KR20070013081A - Method and apparatus for identifying telematics using dedicated shorted range communication - Google Patents

Abstract

A method and an apparatus for identifying a telematics terminal by using DSRC(Dedicated Short Range Communication) are provided to increase convenience in using a telematics terminal by transmitting/receiving data with another telematics terminal as well as a base station through DSRC. An apparatus for identifying a telematics terminal using DSRC comprises a telematics part(210) and a DSRC modem(220). The telematics part(210) executes a telematics function. The DSRC modem(220) executes communication according to DSRC-associated wireless standards and data service specifications. The DSRC modem(220) has an antenna(222) to transmit or receive a DSRC radio frequency. In this case, angle of the DSRC modem(220) is set up in consideration of the DSRC-associated wireless standards and data service specifications. In executing DSRC communication with another telematics terminal, the DSRC modem(220) defines a frame to be transmitted, executes the transmission of an FCMS(Frame Control Message Slot) to exchange data through an MDS(Message Data Slot), and allocates a transport channel and a reception channel to an ACTS(Activation Slot) and the other ACTSs respectively.

Description

Method and Apparatus for Identifying Telematics Using Local Area Networks {Method and Apparatus for Identifying Telematics Using Dedicated Shorted Range Communication}

1 is a configuration diagram schematically showing a configuration of a conventional general telematics terminal,

FIG. 2 schematically illustrates a configuration of a telematics identification device using a communication network as a basis according to an embodiment of the present invention.

3 is a flowchart illustrating a telematics identification method using a local area network according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: telematics terminal 12: GPS satellite

14: GPS receiver 16: map data storage unit

18: map driving unit 20: main control unit

22: display drive unit 24: indicator

26: key input unit 200: telematics identification device

210: telematics unit 220: DSRC modem unit

230: key input unit

The present invention relates to a method and apparatus for identifying telematics using a local area network, and more particularly, to equip a telematics terminal with a dedicated shorted range communication modem to exchange data with other telematics terminals located in the vicinity. The present invention relates to a telematics identification method and apparatus using a local area network.

1 is a configuration diagram schematically showing a configuration of a conventional general telematics terminal.

As shown in FIG. 1, the conventional telematics terminal 100 receives a radio wave from three or more different Global Positioning System (GPS) satellites 12 simultaneously and calculates the longitude and latitude of the point. Calculates an optimal route to its current location and destination, matches the current location on the road map drawn from the map data storage unit 16 storing the road map data, and then displays it through the display driver 22. The user is visually guiding the user's current location, direction of travel, etc. on the map screen on the indicator 24 implemented by the LCD.

However, since the conventional telematics terminal communicates only with a communication center or a server, the telematics terminal may not communicate with other telematics terminals due to a structural limitation of the data exchange format through interoperability between the telematics terminals.

In order to solve the above problems, an object of the present invention is to provide a telematics identification method and apparatus using a local area network to exchange data with another telematics terminal located in a periphery by mounting a local area network modem in the telematics terminal. .

Telematics identification device according to the present invention for achieving the above object, the telematics unit for calculating the optimal route to the current location and the destination, matching the current location on the road map data and display it; And a local area network modem unit configured to communicate with another telematics terminal through a local area network (DSRC).

In addition, a telematics identification method according to another object of the present invention includes a first step of sending an FCMS message to confirm the existence of another telematics terminal; A second step of receiving an ACTC message from the other telematics terminal; And a third step of performing data communication synchronization with the other telematics terminal and transmitting and receiving data through a local area network.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings.

In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

First, the DSRC method is a method in which the DSRC base station defines a frame to the telematics terminal through the FCMS message and exchanges data through the MDS within the prescribed frame, but in the present invention, the telematics terminal transmits the FCMS message, and also ACTS The message indicates that the user is the current terminal, the mode of transmitting the FCMS message with the base station until it is time to recognize other telematics terminals around it, and the mode of waiting for the reception of the FCMS message at the next frame transmission time. They alternate with each other and repeat.

2 schematically illustrates a configuration of a telematics identification device using a communication network as a basis according to an embodiment of the present invention.

The telematics identification device 200 according to the present invention includes a telematics unit 210 for executing a telematics function and a local area network (DSRC) modem unit 220 for performing communication according to a wireless standard and a data service specification for a local area network. It has a configuration including.

In addition, the DSRC modem unit 220 is provided with a DSRC antenna 222 for transmitting or receiving a DSRC radio frequency. Here, the angle of the DSRC antenna 222 is installed in consideration of the DSRC radio standards and data service specifications.

In addition, the DSRC modem unit 220 defines a frame to be transmitted to another telematics terminal at boot time and performs FCMS (Frame Control Message Slot) transmission for exchanging data through a message data slot (MDS). A transmission channel is allocated to an ACTS (Activation Slot) and a receiving channel is assigned to the remaining ACTS to perform DSRC communication with another telematics terminal.

The key input unit 230 includes a DSRC dedicated button for instructing data to be transmitted according to DSRC communication, and a selection button for selecting a desired data service or a desired function. Here, the DSRC dedicated button also includes a transmission request button for requesting data transmission to the counterpart terminal, and an accept button for accepting the data transmission request from the counterpart terminal.

3 is a flowchart illustrating a telematics identification method using a local area network according to an embodiment of the present invention.

First, when the user turns on the power of the telematics identification apparatus 200, the telematics identification apparatus 200 activates the DSRC modem unit 320 and starts DSRC communication through this (S302).

Accordingly, when the device is powered on and activated, the user inputs a dedicated DSRC button to see if there is another telematics terminal around the device, and the telematics identification device 200 controls the frame control according to the DSRC communication method. FCMS) sends a message (S304). At this time, the telematics identification device 200 switches between two modes of operation while switching between a transmission mode for transmitting an FCMS message as if it is a base station and a reception mode for receiving an FCMS message at a next frame time until it recognizes other telematics terminals around it. Will repeat.

Accordingly, the FCMS message transmitted from the telematics identification device 200 is transmitted to other telematics terminals located nearby, and the telematics identification apparatus 200 transmits an ACTC message indicating that the mobile terminal is the current terminal in another telematics terminal that receives the FCMS message. To transmit (S306).

When the telematics identification device 200 receives an ACTC message from another telematics terminal located in the periphery, the telematics identification apparatus 200 synchronizes a DSRC recognition notification and data communication between the two terminals through an ACTC (Activation Channel) message (S308). That is, the telematics identification device 200 distinguishes from the existing DSRC base station by using a bit indicating whether the terminal transmits the FCMS message in the FID byte in the structure of the ACTC message or is a pure base station. If the role is determined, the value of the FID, for example, the pure DSRC base station base station is set to "0", the terminal capable of serving as the base station is set to "1", the data receiving terminal without the base station role is set to "2".

On the other hand, when the telematics identification device 200 is set as a terminal for receiving data, the user requests a data transmission to another telematics terminal by inputting a DSRC dedicated button included in the key input unit 230 (S310).

Subsequently, the telematics identification device 200 waits for acceptance of a data transmission request from another telematics terminal (S312).

Other telematics terminals located in the periphery transmit an ACTC acceptance message for accepting data transmission to the telematics identification apparatus 200 in response to the data transmission request received from the telematics identification apparatus 200 (S314).

If there is an acceptance of the data transmission request from the other telematics terminal, the telematics identification device 200 selects the desired data from the data transmission list provided by the other telematics terminal and receives the data through the MDS slot (S316).

However, after the synchronization between the two terminals in step S310, when receiving a data transmission request from the other telematics terminal (S320), the telematics identification device 200 confirms the authority of the other terminal, that is, other telematics terminal and then accepts the transmission request. It transmits an ACTC message informing (S322). Here, the authority of the other telematics terminal is confirmed through the FID of the received ACTS message.

Subsequently, the telematics identification device 200 transmits transmission data selected by the user or selected by the counterpart to another telematics terminal through the MDS slot (S324).

As described above, according to the present invention, a telematics identification method and apparatus using a local area network can be realized by mounting a local area network modem in a telematics terminal so as to exchange data with other telematics terminals located nearby.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments.

The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

As described above, according to the present invention, data can be transmitted and received not only to the base station but also to other telematics terminals through the local area network, thereby increasing convenience in using the telematics terminal.

Claims (10)

A telematics unit for calculating an optimal route to a current location and a destination and matching and displaying a current location on road map data; And Telematics identification device comprising a local area network modem for communicating with another telematics terminal through a local area network (DSRC). The method of claim 1, And the local area network modem unit is equipped with a DSRC antenna for transmitting or receiving a DSRC radio frequency. The method of claim 1, The local area network modem unit defines a frame to be transmitted to another telematics terminal at boot time and transmits a frame control message slot (FCMS) for exchanging data through an MDS (Message Data Slot). And allocating a transmission channel to one ACTS (Activation Slot) and allocating a reception channel to the other ACTS to perform DSRC communication with the other telematics terminal. Telematics Identification Device. The method of claim 1, The telematics unit includes a key input unit instructing to transmit data through the local area network (DSRC), And the key input unit comprises a transmission request button for requesting data transmission from the counterpart terminal and an accept button for accepting a data transmission request from the counterpart terminal. The method of claim 1, The local area network modem unit switches between a transmission mode for transmitting an FCMS message until it recognizes the other telematics terminal, and a reception mode for receiving the FCMS message at a next frame time. Telematics identification device, characterized in that to repeat the mode. Sending a FCMS message to confirm the existence of another telematics terminal; A second step of receiving an ACTC message from the other telematics terminal; And And performing a data communication synchronization with the other telematics terminal and transmitting and receiving data through a local area network. The method of claim 6, In the second step, the ATC message includes a FID byte indicating whether the terminal is currently transmitting the FCMS message or a pure base station (Byte). The method of claim 6, The third step, the telematics identification method, characterized in that for transmitting and receiving data through the MDS (Message Data Slot) with the other telematics terminal. The method of claim 6, Telematics identification, which allocates a transmission channel to one ACTS (Activation Slot) and allocates a receiving channel to the other ACTS to perform DSRC communication with the other telematics terminal. Way. The method of claim 6, After the second step, the transmission mode for transmitting the FCMS message until the other telematics terminal is recognized and the reception mode for receiving the FCMS message at the next frame time are switched. Telematics identification method characterized by repeating the operation mode.

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