KR100777204B1 - Method of controlling mobile terminal and system therefor - Google Patents

Abstract

A method and a system for controlling mobile nodes are provided to improve the convenience to manage the mobile nodes by setting an effective communication path. Plural mobile nodes(1041 to 104N) transmit data in a desired direction according to a first wireless communication mode, and are controlled by a server(100). A command executing gateway(102) is connected to the server in a second wireless communication mode to transmit the data to the frontmost mobile node from the server in the first wireless communication mode. A data collecting gateway(106) receives the data from the rearmost mobile node in the first wireless communication mode to transmit the data to the server in the second wireless communication mode.

Description

Mobile node control method and system according to it {METHOD OF CONTROLLING MOBILE TERMINAL AND SYSTEM THEREFOR}

1 is a block diagram of a wireless communication system according to a first embodiment of the present invention.

2 is a block diagram of a command execution gateway according to a first preferred embodiment of the present invention.

3 is a processing flowchart of an instruction execution gateway according to a first preferred embodiment of the present invention.

4 is a block diagram of a wireless communication system according to a second preferred embodiment of the present invention.

The present invention relates to a wireless communication system having a plurality of mobile nodes, and more particularly, to a method and system for controlling a plurality of mobile nodes for collecting various information.

Recently, wireless communication technology is widely used in various fields.

As a system applying the above-mentioned wireless communication technology, No. 10-2003-00978 filed with the Korea Patent Office for the weather observation system and No. 10-2003- filed with the Disaster Monitoring System for the Korean Patent Office. 0100452, and the like. The above systems are provided with a solar cell power supply system in a local area such as a mountain valley or disaster risk zone, and install a plurality of observation transmitters for transmitting and receiving data through an RF local area network, and at least one of these observation transmitters has CDMA. Equipped with a 2000-based wireless mobile communication modem, real-time data transmission and reception with the weather control server is minimized, thereby minimizing damage due to sudden weather changes in areas where wired communication services are not available.

According to the prior art, a plurality of observation transmitters are connected through an RF local area network, and at least one of the observation transmitting and receiving devices is connected to a meteorological central control server located at a remote location through a CDMA 2000-based wireless mobile communication network.

In the wireless communication system as described above, a plurality of mobile nodes are installed in a wide area that cannot be connected to a wireless mobile communication network, and a wireless communication network is formed between the plurality of mobile nodes, and one of the mobile nodes is connected to the wireless mobile communication network. The location of the mobile node enables remote control of the plurality of mobile nodes.

However, since a large number of mobile nodes should be installed in a wide area, it should be provided at a low cost as well as ease of management. Therefore, an efficient communication path is required for the mobile node.

The present invention is to overcome the above-mentioned problems, the communication path of a plurality of mobile nodes belonging to any one of the wireless communication network consisting of a plurality of wireless communication network in one direction, and communication in the one direction A mobile node control method for transmitting data to the plurality of mobile nodes through the mobile node of the plurality of mobile nodes, and receiving data from the plurality of mobile nodes through the last mobile node of the plurality of mobile nodes. And to provide a mobile communication system according to that purpose.

A wireless communication system according to the present invention for achieving the above object and to solve the problems of the prior art, a plurality of mobile nodes for transmitting data according to the first wireless communication method in a predetermined direction; A server controlling the plurality of mobile nodes; A command execution gateway which is connected to the server according to a second wireless communication method and transmits data provided from the server to a mobile node located at the top of the plurality of mobile nodes according to the first wireless communication method; And a data collection gateway configured to receive data from a mobile node located at the end of the plurality of mobile nodes according to the first wireless communication method and transmit the data to the server according to the second wireless communication method.

The present invention configures the communication paths of a plurality of mobile nodes connected through a TDMA RF wireless communication network in one direction so that the plurality of mobile nodes transmit information along a serial communication path.

In particular, each of the mobile nodes located at the top and the end of the plurality of mobile nodes connected through the RF wireless communication network has a data acquisition gateway and a command execution gateway connected to a server via a CDMA 2000-based wireless mobile communication network. Is connected.

The command execution gateway receives command data for any one or more of the plurality of mobile nodes from the server and transmits the command data to the plurality of mobile nodes through the best-most mobile node.

In addition, the plurality of mobile nodes transfer data collected in a predetermined time slot to the last mobile node along the serial communication path, and the last mobile node transfers data received from the plurality of mobile nodes to a data collection gateway. to provide.

The data collection gateway transmits data for a plurality of mobile nodes received from the last mobile node to a server.

As described above, the present invention enables not only the communication paths of the plurality of mobile nodes to be unidirectional, but also the data transmission and reception with the server, and the load weight due to the change of the communication paths of the mobile nodes.

The configuration of the wireless communication system according to the first preferred embodiment of the present invention will be described with reference to FIG.

The wireless communication system includes a server 100, a command execution gateway 102, a data collection gateway 106, and first to Nth mobile nodes 1041 to 104N.

The server 100 transmits data to the command execution gateway 106 through the CDMA 2000-based wireless mobile communication network, and receives data from the data collection gateway 102.

The command execution gateway 102 temporarily stores the command data received from the server 100 and processes the command data according to the priority. That is, the command execution gateway 102 transmits control command data for instructing the size of the timeslot, the data collection period, frequency selection, ID management of the mobile nodes, ID control, etc. to a predetermined mobile node according to the command data. do. Here, the control command data includes command data and identification information (DI) for the target mobile node.

The first to N th mobile nodes 1041 to 104N perform TDMA RF communication in the direction of the data collection gateway 106 from the instruction execution gateway 102.

When each mobile node receives control command data from the command execution gateway 102, the mobile node checks whether it corresponds to its own identification information, and performs an operation according to the corresponding control command data corresponding to its own identification information. Pass to the next mobile node.

In addition, each mobile node collects various kinds of data and delivers the collected data in the direction of the data collection gateway 106.

The data collection gateway 106 receives data transmitted by any one or more of the first to Nth mobile nodes 1041 to 104N, and transmits the data to the server 100.

The configuration of the command execution gateway 102 among the configurations of the wireless communication system will be described further with reference to FIG. 2.

The command execution gateway 102 includes a CDMA module 200, an RF module 202, a transceiver 204, and a data processor 206.

The CDMA module 200 is responsible for the CDMA mobile communication function to enable communication with the server 100.

The RF module 202 is in charge of the wireless RF communication function of the TDMA scheme, and is in charge of communication with the first mobile node 1041 which is the mobile node located at the top of the first to Nth mobile nodes 1041 to 104N. .

The transceiver 204 provides the data received from the CDMA module 200 to the data processing unit 206, and transmits the data provided from the data processing unit 206 to the first mobile node 1041 through the RF module 202. do.

The data processor 206 includes a timeslot controller 208, a frequency selection controller 210, a command table 212, a data sizing controller 214, a command interpreter / control unit 216, and a command execution queue 218. It is composed of

The timeslot control unit 208 generates control command data for controlling the timeslot according to the timeslot control command provided from the server 100, and transmits the first through N th through the transceiver 204 and the RF module 202. Transmit to mobile nodes 1041 to 104N.

The frequency selection control unit 210 generates control command data for controlling the frequency according to the frequency control command provided from the server 100, and transmits the first to N th mobile nodes through the transceiver 204 and the RF module 202. Transmit to (1041 to 104N).

The instruction table 212 stores a mapping table for converting various instruction data to the first to N th mobile nodes 1041 to 104N into actual control instruction data.

The data sizing control unit 214 generates control command data for controlling the data size according to the data size control command provided from the server 100, and transmits the first control data through the transceiver 204 and the RF module 202. To the Nth mobile nodes 1041 to 104N.

The command interpreter / control unit 216 interprets command data provided from the server 100 to determine a priority, and processes the command data according to the determined priority.

The command execution waiting queue 218 temporarily stores command data provided from the server 100.

The operation of the instruction execution gateway configured as described above will be described with reference to FIG.

The command execution gateway 102 checks whether command data is received from the server 100 (step 300).

When the command data is received, the command execution gateway 102 stores the command data in the command execution queue 218 (step 302).

The command execution gateway 102 determines a priority of the command data stored in the command execution waiting queue 218 (step 304), generates control command data according to the command data according to the determined priority, The control command data is transmitted to the mobile node through the RF module 202 (step 306).

The command data processing includes time slot size setting for each mobile node, data size setting considering traffic of each mobile node, frequency selection by searching unused frequencies, ID setting and resetting of each mobile node, and each mobile node. Power control of the nodes.

Now, the first to Nth moving nodes 1041 to 104N will be described. Since the configuration and operation of the first to Nth mobile nodes 1041 to 104N are the same, only the configuration and operation of the second mobile node 1042 will be described with reference to FIG. 4.

The second mobile node 1042 includes a control unit 400, a memory unit 402, an RF communication module 404, and a data collection unit 406.

The controller 400 not only controls the second mobile node 1042 as a whole, but also receives the collected data of the first mobile node 1041 through the RF communication module 404, and moves the collected data to the third mobile node. Forward to node 1043. In addition, when the control command data is received through the RF communication module 404, the controller 400 checks whether the control command data corresponds to its ID, and if the control command data corresponds to its ID, the control. If the control command data does not correspond to its ID, the control command data is transmitted to the third mobile node 1043.

The memory unit 402 stores various information including a processing program of the controller 400, and in particular, stores information such as an ID of the second mobile node 1042.

The RF communication module 404 receives data from the first mobile node 1041 through a time slot allocated according to a TDMA scheme, provides the data to the controller 400, and receives data from the controller 400, and receives a third mobile node. (1043).

The data collector 406 collects various data and provides the collected data to the controller 400.

As described above, the first to Nth mobile nodes 1041 to 104N transfer data from the instruction execution gateway 102 to the data collection gateway 106 to thereby transmit and receive data between each mobile node and the server 100. While possible, it also provides ease of communication path design.

Finally, the configuration and operation of the data acquisition gateway 106 will be described in detail with reference to FIG.

The data collection gateway 106 is composed of a CDMA module 502 and an RF module 500 as shown in FIG.

The RF module 500 receives data transmitted by the Nth mobile node 104N through a predetermined time slot and provides the received data to the CDMA module 502. The CDMA module 502 transmits the data received by the RF module 502 to the server 100.

The first preferred embodiment of the present invention is applied to a wireless communication system having a relatively small number of mobile nodes. In a wireless communication system having a large number of mobile nodes, a command execution gateway is provided for the purpose of quick control. It may be provided with a plurality.

A wireless communication system having a plurality of command execution gateways will be described with reference to FIG. 4, and a detailed description thereof will be omitted for a configuration overlapping with FIG. 1.

As shown in FIG. 4, a first instruction execution gateway 200 and a second instruction execution gateway 202 of the first mobile node 1041 and the third mobile node 1043 of the plurality of mobile nodes connected in series are respectively. ) Is connected.

The first and second command execution gateways 200 and 202 temporarily store the command data received from the server 100 and process the corresponding command data according to the priority. That is, the first command execution gateway 200 performs time slot size, data collection period, frequency selection, ID management of mobile nodes, and ID control for a predetermined mobile node through the first mobile node 1041 according to the command data. The control command data for commanding the back is transmitted. In addition, the second command execution gateway 202 uses the third mobile node 1043 according to the command data to determine the size of the time slot, the data collection period, frequency selection, ID management of the mobile nodes, and ID control for the predetermined mobile node. Send control command data to command.

As described above, the second preferred embodiment of the present invention provides a command execution gateway in a mobile node located in the middle of a plurality of mobile nodes connected in series, so that the instruction can be quickly executed in a wireless communication system having a relatively large number of mobile nodes. Enable the transfer.

As described above, the present invention has the advantage that it is possible to provide the convenience of low-cost configuration and management of the mobile node by enabling an efficient communication path setting for the mobile node installed in a very large number in a wide area.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above-described embodiments, which can be variously modified and modified by those skilled in the art to which the present invention pertains. Modifications are possible.

Therefore, the spirit of the present invention should be grasped only by the claims described below, and all equivalent or equivalent modifications thereof will belong to the scope of the present invention.

Claims (9)

In a wireless communication system, A plurality of mobile nodes for transferring data according to a first wireless communication scheme in a predetermined direction; A server controlling the plurality of mobile nodes; A command execution gateway which is connected to the server according to a second wireless communication method and transmits data provided from the server to a mobile node located at the top of the plurality of mobile nodes according to the first wireless communication method; A data acquisition gateway that receives data from a mobile node located at the last of the plurality of mobile nodes according to the first wireless communication method and transmits the data to the server according to the second wireless communication method. Wireless communication system, characterized in that consisting of. The method of claim 1, The mobile node processes the data corresponding to its own identification information with reference to the identification information included in the data received in the predetermined direction, and if the data does not correspond to its own identification information, the next mobile node according to the predetermined direction. Wireless communication system characterized in that the transmission. The method of claim 1, The command execution gateway, A first communication module communicating with the server according to the second wireless communication scheme; A second communication module communicating with the mobile node of the uppermost end according to the first wireless communication method; A transceiver for transmitting and receiving data through the first and second communication modules; Data processing unit for processing the data received from the server through the first communication module, and the control command data for a predetermined mobile node of the data to the mobile node of the highest level through the second communication module. Wireless communication system comprising a. The method of claim 3, The control of the mobile node is time slot size setting or data size setting, frequency selection, ID setting and reset, power control system characterized in that the power control. The method of claim 1, The data collection gateway, A first communication module communicating with the server according to the second wireless communication scheme; A second communication module for transmitting data provided from the last mobile node to the server through the first communication module; Wireless communication system comprising a. In the mobile node control method of a wireless communication system, Transmitting, by a server, control data for the mobile node to a command execution gateway connected to the mobile node located at the top of the plurality of mobile nodes which transmit data in a predetermined direction; Transmitting, by the performing gateway, the control data to the corresponding mobile node through the best mobile node; Collecting data by each of the plurality of mobile nodes and transferring the collected data in the predetermined direction; Receiving, by the data collection gateway connected to the last mobile node among the plurality of mobile nodes, the collected data to the server; Mobile node control method of a wireless communication system comprising a. The method of claim 6, The mobile node processes the control data corresponding to its own identification information with reference to the identification information included in the control data received in the predetermined direction, and transmits the control data to the predetermined direction if the mobile node does not correspond to its own identification information. Steps to Mobile node control method of a wireless communication system, characterized in that it further comprises. The method of claim 6, The mobile node control method of the mobile node, characterized in that the time slot size setting or data size setting, frequency selection, ID setting and reset, power control. In a wireless communication system, A plurality of mobile nodes for transferring data according to a first wireless communication scheme in a predetermined direction; A server controlling the plurality of mobile nodes; A plurality of command execution gateways connected to the server according to a second wireless communication method and transmitting data provided from the server to a plurality of mobile nodes among the plurality of mobile nodes according to the first wireless communication method; A data collection gateway that receives data from any one of the plurality of mobile nodes according to the first wireless communication method and transmits the data to the server according to the second wireless communication method Wireless communication system, characterized in that consisting of.

Images