KR101965220B1 - Manage system for wireless access vehicle environment communication device - Google Patents

Abstract

The electronic system transmits a stop signal to the vehicle communication device so as to stop the operation of the vehicle communication device in response to the analysis request signal generated by the user device, and when the operation of the vehicle communication device is stopped, A communication unit for receiving log data relating to the service information and the service history related to the service from the vehicle communication apparatus and analyzing whether there is an error in the operation of the vehicle communication apparatus based on the service information and the log data, And in response to the generation of the analysis result data, the communication unit transmits the analysis result data to the user device.

Description

TECHNICAL FIELD [0001] The present invention relates to a management system for a WAVE communication device,

The present invention relates to wireless communications, and more particularly to a management system for managing WAVE communications devices.

Wireless communication refers to a communication technology that uses radio waves to transmit information without connection via wires. Wireless communication may include microwave transmission technology, radar technology, mobile communication technology, near field wireless communication technology, wireless access vehicle environment (WAVE) communication technology, and satellite communication technology.

WAVE communication technology is a vehicle communication network for preventing interference such as Doppler shift due to high-speed movement. WAVE communication can support at least one of communication between vehicle and vehicle (Vehicle to Vehicle communication, hereinafter referred to as V2V communication) and communication between vehicle and infrastructure (Vehicle to Infrastructure communication, hereinafter referred to as V2I communication). WAVE communication can support V2V communication and V2I communication using 7 channels in 5.85 ~ 5.925 GHz frequency band. WAVE communication technology can enhance the safety of the driver and increase the efficiency of traffic by forming the vehicle-centered networking.

However, if there is an error in the WAVE communication device, the probability of an accident can be increased. The WAVE communication device is installed in a car, but it is not a product produced by an automobile manufacturer. As a result, errors in the WAVE communication device may not be systematically managed.

It is an object of the present invention to provide a management system capable of detecting an abnormal state of a WAVE communication device.

The electronic system according to the embodiment of the present invention transmits a stop signal to the vehicle communication device in response to the analysis request signal generated by the user device so that the operation of the vehicle communication device is interrupted, , A communication unit for receiving log data on the service information related to the service processed by the vehicle communication device and the history of the service from the vehicle communication device, and whether there is an error in the operation of the vehicle communication device based on the service information and the log data And generating an analysis result data. In response to the generation of the analysis result data, the communication unit transmits the analysis result data to the user device.

The management system according to the embodiment of the present invention can efficiently and systematically manage the WAVE communication apparatus.

1 is a conceptual diagram showing a WAVE communication system.
2 is a block diagram illustrating a management system and a communication apparatus according to an embodiment of the present invention.
3 is a block diagram illustrating a management system, a communication device, and a user device according to an embodiment of the present invention.
FIG. 4 is a view for showing information stored in the second storage of FIG. 3. FIG.
5 is a flowchart illustrating an operation method of the management system of FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text. It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Like reference numerals are used for like elements in describing each drawing. In the accompanying drawings, the sizes of the components are enlarged to illustrate the present invention in order to clarify the present invention.

The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by terms. Terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component. The singular expressions include plural expressions unless the context clearly dictates otherwise.

In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof. Also, where a section such as a layer, a film, an area, a plate, or the like is referred to as being "on" another section, it includes not only the case where it is "directly on" another part but also the case where there is another part in between. On the contrary, where a section such as a layer, a film, an area, a plate, etc. is referred to as being "under" another section, this includes not only the case where the section is "directly underneath"

1 is a conceptual diagram showing a WAVE (Wireless Access Vehicle Environment) communication system. Referring to FIG. 1, the first vehicle 10, the second vehicle 20, and the management system 100 can perform WAVE communication. WAVE communication can provide an intelligent transportation system service between the first vehicle 10, the second vehicle 20 and the management system 100. [ A base station may be provided between the first vehicle 10, the second vehicle 20, and the management system 100. The base station can relay the communication signal between the first vehicle 10, the second vehicle 20, and the management system 100.

WAVE communication between the first vehicle 10 and the second vehicle 20 can support communication between the vehicle and the vehicle (Vehicle to Vehicle communication, hereinafter referred to as V2V communication). WAVE communication can support communication between the vehicle and the infrastructure (Vehicle to Infrastructure communication, hereinafter referred to as " V2I communication ") between the first and second vehicles 10 and 20 and the management system 100. Each of the first vehicle 10 and the second vehicle 20 may include a WAVE communication device for performing WAVE communication. The WAVE communication device is an electronic device for transmitting and receiving information between the first vehicle 10, the second vehicle 20, and the management system 100. [ The first vehicle 10, the second vehicle 20, and the management system 100 may share at least one of traffic information, road information, and driving information using WAVE communication.

Each of the first car 10 and the second car 20 can collect information using the WAVE communication device. Then, the first vehicle 10 and the second vehicle 20 can exchange data based on the collected information. Then, the WAVE communication device can provide various services to the user of the WAVE communication device (e.g., the driver of the first vehicle 10 or the second vehicle 20). By way of example, the WAVE communication device may provide the user with at least one of a traffic information service, a service for informing access of other vehicles, and a crash warning notification service. However, an error may occur in the operation of the WAVE communication device. For example, communication failure, communication delay, and data transmission / reception error may occur in the WAVE communication device. If an error occurs in the operation of the WAVE communication device, the service may not be correctly delivered to the user. If the service is not correctly communicated to the user, the user's dissatisfaction may occur.

The management system 100 can manage WAVE communication devices included in the first vehicle 10 and the second vehicle 20, respectively. In some embodiments, when an error analysis request is received from outside the management system 100, the management system 100 is an electronic system for determining whether an error has occurred in the WAVE communication device. If an occurrence of an error in the WAVE communication device is found, the management system 100 can correct the error in the WAVE communication device. Then, the management system 100 can provide the user of the WAVE communication device with the analysis result of the error of the WAVE communication device and the correction result of the error. A method of managing the WAVE communication device using the management system 100 will be described in detail with reference to Figs. 2 to 4. Fig.

2 is a block diagram illustrating a management system and a communication apparatus according to an embodiment of the present invention. 2 shows a communication device 200 provided outside the management system 100 and the management system 100. As shown in FIG. The communication device 200 may be an electronic device for performing WAVE communication. Referring to FIG. 1, the communication device 200 may be included in each of the first vehicle 10 and the second vehicle 20, respectively. For example, the management system 100 and the communication device 200 can transmit and receive information using Ethernet communication.

The management system 100 may include a first communication unit 110, a first information processing unit 120, and a first storage 130.

The first information processing unit 120 may include one or more processors. The processor may perform various arithmetic and / or logic operations to handle the operations described below. To this end, the processor may include one or more processor cores. By way of example, a processor core of a processor may include a special Purposed Logic Circuit (e.g., Field Programmable Gate Array (FPGA), Application Specific Integrated Chips (ASICs), etc.).

The first communication unit 110 may receive an error analysis request from the outside of the management system 100 requesting to analyze the error of the communication device 200. [ When the error analysis request is received, the management system 100 can determine whether or not an error has occurred in the communication device 200. When an error occurs, the first communication unit 110 may transmit a stop signal for stopping the operation of the communication device 200. [ The first communication unit 110 may receive the service information from the communication device 200 in order to determine whether or not an error has occurred in the communication device 200. [ As an example, the service information may include a service provided to the outside of the communication device 200 by the communication device 200, information on the contents of the service received from the outside of the communication device 200, History information of the service, and information about an error of the service processed in the communication device 200. [

For example, the service information may be stored in the MIB (Management Information Base) format in the communication device 200. The first communication unit 110 may transmit the received service information to the first information processing unit 120. The first communication unit 110 may collect detailed log data of the communication device 200. The detailed log data may include a record of the service information processed and transmitted by the communication device 200.

The first information processing unit 120 may receive the service information and the detailed log data from the first communication unit 110. If there is an error in the communication device 200, the first information processing unit 120 can stop the V2V communication and the V2I communication of the communication device 200. [ To this end, the first information processing unit 120 may generate a stop signal for stopping the operation of the communication device 200. [ At the same time, the first information processing unit 120 can continuously request service information and detailed log data to the communication device 200.

The first information processing unit 120 can analyze the cause of the error in the communication device 200 by analyzing the service information and the detailed log data. The first information processing unit 120 can analyze the cause of the error and generate the resultant data. Alternatively, the first information processing unit 120 may improve the operation environment of the communication device 200 based on the analysis result data. For example, if the cause of the error of the communication device 200 is an operating system (OS) or a firmware, the first information processing unit 120 can recognize this. The first information processing unit 120 may update the operating system of the communication device 200 or the software of the firmware. The first information processing unit 120 may update the software and then generate the update completion data.

The analysis result data may include information on the connection time between the management system 100 and the communication device 200, and a message. The message may convey the content of the analysis result of the communication device 200 to the user. For example, if the management system 100 fails to correct an error in the communication device 200, the message may include information that the hardware of the communication device 200 needs to be repaired. Alternatively, the message may include information about the cause of the operation error of the communication device 200. [ The update completion data may include the update time of the software, and information on the update version.

The analysis result data and / or the update completion data may be output to the outside through the first communication unit 110. [ And the analysis result data and / or the update completion data may be stored in the first storage 130. The analysis result data and / or the update completion data stored in the first storage 130 may be referred to by the first information processing unit 120 to analyze the cause of the error of the communication device 200. As an example, the analysis result data and / or the update completion data stored in the first storage 130 may be used as past data. Alternatively, when the error of the communication device 200 is not resolved, the analysis result data and / or the update completion data stored in the first storage 130 may be re-analyzed by the first information processing unit 120. [ Service information and detailed log data received from the communication device 200 may be stored in the first storage 130.

The first storage 130 may receive the analysis result data and / or the update completion data from the first information processing unit 120. The first storage 130 may store the analysis result data and / or the update completion data, and may in some cases provide the analysis result data and / or the update completion data to the first information processing unit 120.

The communication device 200 may include a second information processing unit 210, a second storage 220, and a second communication unit 230. The second information processing unit 210 may include one or more processors. The processor may perform various arithmetic and / or logic operations to handle the operations described below. To this end, the processor may include one or more processor cores. By way of example, a processor core of a processor may include dedicated logic (e.g., FPGAs, ASICs, etc.).

The second information processing unit 210 can generate the service information of the communication device 200. [ Specifically, the second information processing unit 210 receives the service provided to the outside of the communication device 200, the information about the contents of the service received from the outside of the communication device 200, the history of the service performed in the communication device 200 And information on the error of the service to be processed in the communication device 200 can be generated. The generated service information may be stored in the second storage 220.

The second storage 220 may store service information. By way of example, the service information may be stored in the form of a MIB. The types of information included in the service information will be described with reference to FIG.

The second communication unit 230 can communicate with the management system 100. The second communication unit 230 may collect the service information stored in the second storage 220 and output the collected service information to the management system 100. While the service information is provided to the management system 100, the V2V communication and the V2I communication of the communication device 200 can be stopped. For example, when the provision of the service information is completed, the service information stored in the second storage 220 may be deleted.

Referring to FIG. 2, the error analysis request of the communication device 200 may be provided directly to one of the management system 100 and the communication device 200. If a failure analysis request of the communication device 200 is provided to the communication device 200, the communication device 200 can send the analysis request back to the management system 100. [ When the management system 100 receives the error analysis request of the communication device 200, the management system 100 can analyze whether an operation error of the communication device 200 occurs. Therefore, the management system 100 can efficiently monitor the communication device 200. [ The error analysis request of the communication device 200 may be provided not only directly to one of the management system 100 and the communication device 200 but also through the user device. This is described in detail with reference to FIG.

Each of the first storage 130 and the second storage 220 may be a nonvolatile memory. The non-volatile memory may be a ROM, a PROM, an EPROM, an EEPROM, a flash memory, a phase-change RAM (PRAM), a magnetic RAM (MRAM) RRAM (Resistive RAM), and FRAM (Ferroelectric RAM).

3 is a block diagram illustrating a management system, a communication device, and a user device according to an embodiment of the present invention. Referring to FIG. 3, the management system 100 may communicate with the communication device 200 and the user device 300. Operations of the management system 100 and the communication device 200 and communication between the management system 100 and the communication device 200 have been described with reference to FIG. 2, and a detailed description thereof will be omitted.

The user device 300 is an electronic device for transmitting an operation error analysis request of the communication device 200 to the management system 100 and receiving error analysis result data of the communication device 200 from the management system 100. [ The user device 300 may be implemented as at least one of a personal digital assistant (PDA), a smart phone, a wearable device, and a head up display (HUD). The user device 300 may include a third communication unit 310, an information display unit 320, and an initialization unit 330. The initial setting unit 330 may be implemented in a hardware form, a software form, or a hybrid form.

In hardware form, the initialization unit 330 may include one or more digital and / or analog circuits to perform the operations described below. In software form, the initialization unit 330 may include one or more instruction codes that are configured to perform the operations described below. The instruction code may be compiled, translated and processed into a set of instructions by one or more processors.

The third communication unit 310 can receive the service information from the communication device 200. [ The third communication unit 310 may periodically receive the service information from the communication device 200. [ Alternatively, if the user of the user device 300 requests the service information from the communication device 200, the service information may be received through the third communication unit 310. The third communication unit 310 may output the service information to the information display unit 320. [

The information display unit 320 can provide the service information to the user. When the user receiving the service information detects an error of the communication device 200, the user can request the management system 100 to analyze the error. Alternatively, when the user device 300 detects an error in the communication device 200, the third communication unit 310 may request the management system 100 to analyze the error.

The third communication unit 310 may receive the analysis result data and / or the update completion data from the management system 100. The third communication unit 310 may output the analysis result data and / or the update completion data to the information display unit 320. [ The information display unit 320 may provide the analysis result data and / or the update completion data to the user. The user can accurately grasp the cause of the error of the communication device 200 based on the analysis result data and / or the update completion data.

The initial setting unit 330 can recognize the communication device 200. [ The initial setting unit 300 can receive the device identification information of the communication device 200 from the third communication unit 310 to recognize the communication device. The device identification information may be stored in the communication device 200 in the manufacturing step of the communication device 200. By way of example, the device identification information may include information about the type, model, manufacturer, and operating system of the communication device 200. The initial setting unit 300 can recognize the type and interface of the communication device 200 to support communication between the user device 300 and the communication device 200. When the communication device 200 is changed, the initial setting unit 330 can receive the device identification information of the new communication device 200 through the third communication unit 310.

FIG. 4 is a view for showing information stored in the second storage of FIG. 3. FIG. Referring to FIGS. 3 and 4, the second storage 220 may store service information. By way of example, the service information may be stored in the form of a MIB. The service information may include at least one of error information, provision service information, and execution service information.

The error information may be information on an error generated in the communication device 200. [ The error information may include at least one of an error code, service type information, service ID, service status information, service access point (SAP) information, and frequency information.

The error code can be information for identifying and managing the type of error. The service type information may include information on whether an error of the communication device 200 occurred when the service was provided, or when the service was received. The service ID may include identifier information of the service in which the error occurred. The service status information may include information on the communication channel and information on the status of the service provided on the communication channel. The SAP information may be at least one of information on the communication layers included in the second information processing unit 210 and information on the processing module performed in the communication layer. At this time, the processing module can generate and manage the service information in the second information processing unit 210. And, the SAP information may include detailed log data. Lastly, the frequency information may include information on the frequency of occurrence of the error.

The provided service information includes at least one of a service ID of services provided to the outside of the communication device 200, priority information of a service, channel information, MAC (Media Access Control) address, providing period information, .

The execution service information may include at least one of service ID, service priority information, channel information, MAC address, providing period information, and service status information of services received from the outside from the communication device 200.

The types of information included in the service information described with reference to FIG. 4 are examples for explaining the present invention. The service information may additionally include various kinds of information.

5 is a flowchart illustrating an operation method of the management system of FIG. 3 and 5, the management system 100 may receive an analysis request for an error of the communication device 200 from an external device (e.g., the user device 300) (S110). When the analysis request is received, the management system 100 may collect service information from the communication device 200 (S120). As an example, the management system 100 may stop the WAVE communication of the communication device 200 and collect service information. Then, the management system 100 may collect detailed log data of the communication device 200 (S130). The management system 100 may generate the result information (S140). The management system 100 can analyze the error of the communication device 200 based on the service information and the detailed log data. Then, the management system 100 can output the result information as an analysis result of the error.

The management system 100 can analyze an error of the communication device 200 when receiving an error analysis request of the communication device from the outside. Therefore, the management system 100 can be efficiently managed. The management system 100 can analyze the error of the communication device 200 based on the service information and the detailed log data of the communication device 200. [ The management system 100 may update the software of the communication device 200 according to the analysis result. The management system 100 may provide the analysis result data or the update completion data to the user of the communication device 200.

The management system 100 manages the error of the communication device 200 in response to an external request, whereby the burden on the management service can be reduced. Also, the management system 100 can systematically manage the communication device 200 by managing the error information of the communication device 200 as a database.

As described above, an optimal embodiment has been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: management system 210: second storage
110: first communication unit 230: second communication unit
120: first information processing unit 300:
130: first storage 310: third communication unit
200: second communication unit 320: information display unit
20: second information processing unit 330: initial setting unit

Claims (10)

1. An electronic system for managing a communication device for a vehicle using WAVE (Wireless Access Vehicle Environment) communication, comprising:
In response to an analysis request signal for the vehicle communication device generated by the user device, stopping the WAVE communication of the vehicular communication device and notifying the service information about the service processed by the vehicular communication device and the history of the service A communication unit for receiving log data relating to the WAVE communication from the vehicle communication apparatus using Ethernet communication different from the WAVE communication; And
And an information processing unit for analyzing whether there is an error in the operation of the vehicle communication apparatus based on the service information and the log data, and generating analysis result data,
And in response to the generation of the analysis result data, the communication unit transmits the analysis result data to the user device. The method according to claim 1,
And the information processing unit generates a stop signal for stopping the operation of the vehicle communication device if the error is found. 3. The method of claim 2,
And the communication unit transmits the stop signal to the vehicle communication device. The method according to claim 1,
The service information includes:
Information on contents of a service provided to the outside of the vehicle communication device by the vehicle communication device;
Information on the contents of the service received from the outside of the vehicle communication apparatus;
History information of a service performed in the vehicle communication device; And
And information on an error of a service processed in the vehicle communication device. The method according to claim 1,
Wherein the information processing unit recognizes whether the cause of the error is present in the operating system or the firmware of the vehicle communication device. 6. The method of claim 5,
The analysis result data includes:
A connection time to the vehicle communication device; And
Include the message,
Wherein the message includes information that the hardware of the vehicular communication device needs repair if the information processing unit recognizes that the cause of the error is not present in the operating system or the firmware of the vehicular communication device. 6. The method of claim 5,
Wherein the information processing unit updates the operating system of the vehicle communication device or the software of the firmware. 8. The method of claim 7,
Wherein the information processing unit generates update completion data including information on an update time and an update version of the software. 9. The method of claim 8,
And the communication unit further transmits the updated data to the user device. 9. The method of claim 8,
Further comprising storage for storing the service information, the log data, the analysis result data, and the update completion data.

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