KR101019560B1 - Apparatus and method for ad-hoc wireless communication - Google Patents

Abstract

The present invention relates to an ad hoc wireless communication apparatus and method, comprising the steps of receiving a GPS signal from a satellite, comprising identification information extracted from the GPS signal to form an ad hoc network with at least one vehicle within a predetermined distance. Transmitting to at least one vehicle, and transmitting and receiving at least one of text, voice, image, and video information to and from some of the at least one vehicle in the ad hoc network, the identification information, text, voice, image and Video information is transmitted and received within the ad hoc network according to a direct communication method between terminals. According to the present invention, an ad hoc network may be dynamically configured with another vehicle within a certain distance by an ad hoc wireless communication device installed in a vehicle, thereby providing services such as text and voice through the ad hoc network, and received through the ad hoc network. By displaying the current location information of the other vehicle along with the corresponding map information on the screen, the user can check the current location of the other vehicle belonging to the social network service, such as the vehicle group to which he belongs.

Ad Hoc Network, UWB, Near Field Communication, Vehicle

Description

Ad hoc wireless communication device and method {APPARATUS AND METHOD FOR AD-HOC WIRELESS COMMUNICATION}

The present invention relates to an ad hoc wireless communication device and method for constructing an ad hoc network.

A social network is a network that expresses the relationship structure of a society as a whole by using relationship information between members in a society. Due to the development of the Internet, these social networks have appeared online. The online social network is called a social network service and represents an online community such as clubs, clubs, cafes, mini homepages, and blogs. These social network services are created and distributed by the user, and provides a variety of services, such as digital network to the user.

Due to the development of networks, mobile social network services have been provided that provide these social network services in mobile devices. However, the mobile social network service has the advantage of location recognition, while the limitation of input, search, editing, etc. is slow and the processing speed is slow. Only the mobile social network service is used repeatedly.

Among these mobile social networking network services, the car club has a lot of exchanges online or offline, and there is a strong trust and ties between users. Vehicle groups provide information about vehicles, joint purchase information, and the like through the community online, and use separate wireless communication such as a portable radio for exchange between members of the group. However, the installation of the radio, the installation of the antenna is complicated, and there is a problem that the communication between the communication signals occur between the vehicle and one-way communication is impossible.

An object of the present invention is to provide an ad hoc wireless communication apparatus and method for constructing an ad hoc network for transmitting and receiving data according to an ultra-wideband wireless communication scheme.

Ad hoc wireless communication apparatus according to an embodiment of the present invention for solving the technical problem, GPS signal receiving unit for receiving a Global Positioning System (GPS) signal from a satellite, at least one vehicle within a predetermined distance and ad-hoc (ad- hoc) a control unit for providing identification information to configure a network, and a communication unit for transmitting the identification information provided from the GPS signal receiver to the at least one vehicle by a direct communication method between terminals.

The controller may transmit / receive at least one of text, voice, image, and video information with some of the at least one vehicle through the ad hoc network.

The controller may transmit current location information extracted from the GPS signal provided from the GPS signal receiver to the at least one vehicle through the ad hoc network.

The controller may receive a current location of the at least one vehicle through the ad hoc network.

The controller may display a current location of the at least one vehicle on a map.

The direct communication method between terminals may use any one of a radio communication method, a TRS (Trunked Radio System) method, and a multi channel access (MCA) method.

The communication unit may transmit the identification information to the at least one vehicle according to an ultra wideband (UWB) communication scheme.

In an ad hoc wireless communication method according to another embodiment of the present invention, receiving a GPS signal from a satellite, the identification information extracted from the GPS signal is configured to form an ad hoc network with at least one vehicle within a predetermined distance. Transmitting to at least one vehicle, and transmitting and receiving at least one of text, voice, image, and video information with a vehicle of at least one of the at least one vehicle in the ad hoc network; Voice, image and video information is transmitted and received within the ad hoc network according to a direct communication method between terminals.

The method may further include extracting a current location from the GPS signal, and transmitting the current location to the at least one vehicle through the ad hoc network.

The method may further include receiving a current location of the at least one vehicle in the ad hoc network.

The method may further include displaying a current location of the at least one vehicle on a map.

A computer-readable medium according to an embodiment of the present invention records a program for causing a computer to execute any one of the above methods.

As described above, according to the present invention, an ad hoc network may be dynamically configured with another vehicle within a predetermined distance by an ad hoc wireless communication device installed in a vehicle, thereby providing services such as text, voice, image, or video through the ad hoc network.

In addition, by displaying the current location information of other vehicles received through the ad hoc network with the corresponding map information on the screen, the user can check the current location of the other vehicles belonging to the social network service, such as the vehicle association have. Therefore, since the moving vehicle can check the location information of the moving vehicle, communication between the vehicles belonging to the social network service can be performed smoothly.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

First, an ad hoc network constructed using an ad hoc wireless communication apparatus according to an embodiment of the present invention will be described in detail with reference to FIG. 1.

1 is a block diagram illustrating an ad hoc network constructed using an ad hoc wireless communication device according to an embodiment of the present invention.

Ad hoc wireless communication device 110 according to an embodiment of the present invention is installed in the vehicle 100, according to the direct communication method between the plurality of vehicles 100 and the terminal within a predetermined distance (1 km, 5 km, 10 km, etc.) Dynamically construct an ad-hoc network for sending and receiving data.

Here, the ad hoc network refers to a network dynamically configured by nodes in the network without a base network device such as a base station and an access point for configuration and maintenance of the network. Such an ad hoc network has a characteristic that the network topology changes dynamically because the nodes constituting the network are free to move compared to a network configured using a fixed base network device.

In addition, the direct communication method between terminals is a communication method that does not use a base station, such as a radio, and may use a radio communication method, a TRS (Trunked Radio System) method, and a multi channel access method (MCA). In this case, an ultra wideband (UWB) communication technology may be used.

Frequency common communication technology and multi-channel access technology is a system developed to effectively utilize scarce frequency resources, and is a wireless communication method in which several people simultaneously use a certain frequency band.

Ultra-wideband wireless technology is a high-speed wireless data transmission technology using the ultra-wideband of the GHz band, and provides a high speed (500Mbps, 1Gbps, etc.) and consumes less power than IEEE 802.11, Bluetooth.

In addition, the ultra-wideband wireless technology is strong in multipath because it uses short pulses, strong in security because it shows a spectrum similar to noise, and enables long-distance communication (over 1 km) and low power for long time use. have.

The ad hoc wireless communication device 110 transmits and receives service data such as text and voice through a plurality of vehicles 100 and an ad hoc network. In addition, the ad hoc wireless communication device 110 extracts the current position from the GPS (Global Positioning System) signal received from the satellite (not shown) and displays the current position on the screen so that the user can check the current position, and displays the current position in the ad hoc network. Transmit to a plurality of vehicles (100) through.

When the ad hoc wireless communication device 110 receives the current location from the other vehicle 100 through the ad hoc network, the ad hoc wireless communication device 110 displays the current location of the vehicle 100 on the screen so that the user can check the current location.

As described above, the ad hoc network may be dynamically configured through the ad hoc wireless communication device 110 installed in the vehicle 100 without a separate network device, and thus it is possible to exchange service data such as text and voice. Accordingly, various services such as text messages, voice messages, and chats provided by social network services can be used in vehicles.

In addition, by displaying the current position of the other vehicle 100 received through the ad hoc network on the screen, the user can check the current position of the other vehicle 100 belonging to the social network service, such as the vehicle group to which he belongs.

Next, the ad hoc wireless communication apparatus according to the embodiment of the present invention will be described in more detail with reference to FIG. 2.

2 is a block diagram illustrating an ad hoc wireless communication device according to an embodiment of the present invention.

The ad hoc wireless communication device 110 includes a control unit 111, a storage unit 112, an input / output unit 113, a GPS signal receiving unit 115, a GPS receiving antenna 116, a communication unit 117, and a mobile communication antenna 118. It includes. The GPS receiving antenna 116 and the mobile communication antenna 118 may be implemented as one antenna module.

The GPS signal receiver 115 performs arithmetic processing on the GPS signal received from the satellite via the GPS receiving antenna 116 to extract the current position of the ad hoc wireless communication device 110 and provide it to the controller 111. The GPS signal receiver 115 may measure accurate time and distance from three or more satellites, calculate a current position using the same, and calculate three-dimensional speed information as well as a location specified by latitude, longitude, and altitude.

The control unit 111 controls the overall operation of the ad hoc wireless communication device 110, the control unit 111 according to the present invention to configure the ad hoc network with a plurality of vehicles 100 within a predetermined distance by the user input In order to transmit its current location information and identification information to a plurality of vehicles (100). Here, data communication between the vehicles 100 in the ad hoc network is a direct communication method between terminals, and the identification information is unique information for identifying the ad hoc wireless communication device 110.

In addition, the control unit 111 uses the current location information and identification information received from the other vehicle 100 to determine whether the vehicle 100 is a vehicle belonging to a predetermined group (online or offline meeting such as a club or club). If it is confirmed that the vehicle belongs to the controller 111, the controller 111 dynamically configures the vehicle 100 and the ad hoc network.

In addition, the control unit 111 transmits and receives service data such as text and voice with the plurality of vehicles 100 in the ad hoc network, and displays the current location of the other vehicle 100 received from its current location or from another vehicle 100 in the ad hoc network. The location is displayed on the screen together with the map information corresponding to the current location so that the user can check the location.

The storage unit 112 stores a program, data, etc. for operating the ad hoc wireless communication device 110, and the storage unit 112 according to the present invention stores group information, identification information, and map information of a vehicle belonging thereto. The information is provided at the request of the controller 111.

The input / output unit 113 includes an input module such as a touch pad and a keypad, and an output module such as a liquid crystal display (LCD), an organic light emitting diode (OLED), a speaker, and the like, and provides corresponding data at the request of the controller 111. The information outputted or inputted by the user is provided to the controller 111.

In particular, the input / output unit 113 according to the present invention displays the current position of the vehicle or the current position of the other vehicle in the ad hoc network through the output module with the corresponding map information, and is inputted by the user or other in the ad hoc network. Service data such as text and voice received from the vehicle is output through the output module.

The communication unit 117 transmits and receives data according to the direct communication method between another vehicle 100 and the terminal in the ad hoc network through the mobile communication antenna 118, and may use an ultra-wideband wireless communication technology using an ultra-wideband of GHz band. . The communication unit 117 transmits the data provided from the control unit 111 to the other vehicle 100 in the ad hoc network, and provides the data received from the other vehicle 100 to the control unit 111.

Meanwhile, the ad hoc wireless communication device 110 receives the GPS signal from the satellite, extracts the current location from the received GPS signal, and displays the current location of the extracted current location or the current location of another vehicle 100 received through the ad hoc network. Although the present invention is not limited thereto, the ad hoc wireless communication device 110 is provided with a GPS signal or a current location from a satellite navigation device (not shown) installed in the vehicle 100 according to an exemplary embodiment. In addition, the current location of the other vehicle 100 received through the ad hoc network may be provided to the satellite navigation apparatus.

The satellite navigation apparatus may then display the current location of its vehicle or the current location of the other vehicle 100 provided from the ad hoc wireless communication device 110 together with the corresponding map information. Here, the ad hoc wireless communication device 110 is connected to the satellite navigation device by a wired or wireless communication method such as Bluetooth, Infrared Data Association (IrDA).

Next, an ad hoc wireless communication method according to an embodiment of the present invention will be described with reference to FIG. 3.

3 is a flowchart illustrating an ad hoc wireless communication method according to an embodiment of the present invention.

First, the ad hoc wireless communication device 110 installed in the vehicle 100 receives a GPS signal from the satellite (S310) and performs a proper calculation process on the received GPS signal to extract the current position of the ad hoc wireless communication device 110. (S320).

Thereafter, the ad hoc wireless communication device 110 transmits its current location information and identification information to the plurality of other vehicles 100 to form an ad hoc network with a plurality of other vehicles 100 within a predetermined distance by a user's input. It transmits to (S330).

In addition, the ad hoc wireless communication device 110 displays the current location on the screen together with the map information corresponding to the current location so that the user can check the current location (S340).

Thereafter, the ad hoc wireless communication device 110 installed in the plurality of other vehicles 100 that has received the current location information and the identification information may previously receive the current location information and the identification information by using the received identification information. Check whether the vehicle belongs to a predetermined group (online meeting or offline meeting of a club, club, etc.) (S350).

If it is determined that the vehicle belongs to the ad hoc wireless communication device 110 dynamically configures the vehicle 100 and the ad hoc network transmitting the current location information and identification information (S360).

Accordingly, an ad hoc network composed of an ad hoc wireless communication device 110 installed in the plurality of vehicles 100 is configured, and data communication between the ad hoc networks is performed according to a direct communication method between terminals.

In addition, the ad hoc wireless communication device 110 displays the current location received on the screen together with the map information corresponding thereto so that the user can check the location of the other vehicle 100 (S370).

Then, the ad hoc wireless communication device 110 installed in the plurality of vehicles 100 in the ad hoc network transmits and receives service data such as text, voice, image, or video to each other according to the ultra-wideband wireless communication method (S380).

Meanwhile, the ad hoc wireless communication device 110 receives the GPS signal from the satellite, extracts the current location from the received GPS signal, and displays the current location of the extracted current location or the current location of another vehicle 100 received through the ad hoc network. Although the present invention is not limited thereto, the ad hoc wireless communication device 110 is provided with a GPS signal or a current location from a satellite navigation device (not shown) installed in the vehicle 100 according to an exemplary embodiment. In addition, the current location of the other vehicle 100 received through the ad hoc network may be provided to the satellite navigation apparatus.

Embodiments of the invention include a computer readable medium containing program instructions for performing various computer-implemented operations. This medium records a program for executing the ad hoc wireless communication method described so far. The media may include, alone or in combination with the program instructions, data files, data structures, and the like. Examples of such media include magnetic media such as hard disks, floppy disks and magnetic tape, optical recording media such as CDs and DVDs, floppy disks and program commands such as magnetic-optical media, ROM, RAM, flash memory, and the like. Hardware devices configured to store and perform such operations. Alternatively, the medium may be a transmission medium such as an optical or metal wire, a waveguide, or the like including a carrier wave for transmitting a signal specifying a program command, a data structure, and the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1 is a block diagram illustrating an ad hoc network constructed using an ad hoc wireless communication device according to an embodiment of the present invention.

2 is a block diagram illustrating an ad hoc wireless communication device according to an embodiment of the present invention.

3 is a flowchart illustrating an ad hoc wireless communication method according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: vehicle, 110: ad hoc wireless communication device,

111: control unit, 112: storage unit,

113: input and output unit, 115: GPS signal receiving unit,

116: GPS receiving antenna, 117: communication unit,

118: mobile communication antenna

Claims (12)

GPS signal receiver for receiving a GPS (Global Positioning System) signal from the satellite, A control unit for providing identification information to form an ad-hoc network with at least one vehicle within a predetermined distance, and Communication unit for transmitting the identification information provided from the GPS signal receiving unit to the at least one vehicle by a direct communication method between terminals. Including;       The control unit,      Ad hoc wireless communication for identifying whether the other vehicle belongs to a predetermined group using the identification information received from another vehicle, and if the vehicle belongs to the other vehicle, forming the ad-hoc network with the other vehicle. Device. In claim 1, The control unit is an ad hoc wireless communication device for transmitting and receiving at least one of the text, voice, image and video information of some of the at least one vehicle through the ad hoc network. In claim 1, And the control unit transmits current location information extracted from the GPS signal received from the GPS signal receiving unit to the at least one vehicle through the ad hoc network. In claim 1, And the control unit receives a current location of the at least one vehicle through the ad hoc network. In claim 4, And the controller is configured to display a current location of the at least one vehicle on a map. In claim 1, The direct communication method between terminals uses a radio communication method, a radio frequency communication (Trunked Radio System, TRS) method, and a multi channel access method (Multi Channel Access, MCA).       In claim 1, And the communication unit transmits the identification information to the at least one vehicle according to an ultra wideband (UWB) communication scheme. Receiving a GPS signal from a satellite, Transmitting identification information extracted from the GPS signal to the at least one vehicle to form an ad hoc network with the at least one vehicle within a predetermined distance, and Transmitting / receiving at least one of text, voice, image, and video information with some of the at least one vehicle in the ad hoc network according to a direct communication method between terminals; Including; The vehicle that has received the identification information, The identification information received from the other vehicle is used to determine whether the other vehicle belongs to a predetermined group, and if the identification is a vehicle belonging to configure the ad-hoc network with the other vehicle. Ad hoc wireless communication method. In claim 8, Extracting a current location from the GPS signal, and Transmitting the current location to the at least one vehicle via the ad hoc network. In claim 8, Receiving the current location of the at least one vehicle in the ad hoc network. In claim 10, And displaying the current location of the at least one vehicle on a map. A computer-readable medium having recorded thereon a program for causing the computer to execute the method of claim 8.

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