CN102431523A - Vehicle monitoring system and method - Google Patents

Abstract

The present invention discloses a vehicle monitoring system and a corresponding vehicle monitoring method, which include a vehicle monitoring module, a cloud computing platform server and a mobile terminal arranged on a vehicle. When the movement of the vehicle is detected, the vehicle monitoring module sends an alarm signal to the cloud computing platform server; the server forwards the alarm signal to the mobile terminal; after the mobile terminal receives the user's voice command, it sends it to the server, and the server obtains the vehicle command information after non-specific person voice recognition and analysis, and sends the command information to the vehicle monitoring module, so as to remotely control the vehicle. The vehicle monitoring system and method provided by the present invention enable the driver to turn on the vehicle monitoring system when leaving the vehicle to handle other matters, and to grasp and control the movement state of the vehicle anytime and anywhere, so that safety and anti-theft are no longer just a dead device that may be destroyed at any time completed by mechanical parts, which greatly increases the safety and flexibility of vehicle monitoring.

Description

Vehicle monitoring system and method

technical field

The invention relates to vehicle service technology, in particular to a vehicle monitoring system and method.

Background technique

With the development of the economy, the application of automobiles in social life is becoming more and more extensive. However, in the process of widespread use of vehicles, problems such as safety and anti-theft will naturally arise. The state when not in use is a problem that has not been fully resolved, so events such as misappropriation, theft, and towing of the vehicle often bring great trouble to the owner, and setting it unconsciously will cause great harm to the owner. Economic losses. There are also some vehicle anti-theft devices and remote sensing systems in the prior art, but these device systems often have unstable working performance and are easily damaged. To the real anti-theft effect, the state of the vehicle cannot be monitored at any time.

Contents of the invention

The technical problem to be solved by the present invention is to provide a vehicle monitoring system and method capable of monitoring the position and state of the vehicle at any time, so as to monitor the vehicle to track the vehicle and ensure the safety of the vehicle.

In order to solve the problems of the technologies described above, the technical solutions provided by the invention are as follows:

A vehicle monitoring system, comprising a vehicle monitoring module arranged on the vehicle, the vehicle monitoring module monitors the motion state of the vehicle, characterized in that the vehicle monitoring system also includes:

The mobile terminal accepts the vehicle alarm signal obtained from the vehicle monitoring module, and sends the user's voice command to the cloud computing platform server;

The cloud computing platform server accepts the voice command sent by the mobile terminal, and sends instruction information to the vehicle monitoring module after the non-specific voice recognition and analysis, so as to remotely control the vehicle.

Wherein the mobile terminal accepts the vehicle alarm signal in the form that the cloud computing platform server accepts the positioning information or the vehicle alarm signal generated by the vehicle monitoring module; Send vehicle alarm signal.

Another structural form of the vehicle monitoring system may be that the mobile terminal and the vehicle monitoring module pre-establish a communication binding relationship;

The form in which the mobile terminal receives the vehicle alarm signal is that after the vehicle monitoring module detects that the vehicle is moving, it sends the vehicle alarm signal to the mobile terminal that has established a binding relationship through the mobile network.

The present invention simultaneously provides a method for vehicle monitoring, the steps comprising:

a. The vehicle monitoring module arranged on the vehicle detects the motion state of the vehicle;

b. After detecting that the vehicle is moving, the vehicle monitoring module sends an alarm signal to the cloud computing platform server through the mobile network;

c. The cloud computing platform server forwards the vehicle alarm signal to the mobile terminal through the mobile network;

d. The mobile terminal accepts the user's voice control command and sends it to the cloud computing platform server through the mobile network;

e. The cloud computing platform server uses non-person-specific voice recognition technology to analyze the voice control command, obtain vehicle control information, and send the vehicle control information to the vehicle monitoring module through the mobile network, and the vehicle monitors The module controls the vehicle according to the vehicle control information.

Between the steps c and d, it may also include: the mobile terminal first accepts the user's voice query command, and sends it to the cloud computing platform server through the mobile network; the cloud computing platform server uses non-specific human voice Recognition technology analyzes the voice query command, obtains the vehicle query command, sends the vehicle query command to the vehicle monitoring module through the mobile network, and the vehicle monitoring module obtains the working status of the vehicle according to the vehicle query command data, and send the working status data to the mobile terminal through the cloud computing platform server for display.

Wherein, as a method for judging the motion state of the vehicle, the vehicle monitoring module in step a may periodically acquire the location information of the vehicle, and judge the motion state of the vehicle according to the location information.

As another method for judging the motion state of the vehicle, when the vehicle is in a wireless communication network environment, the vehicle monitoring module described in step a is first connected to an external wireless device with a function of obtaining location information, and the vehicle monitoring module The location information of the external wireless device is obtained through the wireless communication network, and the vehicle motion state is judged according to the location information.

As yet another method for judging the state of motion of the vehicle, when the vehicle is in a wireless communication network environment, the vehicle monitoring module described in step a is first connected to an external wireless device with the function of obtaining location information, and the vehicle monitoring module passes wireless The communication network acquires the positioning information of the external wireless device; at the same time, the vehicle monitoring module detects the position positioning information of the vehicle; the vehicle monitoring module judges the vehicle motion state according to the relative position of the vehicle and the external wireless device .

The wireless communication network can be a wifi network, an infrared network, a ZigBee network or a 3G network.

The present invention also provides another method for vehicle monitoring, the steps comprising:

a. The vehicle monitoring module arranged on the vehicle detects the positioning information of the vehicle;

b. The vehicle monitoring module sends the positioning information of the vehicle to the cloud computing platform server through the mobile network, and the cloud computing platform server judges the motion state of the vehicle;

c. When the cloud computing platform server detects that the vehicle is moving, it sends vehicle alarm information to the mobile terminal through the mobile network;

d. The mobile terminal accepts the user's voice control command and sends it to the cloud computing platform server through the mobile network;

e. The cloud computing platform server uses non-person-specific voice recognition technology to analyze the voice control command, obtain vehicle control information, and send the vehicle control information to the vehicle monitoring module through the mobile network, and the vehicle monitoring module according to The vehicle control information controls the vehicle.

Between the steps c and d, it may also include: the mobile terminal first accepts the user's voice query command, and sends it to the cloud computing platform server through the mobile network; the cloud computing platform server uses non-specific human voice Recognition technology analyzes the voice query command, obtains the vehicle query command, sends the vehicle query command to the vehicle monitoring module through the mobile network, and the vehicle monitoring module obtains the working status of the vehicle according to the vehicle query command data, and send the working status data to the mobile terminal through the cloud computing platform server for display.

The vehicle monitoring module in step a may periodically acquire the location information of the vehicle, and judge the motion state of the vehicle according to the location information.

As another method for judging the motion state of the vehicle, step a is: when the vehicle is in a wireless communication network environment, the vehicle monitoring module described in step a is first connected to an external wireless device with the function of obtaining location information, so The vehicle monitoring module obtains the positioning information of the external wireless device through the wireless communication network, and uses the positioning information of the external wireless device as the position positioning information of the vehicle.

As another method for judging the motion state of the vehicle, step a is: when the vehicle is in a wireless communication network environment, the vehicle monitoring module is first connected to an external wireless device with the function of obtaining location information, and the vehicle monitoring module passes The wireless communication network acquires the location information of the external wireless device; at the same time, the vehicle monitoring module detects the location information of the vehicle;

Step b is: the vehicle monitoring module sends the positioning information of the external wireless device and the vehicle position positioning information to the cloud computing platform server through the mobile network, and the cloud computing platform server The relative position of the external wireless device determines the motion state of the vehicle.

The wireless communication network is a wifi network, an infrared network, a ZigBee network or a 3G network.

The present invention provides yet another method for vehicle monitoring, the steps comprising:

a. The vehicle monitoring module installed on the vehicle establishes a binding relationship with the mobile terminal in advance, and the vehicle monitoring module directly communicates with the bound mobile terminal through a mobile network;

b. detecting the motion state of the vehicle by the vehicle monitoring module arranged on the vehicle;

c. After detecting the movement of the vehicle, the vehicle monitoring module directly communicates with the mobile terminal, and sends a vehicle alarm signal to the mobile terminal;

d. The mobile terminal establishes a connection with the cloud computing platform server, and sends a voice control command to the cloud computing platform server;

e. The cloud computing platform server uses non-person-specific voice recognition technology to analyze the voice control command, obtain vehicle control information, and send the vehicle control information to the vehicle monitoring module through the mobile network, and the vehicle monitoring module according to The vehicle control information controls the vehicle.

Between the steps c and d, it may also include: the mobile terminal first accepts the user's voice query command, establishes a connection with the cloud computing platform server, and sends it to the cloud computing platform server through a mobile network; The cloud computing platform server uses non-specific voice recognition technology to analyze the voice query command, obtain the vehicle query command, and send the vehicle query command to the vehicle monitoring module through the mobile network, and the vehicle monitoring module according to the The vehicle query instruction acquires the working status data of the vehicle, and sends the working status data to the bound mobile terminal for display.

The vehicle monitoring system and method provided by the present invention enable the driver of the vehicle to control the motion state of the vehicle anytime and anywhere after turning on the vehicle monitoring system when leaving the vehicle to handle other affairs, so that the safety and anti-theft are not It is just a dead device that is completed by mechanical parts that may be destroyed at any time, but a personal alarm and monitoring system that is supervised and controlled by the owner at any time, which greatly increases the safety and flexibility of vehicle monitoring.

Description of drawings

Fig. 1 is one of structural representations of vehicle monitoring system of the present invention;

Fig. 2 is the second structural diagram of the vehicle monitoring system of the present invention;

Fig. 3 is one of the workflow diagrams of the vehicle monitoring method of the present invention;

Fig. 4 is the second schematic diagram of the workflow of the vehicle monitoring method of the present invention;

FIG. 5 is the third schematic diagram of the workflow of the vehicle monitoring method of the present invention.

1. Vehicle monitoring module 2. Cloud computing platform server

3. Mobile terminal

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

Fig. 1 shows a kind of vehicle monitoring system, comprises and is arranged on the vehicle monitoring module 1 on the vehicle, and this vehicle monitoring module 1 monitors the motion state of vehicle, and this vehicle monitoring system also includes:

Mobile terminal 3, accepts the vehicle warning signal that obtains from described vehicle monitoring module 1, and sends user's voice command to cloud computing platform server 2; PDAs, etc.

Cloud computing platform server 2, accepts the positioning information or the vehicle warning signal that described vehicle monitoring module 1 generates; Accept the voice order that is sent by described mobile terminal 3, send to described vehicle monitoring module 1 after unspecified person's voice recognition analysis Vehicle control information to control the vehicle.

Wherein said mobile terminal 3 accepts the form of vehicle warning signal as, said cloud computing platform server 2 accepts the positioning information or vehicle warning signal that said vehicle monitoring module 1 generates; Then by said cloud computing platform server 2 through mobile network ( 3G/2G telephone network, wifi network or mobile Internet, etc.) to send a vehicle alarm signal to the mobile terminal 3 .

As shown in Figure 3, the above-mentioned vehicle monitoring system adopts the following vehicle monitoring methods in use, including:

Step S101: detecting the motion state of the vehicle by the vehicle monitoring module 1 installed on the vehicle;

Step S102: After detecting that the vehicle is moving, the vehicle monitoring module 1 sends an alarm signal to the cloud computing platform server through the mobile network (3G/2G telephone network, wifi network or mobile Internet, etc.);

Step S103: the cloud computing platform server 2 forwards the vehicle alarm signal to the mobile terminal 3 through the mobile network;

Step S104: the mobile terminal 3 accepts the user's voice control command, and sends it to the cloud computing platform server 2 through the mobile network;

Step S105: The cloud computing platform server 2 analyzes the voice control command by using non-specific voice recognition technology, obtains vehicle control information, and sends the vehicle control information to the vehicle monitoring module 1 through the mobile network, and the The vehicle monitoring module 1 controls the vehicle according to the vehicle control information (such as stopping the engine running, etc.).

Between the step S103 and the step S105, it may also include: the mobile terminal 3 first accepts the user's voice query command (for example: whether the engine is started, etc.), and sends it to the cloud computing platform server 2 through the mobile network; The cloud computing platform server 2 adopts non-specific person voice recognition technology to analyze the voice query command, obtain the vehicle query command, and send the vehicle query command to the vehicle monitoring module 1 through the mobile network, and the vehicle monitoring module 1. Obtain the working status data of the vehicle according to the vehicle query instruction, and send the working status data to the mobile terminal 3 through the cloud computing platform server 2 for display.

In the vehicle monitoring method described above, as a method for judging the motion state of the vehicle, the vehicle monitoring module 1 in step S101 may periodically obtain the location information of the vehicle, and judge the motion state of the vehicle according to the location information.

As another method for judging the motion state of the vehicle, when the vehicle is in a wireless communication network environment, the vehicle monitoring module 1 described in step S101 is first connected to an external wireless device with the function of obtaining location information, and the vehicle monitoring Module 1 obtains the positioning information of the external wireless device through the wireless communication network, and judges the vehicle motion state according to the positioning information.

As yet another method for judging the motion state of the vehicle, when the vehicle is in a wireless communication network environment, the vehicle monitoring module 1 described in step S101 is first connected to an external wireless device with a function of obtaining location information, and the vehicle monitoring module 1 Obtain the positioning information of the external wireless device through a wireless communication network; at the same time, the vehicle monitoring module 1 detects the position positioning information of the vehicle; the vehicle monitoring module 1 according to the relative position of the vehicle and the external wireless device Determine vehicle motion status.

The external wireless device may be a mobile phone, a navigator, etc. capable of obtaining positioning information. The wireless communication network can be a wifi network, an infrared network, a ZigBee network or a 3G network, as long as the vehicle monitoring module 1 can establish a connection with the external wireless device through one of the above wireless communication networks, thereby obtaining the location information of the external wireless device That's it.

Another vehicle monitoring method of the above-mentioned vehicle monitoring system, as shown in Figure 4, its steps are as follows:

Step S201: The vehicle monitoring module 1 installed on the vehicle detects the positioning information of the vehicle;

Step S202: The vehicle monitoring module 1 sends the positioning information of the vehicle to the cloud computing platform server 2 through the mobile network, and the cloud computing platform server 2 judges the movement state of the vehicle;

Step S203: when the cloud computing platform server 2 detects that the vehicle is moving, send vehicle alarm information to the mobile terminal 3 through the mobile network;

Step S204: The mobile terminal accepts the user's voice control command, and sends it to the cloud computing platform server 2 through the mobile network;

Step S205: The cloud computing platform server 2 analyzes the voice control command using non-specific voice recognition technology, obtains vehicle control information, and sends the vehicle control information to the vehicle monitoring module 1 through the mobile network, and the vehicle The monitoring module 1 controls the vehicle according to the vehicle control information (such as stopping the engine from running, etc.).

Between the step S203 and the step S204, it may also include: the mobile terminal 3 first accepts the user's voice query command (such as: whether the engine is started, etc.), and sends it to the cloud computing platform server 2 through the mobile network; The cloud computing platform server 2 adopts non-specific person voice recognition technology to analyze the voice query command, obtain the vehicle query command, and send the vehicle query command to the vehicle monitoring module 1 through the mobile network, and the vehicle monitoring module 1. Obtain the working status data of the vehicle according to the vehicle query instruction, and send the working status data to the mobile terminal 3 through the cloud computing platform server 2 for display.

As a method for judging the motion state of the vehicle in the above vehicle monitoring method, the vehicle monitoring module 1 in step S201 may periodically obtain the location information of the vehicle, and judge the motion state of the vehicle according to the location information.

As another method for judging the motion state of the vehicle in the above vehicle monitoring method, when the vehicle is in a wireless communication network environment, the vehicle monitoring module 1 described in step S201 is first connected to an external wireless device capable of obtaining location information (such as mobile phones, navigators, etc.), the vehicle monitoring module 1 obtains the positioning information of the external wireless device through the wireless communication network, and uses the positioning information of the wifi device as the position positioning information of the vehicle.

As yet another method for judging the motion state of the vehicle, when the vehicle is in a wireless communication network environment, the vehicle monitoring module 1 described in step S201 is first connected to an external wireless device with a function of obtaining location information, and the vehicle monitoring module 1 Obtaining the positioning information of the external wireless device through a wireless communication network; at the same time, the vehicle monitoring module detects the positioning information of the vehicle;

Step S201 is: the vehicle monitoring module 1 sends the positioning information of the external wireless device and the vehicle position positioning information to the cloud computing platform server 2 through the mobile network, and the cloud computing platform server 2 sends the location information of the vehicle according to the vehicle The relative position with the external wireless device is used to determine the motion state of the vehicle.

The external wireless device may be a mobile phone, a navigator, etc. capable of obtaining positioning information. The wireless communication network can be a wifi network, an infrared network, a ZigBee network or a 3G network, as long as the vehicle monitoring module 1 can establish a connection with the external wireless device through one of the above wireless communication networks, thereby obtaining the location information of the external wireless device That's it.

As another embodiment, Fig. 2 shows another vehicle monitoring system, including a vehicle monitoring module 1 arranged on the vehicle, the vehicle monitoring module 1 monitors the motion state of the vehicle, and the vehicle monitoring system also includes:

The mobile terminal 3 pre-establishes a communication binding relationship with the vehicle monitoring module 1;

Mobile terminal 3, accepts the vehicle warning signal that obtains from described vehicle monitoring module 1, and sends user's voice command to cloud computing platform server 2; PDAs, etc.

The mobile terminal 3 accepts the vehicle alarm signal in the form that: after the vehicle monitoring module 1 detects that the vehicle is moving, it sends a mobile network (3G/2G telephone network, wifi network or mobile Internet, etc.) to the established binding relationship. The mobile terminal 3 directly sends the vehicle alarm signal.

The cloud computing platform server 2 accepts the voice command sent by the mobile terminal 3 through the mobile network, the cloud computing platform server 2 uses non-specific person voice recognition technology to analyze the voice command, and after obtaining the instruction information, send the voice command to the The vehicle monitoring module 1 sends the instruction information, so as to remotely control the vehicle.

The vehicle monitoring method of the above-mentioned vehicle monitoring system, as shown in Figure 5, its steps are as follows:

Step S301: The vehicle monitoring module 1 installed on the vehicle establishes a binding relationship with the mobile terminal 3 in advance, and the vehicle monitoring module 1 directly communicates with the mobile terminal 3 through a mobile network (3G/2G telephone network, wifi network or mobile Internet, etc.) The above-mentioned binding mobile terminal 3 communication;

Step S302: The vehicle monitoring module 1 installed on the vehicle detects the motion state of the vehicle;

Step S303: After detecting that the vehicle is moving, the vehicle monitoring module 1 directly communicates with the mobile terminal 3, and sends a vehicle alarm signal to the mobile terminal 3;

Step S304: The mobile terminal 3 establishes a connection with the cloud computing platform server 2, and sends a voice control command to the cloud computing platform server 2;

Step S305 is: the cloud computing platform server 2 uses non-specific voice recognition technology to analyze the voice control command, obtain vehicle control information, and send the vehicle control information to the vehicle monitoring module 1 through the mobile network, and the The vehicle monitoring module 1 controls the vehicle according to the vehicle control information (such as stopping the engine from running, etc.).

Between step 303 and step 304, it may also include: the mobile terminal 3 first accepts the user's voice query command, establishes a connection with the cloud computing platform server 2, and sends it to the cloud computing platform server through a mobile network 2. The cloud computing platform server 2 uses non-specific voice recognition technology to analyze the voice query command, obtain the vehicle query command, and send the vehicle query command to the vehicle monitoring module 1 through the mobile network, and the vehicle query command is sent to the vehicle monitoring module 1 by the The vehicle monitoring module 1 acquires the working status data of the vehicle according to the vehicle query instruction, and sends the working status data to the bound mobile terminal 3 for display.

Claims (19)

1. a vehicle monitoring system comprises being arranged at vehicle monitoring module on the vehicle, and this vehicle monitoring module is monitored vehicle behaviour, it is characterized in that this vehicle monitoring system also comprises:

Portable terminal, the car alarming signal that acceptance is obtained from said vehicle monitoring module, and to the order of cloud computing platform server transmission user's voice;

The cloud computing platform server is accepted the voice command by said portable terminal transmission, after the unspecified person speech recognition is resolved, sends command information to said vehicle monitoring module, thereby said vehicle is carried out Long-distance Control.

2. vehicle monitoring system according to claim 1 is characterized in that:

The form that said portable terminal is accepted the car alarming signal is that said cloud computing platform server is accepted locating information or the car alarming signal that said vehicle monitoring module generates; Send car alarming signal through the mobile network to said portable terminal by said cloud computing platform server then.

3. vehicle monitoring system according to claim 1 is characterized in that:

The pre-established communication bindings relation of said portable terminal and said vehicle monitoring module;

The form that said portable terminal is accepted the car alarming signal does, after said vehicle monitoring module detects vehicle and moves, sends the car alarming signal through the mobile network to the said portable terminal of setting up binding relationship.

4. the method for a vehicle monitoring is characterized in that step comprises:

A, detect said vehicle behaviour by the vehicle monitoring module that is arranged on the vehicle;

B, after detecting vehicle and moving, send alerting signal through the mobile network to the cloud computing platform server by said vehicle monitoring module;

C, said cloud computing platform server are transmitted the car alarming signal through the mobile network to portable terminal;

D, said portable terminal are accepted the user's voice control command, and send to said cloud computing platform server through the mobile network;

E, said cloud computing platform server adopt the unspecified person speech recognition technology that said voice control command is resolved; Obtain vehicle control information; This vehicle control information is sent to said vehicle monitoring module through the mobile network, according to this vehicle control information said vehicle is controlled by said vehicle monitoring module.

5. the method for vehicle monitoring according to claim 4, it is characterized in that: between said step c and steps d, also comprise: said portable terminal is at first accepted the user's voice querying command, and sends to said cloud computing platform server through the mobile network; Said cloud computing platform server adopts the unspecified person speech recognition technology that said speech polling order is resolved; Obtain the vehicle query instruction; This vehicle query instruction is sent to said vehicle monitoring module through the mobile network; By said vehicle monitoring module according to this vehicle query instruction obtain the operating state data of said vehicle, and said operating state data is sent to said mobile terminal displays through the cloud computing platform server.

6. according to the method for claim 4 or 5 described vehicle monitorings, it is characterized in that: the module of vehicle monitoring described in the step a is periodically obtained the locating information of vehicle, judges vehicle behaviour according to this locating information.

7. according to the method for claim 4 or 5 described vehicle monitorings; It is characterized in that: when said vehicle is in wireless communication network environments following time; Vehicle monitoring module described in the step a at first is connected to has the external wireless device of obtaining the locating information function; Said vehicle monitoring module is obtained the locating information of said external wireless device through cordless communication network, carries out state of motion of vehicle according to this locating information and judges.

8. the method for vehicle monitoring according to claim 7, it is characterized in that: described cordless communication network is wifi network, infrared network, ZigBee network or 3G network.

9. according to the method for claim 4 or 5 described vehicle monitorings; It is characterized in that: when vehicle is in wireless communication network environments following time; Vehicle monitoring module described in the step a at first is connected to has the external wireless device of obtaining the locating information function, and said vehicle monitoring module is obtained the locating information of said external wireless device through cordless communication network; Simultaneously, said vehicle monitoring module detects the position location information of said vehicle; Said vehicle monitoring module is judged state of motion of vehicle according to the relative position of said vehicle and said external wireless device.

10. the method for vehicle monitoring according to claim 9, it is characterized in that: described cordless communication network is wifi network, infrared network, ZigBee network or 3G network.

11. the method for a vehicle monitoring is characterized in that step comprises:

A, detect the locating information of said vehicle by being arranged at vehicle monitoring module on the vehicle;

B, the locating information of sending said vehicle through the mobile network to the cloud computing platform server by said vehicle monitoring module, and judge said vehicle behaviour by said cloud computing platform server;

C, after said cloud computing platform server detects said vehicle and moves, send car alarming information through the mobile network to said portable terminal;

D, said portable terminal are accepted the user's voice control command, and send to said cloud computing platform server through the mobile network;

E, said cloud computing platform server adopt the unspecified person speech recognition technology that said voice control command is resolved; Obtain vehicle control information; This vehicle control information is sent to the vehicle monitoring module through the mobile network, according to this vehicle control information said vehicle is controlled by said vehicle monitoring module.

12. vehicle monitoring method according to claim 11 is characterized in that: between said step c and steps d, also comprise: said portable terminal is at first accepted the user's voice querying command, and sends to said cloud computing platform server through the mobile network; Said cloud computing platform server adopts the unspecified person speech recognition technology that said speech polling order is resolved; Obtain the vehicle query instruction; This vehicle query instruction is sent to said vehicle monitoring module through the mobile network; By said vehicle monitoring module according to this vehicle query instruction obtain the operating state data of said vehicle, and said operating state data is sent to said mobile terminal displays through the cloud computing platform server.

13. the method according to claim 11 or 12 described vehicle monitorings is characterized in that: the module of vehicle monitoring described in the step a is periodically obtained the position location information of vehicle.

14. method according to claim 11 or 12 described vehicle monitorings; It is characterized in that: when vehicle is in wireless communication network environments following time; Vehicle monitoring module described in the step a at first is connected to has the external wireless device of obtaining the locating information function; Said vehicle monitoring module is obtained the locating information of said external wireless device through cordless communication network, and with the locating information of this external wireless device position location information as said vehicle.

15. the method for vehicle monitoring according to claim 14 is characterized in that: described cordless communication network is wifi network, infrared network, ZigBee network or 3G network.

16. the method according to claim 11 or 12 described vehicle monitorings is characterized in that wherein:

Step a is: when vehicle is in wireless communication network environments following time; Described vehicle monitoring module at first is connected to has the external wireless device of obtaining the locating information function, and said vehicle monitoring module is obtained the locating information of said external wireless device through cordless communication network; Simultaneously, said vehicle monitoring module detects the position location information of said vehicle;

Step b is: send locating information and the said vehicle location locating information of said external wireless device through the mobile network to the cloud computing platform server by said vehicle monitoring module, and judge said vehicle behaviour by said cloud computing platform server according to the relative position of said vehicle and said external wireless device.

17. the method for vehicle monitoring according to claim 16 is characterized in that: described cordless communication network is wifi network, infrared network, ZigBee network or 3G network.

18. the method for a vehicle monitoring is characterized in that step comprises:

A, the vehicle monitoring module that is arranged on the vehicle are set up binding relationship with said portable terminal in advance, and said vehicle monitoring module is direct and said binding communication of mobile terminal through the mobile network;

B, detect said vehicle behaviour by the vehicle monitoring module that is arranged on the vehicle;

C, after detecting vehicle and moving, said vehicle monitoring module directly with said communication of mobile terminal, the car alarming signal is sent to said portable terminal;

D, said portable terminal and said cloud computing platform server connect, and send voice control command to said cloud computing platform server;

E, said cloud computing platform server adopt the unspecified person speech recognition technology that said voice control command is resolved; Obtain vehicle control information; This vehicle control information is sent to the vehicle monitoring module through the mobile network, according to this vehicle control information said vehicle is controlled by said vehicle monitoring module.

19. the method for vehicle monitoring according to claim 18; It is characterized in that: between said step c and steps d, also comprise: said portable terminal is at first accepted the user's voice querying command, and connects with said cloud computing platform server, sends to said cloud computing platform server through the mobile network; Said cloud computing platform server adopts the unspecified person speech recognition technology that said speech polling order is resolved; Obtain the vehicle query instruction; This vehicle query instruction is sent to said vehicle monitoring module through the mobile network; By said vehicle monitoring module according to this vehicle query instruction obtain the operating state data of said vehicle, and said operating state data is sent to said binding mobile terminal displays.

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