuccessfully, described video recording instruction is performed failed mark and is sent to described background server, so that described video recording instruction is performed failed mark and is sent to client by described background server.

10. a vehicle monitoring system, is characterized in that, comprises client, background server, connector, vehicle-mounted final controlling element and file server;

Described client, for monitor command is sent to described background server, and receives the execution result of the described monitor command that described background server returns;

Described background server, for receiving the described monitor command that described client sends, and the described monitor command received is sent to described connector, receive the execution result of the described monitor command that described connector returns simultaneously, and the execution result of described monitor command is sent to described client;

Described connector, for receiving the described monitor command that described background server sends, and the described monitor command received is sent to vehicle-mounted final controlling element, receive the execution result of the described monitor command that described vehicle-mounted final controlling element returns simultaneously, and the execution result of described monitor command is sent to described background server, when the execution result of described monitor command comprises the output file of picture or video, described connector is also for being sent to described file server by described output file, receive the preservation address of the described output file that described file server returns, and described preservation address is sent to described background server,

Described vehicle-mounted final controlling element, for performing the described monitor command of the described connector transmission received, and is sent to described connector by the execution result of described monitor command;

Described file server, for when the execution result of described monitor command comprises the described output file of picture or video, receives the described output file that described connector sends, and the preservation address of described output file is returned to described connector.