KR100538800B1 - Method and Appratus on correction/provision of wireless network performance in ITS-DSRC - Google Patents

Abstract

The present invention provides an On Board Unit (OBU) and a Roadside Basestation Unit for network management of an Intelligent Transportation System (ITS) using Dedicated Short Range Communication (DSRC). : A method for collecting communication link status and performance data between RBUs and related device configurations, and in particular, moves performance data related to a forward link (communication link from RBU to OBU) and a reverse link (communication link from OBU to RBU). The present invention relates to a method and a device that can be collectively collected from a mobile test unit (MTU).

The present invention collects performance data related to the forward link by using a specific test call originating from the mobile test apparatus, and the performance data related to the reverse link is a roadside test unit (RBU) located at the roadside base station apparatus. After collecting / storing in the transmission step according to the transmission request for the storage data from the mobile testing device.

The present invention provides a wireless link-related performance data at two or more places such as a mobile test device and an unmanned roadside base station or an operation preservation center during a radio link-related test, such as performance testing required for installation of a short-range dedicated communication system in the field, a station, and a radio link optimization work It is possible to innovatively reduce the conventional cumbersome procedure of collecting, collecting, and analyzing the data.

Description

Apparatus and method for collecting / providing wireless link performance data of intelligent transport system using short-range dedicated communication method {Method and Appratus on correction / provision of wireless network performance in ITS-DSRC}

The present invention collectively collects performance data and operation information related to the forward link as well as the reverse link collected during the performance test of the short-range dedicated communication system, the station, and the optimization of the radio link. This provides a means to conduct efficient performance tests.

The present invention relates to communication between an On Board Unit (OBU) and a Roadside Basestation Unit (RBU) in an Intelligent Transportation System (ITS) of Dedicated Short Range Communication (DSRC). Apparatus for collecting / providing link state and performance data, and a method and a recording medium having recorded thereon a program for realizing the method. In particular, data related to forward link performance is stored in a mobile test apparatus using a short-range dedicated communication method, and then reversed. The link performance data is collected / stored by the roadside tester installed in the roadside base station device and then transmitted to the mobile tester according to the request for transmission of storage data from the mobile tester. The present invention relates to a recording medium recording a program.

In general, short-range dedicated communication refers to a variety of road traffic and traffic information including automatic fare collection and road traffic safety information through two-way communication in a small communication coverage of about 100 meters between roadside base stations and vehicle-mounted devices. Dedicated communication system between a vehicle and a road base station used to provide relevant information.

However, in order to operate such a dedicated communication system, above all, the stability and accuracy of the system are urgently required. Therefore, when the system is installed, various tests on the stability and performance of the radio communication link between the roadside base station equipment and the vehicle onboard equipment should be performed. This test is made possible by collecting and analyzing various data necessary for the test in the wireless communication link.

However, the conventional method of collecting and providing data for performance test on the wireless communication link has been dualized into a system that collects it together with operational information such as traffic information and provides it using a wireless communication network such as a cellular communication network or a wireless data communication network. There have been many problems in analyzing wireless communication links.

In order to solve the above problems, the present invention collects forward link-related performance data (or data that can be collected from a vehicle-mounted device) in a mobile test apparatus and reverse link-related performance data (or in a roadside base station apparatus). Collectable data) is collected and stored by the roadside tester and transmitted to the mobile tester by wireless (or wired) data according to the transmission request command from the mobile tester. The goal is to provide a way to do it.

In order to achieve the above object, in the short-range dedicated communication system according to the present invention, transmission power and reception power, forward and reverse bit error rate, power control information, traffic frame data error information, received signal quality, terminal location information of a roadside base station apparatus The configuration and collection method of a wireless link-related performance data collection device are as follows.

<Figure 1> and <Figure 2> show the configuration of the performance test apparatus of a short-range dedicated communication system composed of a mobile test unit (MTU) and a roadside test unit (RTU), respectively. In FIG. 1, the mobile test apparatus 100 includes a test call generation function, a baseband signal processing function, a test call related call processing software function, base station transmit / receive power, forward and reverse bit error rate, power control information, and traffic frame data error information. It transmits and receives performance data collection function such as reception signal quality terminal location information data, various control message information related to test call and performance data collection. In particular, in order to perform such a function, the controller unit 101 not only performs a test call related software control function but also stores a variety of radio link related performance data obtained by the test call in the memory 105. The traffic information used in the test call is modulated by the baseband signal processor 102 and then transmitted to the roadside test apparatus 200 through the antenna (or wired) 104 via the high frequency signal processor 103. It is composed. The roadside test apparatus transmits and receives test traffic information as well as test call-related control information from the mobile test apparatus 100, processes the high-frequency signal (204), and then performs a function such as modulation and demodulation (203). And a controller unit 201 for controlling processing software related to the test call and collecting performance related data, and a memory unit 205 for collecting and storing performance data.

An embodiment of the present invention related to the operation of a wireless link-related performance data collection device in a short-range dedicated communication system including a mobile test device (MTU: 100) and a roadside test device (RTU: 200) will be described with reference to FIG. The explanation is as follows. The mobile test device (MTU: 100) requests the test call setup (301) from the roadside test device (BTU: 200), and the roadside test device 200 having received this message transmits a confirmation message to the mobile test device ( 302). The mobile test apparatus 100 and the roadside test apparatus 200 receiving the confirmation message transmit traffic information for the test call to the other party, respectively (303). Thus, the traffic channel between the mobile test apparatus and the roadside testing apparatus Will be formed. Afterwards, these two test apparatuses 100 and 200 collect and store the radio link-related performance data that they can obtain (304 and 305), and move after a certain time (if the tester wants to finish collecting the performance data). The test apparatus sends a test call end request message to the roadside testing apparatus (306), and the roadside testing apparatus sends a confirmation message for the request message to the mobile testing apparatus (307). The mobile test device receiving the test call end confirmation message requests the roadside test device to transmit the stored wireless link performance data (308), and the roadside test device receiving the request message moves the performance data file stored in the memory. The data transfer operation of the two test apparatuses 100 and 200 is terminated by the mobile test apparatus storing the performance data received from the roadside test apparatus 310 in the memory 310.

According to the present invention, the wireless link in two or more places such as a mobile test device and an unmanned roadside base station device or an operation preservation center during a wireless link related test, such as performance testing of an intelligent transportation system using a dedicated communication method, a station, or a wireless link optimization work, etc. It is possible to analyze the performance of the wireless communication link more effectively by greatly improving the conventional performance data collection and method of collecting and analyzing related performance data.

<Figure 1>-Example of Mobile Test System Configuration for Wireless Link Performance Data Collection

<Figure 2>-Diagram of roadside tester for wireless link performance data collection

<Figure 3>-Wireless Link Performance Data Collection Procedure

Claims (4)

In the intelligent transportation system of the dedicated communication method A controller unit 101 for generating, transmitting and processing a test call-related message and storing the signal in the memory unit 105 or processing the signal received by the baseband signal processor 102 and storing the signal in the memory unit 105; A baseband signal processor (102) for encoding the information generated by the controller (101) for modulation and error detection and correction or for demodulating and decoding a signal coming from the high frequency signal processor (103); Converting the signal from the baseband signal processing unit 102 into a high frequency signal to transmit the electromagnetic wave through the antenna 104 and performing amplification to guarantee a transmission output or processing the signal received through the antenna 104 A high frequency signal processor 103 for amplifying at a predetermined intensity and converting the signal into an intermediate frequency so as to be processed by the baseband signal processor 102; An antenna 104 for radiating power received from the high frequency signal processor 103 or for receiving radio waves, and a memory 105 stored and read through the controller 101; And control message including a test call setup request 301, a traffic information 303, a test call end request 306, a collection data transmission request 308, and transmit to the base station test apparatus 200 and test the base station. A mobile test apparatus 100 for receiving and processing a test call setup request check 302, a test call end check 307, and a collection data transmission 309 message received from the apparatus 200; And A controller unit 201 for generating, transmitting and processing a test call-related message and storing the signal in the memory unit 205 or processing a signal from the baseband signal processor 202 and storing it in the memory unit 205; A baseband signal processor (202) for encoding the information generated by the controller (201) for modulation and error detection and correction, or for demodulating and decoding a signal coming from the high frequency signal processor (203); To convert the signal from the baseband signal processor 202 into a high frequency signal for transmitting electromagnetic waves through the antenna 204 and to amplify or process a signal received through the antenna 204 to ensure proper transmission power. A high frequency signal processor 203 for amplifying to an appropriate intensity and converting the signal into an intermediate frequency for processing by the baseband signal processor 202; An antenna 204 for radiating power received from the high frequency signal processor 203 or receiving radio waves; Memory unit 205 stored and read through the controller unit 201 The test is composed of a control call, including the test call setup request confirmation (302), the test call end confirmation (307), the collection data transmission (309) to the mobile test device 100 and the test received from the mobile test device 100 Fireside testing apparatus 200 for receiving and processing control messages including call setup request 301, traffic information 303, test call end request 306, collected data transmission request 308. Wireless link performance data collection / providing device of the intelligent transport system of the short-range dedicated communication method, characterized in that consisting of. delete In order to collect and provide wireless link related performance data between the vehicle-mounted device and the roadside base station device in the CDM mobile communication system, an intelligent transportation system of a short-range dedicated communication system composed of a mobile test device 100 and a roadside test device 200 is provided. In the wireless link performance data collection / providing method, The mobile station test apparatus 100 requests a test call setup from the roadside test apparatus 200 (301), and the roadside test apparatus 200 having received the test call setup message moves to the test call setup request confirmation message 302. Responding to the device, the mobile test apparatus 100 and the base station test apparatus 200 which has received the test call setup request confirmation message transmit the traffic information 303 for the test call to the other party, respectively. ; A data collection and storage step of allowing the mobile station test apparatus and the roadside testing apparatus to collect and store radio link related performance data obtained through the traffic channel after the traffic channel formation step; After a certain time or when the tester wants to finish collecting the performance data, the mobile test apparatus 100 transmits a test call end request message to the roadside test device (306), and the roadside test device sends the test call end request message. Terminating the test call to transmit a confirmation message to the mobile test device (307); And The mobile test apparatus receiving the confirmation message requests the base station test apparatus to transmit the stored radio link performance data (308), and the roadside test apparatus receiving the request message transfers the performance data file stored in the memory to the mobile test apparatus. In operation 309, the mobile test apparatus stores the performance data received from the roadside test apparatus in a memory 310, thereby terminating the performance data collection operation between the mobile station test apparatus and the roadside test apparatus (311, 312). Wireless link performance data collection / providing method of the intelligent transport system of the short-range dedicated communication method, characterized in that consisting of. [4] The wireless link performance of claim 3, wherein the test call setup request 301, the test call setup request check 302, the test call traffic information 303, the test call end request 306, and the termination check 307 are performed. A method for collecting / providing wireless link performance data of an intelligent transportation system of a short range dedicated communication method, wherein a general call is used to collect data.