KR20060104617A - Mobile communication terminal having a sensor network function and controlling method therefore - Google Patents

Abstract

The present invention provides a mobile communication terminal having a separate wireless module for the sensor network therein and the mobile communication terminals and sensor networking scattered in the form of a node (NODE) in the periphery, in the form of a plurality of mobile communication terminals and nodes The present invention provides a mobile communication terminal having a sensor network function, and a control method thereof, comprising a base station configured to configure a sensor network and manage sensor networking through the mobile devices.

The present invention as described above is provided with a wireless module capable of separately sensor networking in the mobile communication terminal and by exchanging information with the adjacent terminal of the sensor network function, by connecting the mobile communication terminals to a plurality of networks to provide the necessary information It can be easily exchanged, thereby significantly reducing the construction cost of network construction.

Sensor network, wireless module, base station, terminal, node, neighbor node

Description

Mobile communication terminal having a sensor network function and its control method

1 is an explanatory diagram illustrating a conventional mobile communication system.

2 is an explanatory diagram illustrating a sensor network according to an embodiment of the present invention.

3 is an explanatory diagram illustrating an example of a terminal applied to the present invention.

3 is a flowchart of the present invention.

<Detailed Description of Codes>

1: Wireless module 2A-N: Mobile communication terminal

3: base station 4: MSM

5: memory

The present invention relates to a mobile communication terminal equipped with a sensor network function and a control method thereof, and in particular, to a mobile communication terminal having a wireless module capable of separately sensor networking and exchanging information with adjacent terminals of the sensor network function. The present invention relates to a mobile communication terminal having a sensor network size capability and a control method thereof.

In general, wireless data communication refers to a communication function of wirelessly transmitting and receiving various data such as letters, numbers, and images through a base station system using a portable terminal capable of wireless transmission and reception. For example, it is a mobile communication system that exchanges or retrieves data in both directions while moving by using various terminals such as a cellular phone, a portable computer, a facsimile, and a credit card inquiry machine. Especially in the early 1980s, mobile phones divided the service area into hexagonal cells of several km to several ten kilometers in diameter in North America, and then repeatedly used the same frequency channel in geographically separated cells. As a result, cellular phones that implement radio channel switching between cells have grown rapidly for the first time.

Then, referring to the conventional mobile communication system as described above with reference to Figure 1, the base station (71, 72) for wirelessly processing function signals, for example, call signals or SMS messages transmitted from a plurality of terminals 70, and MSC (73) for controlling the transmission function of the call signal or SMS message input via the base station (71, 72). Here, the terminal 70 is provided with a morning call function for providing a call signal to a terminal user at a specific time, for example, in the morning.

On the other hand, referring to the operation of the conventional mobile communication terminal as described above, first, when the user of the terminal 70 opens the folder 74 and presses the telephone number signal through the keypad 75, the telephone number signal is the LCD panel ( At the same time as displayed on the 76, the radio signal is processed by the terminal 70 and transmitted to the base station 71. The base station 71 transmits the call signal of the input terminal 70 to the MSC 73. Then, the MSC 73 analyzes the input call signal data to recognize the destination telephone number and transmits the call signal to the base station 72 of the corresponding destination. Accordingly, the destination base station 72 relays the transmitted call signal and connects the call to the counterpart terminal 77. At this time, when the call is formed by the above process, the terminal 70 executes a normal call with the counterpart terminal 77.

Here, when the user of the terminal 70 sets the wake-up call function through the keypad 75, the terminal 70 displays the menu screen on the LCD panel 76. Then, the user of the terminal 70 is set with the time and ring tone information while looking at the menu screen displayed on the LCD panel 76. Then, the terminal 70 stores the input morning call information and then emits the morning call signal to the outside when the corresponding time is reached. Therefore, the user of the terminal 70 hears the morning call signal and wakes up from the seat.

However, such a conventional mobile communication terminal is generally provided for additional service functions such as access to the Internet or execution of other video files, but exchanges necessary information by connecting a plurality of terminals to a network, for example, a specific function desired by a user. Since there is no such function as a sensor network, the user of the terminal cannot use the terminal at all in a manner that matches his or her preference. Therefore, the use of the terminal was inconvenient. Even if it is provided in some other equipment, such a method can be used only in conjunction with a plurality of base stations, so there is a problem that the location and construction cost in the sense network configuration increases considerably.

Accordingly, the present invention has been invented to solve the above-mentioned problems, and since it is possible to easily exchange necessary information by connecting the mobile communication terminals to a plurality of networks, the sensor network significantly reduces the construction cost according to the network construction. Its purpose is to provide a mobile communication terminal with a function and a control method thereof.

Another object of the present invention is to build a network using a mobile communication terminal, so that regardless of the place to process the mutual information regardless of the place according to the mobile communication terminal with a sensor network function that significantly improves the functionality of the mobile communication terminal and accordingly The control method is provided.

The present invention for achieving the above object is provided with a separate wireless module for the sensor network therein and the mobile communication terminal and sensor communication for running the mobile communication terminals scattered in the form of a node (NODE) around, and the plurality of The present invention provides a mobile communication terminal with a sensor network function and a method of controlling the same, comprising a base station configured to configure a sensor network in the form of a mobile communication terminal and a node and manage the sensor networking through the mobiles.

Another feature of the present invention is the network operation confirmation step of the base station to confirm whether a plurality of mobile communication terminals need to share or collect information through a sensor network constructed in the form of network nodes, and the network operation confirmation step As a result, if there is no need to share or collect information through the current sensor network, a node identification step of searching for a terminal located on an adjacent first node and identifying a terminal on the first node, and a base station after the node identification step. A network information transmission step of transmitting and processing desired request information to a terminal located on the first node, and the terminals located on each node formed from the base station after the network information transmission step have their own and sensor networks; Transmits the request information to the terminal of the adjacent node connected to A mobile communication terminal having a sensor network function comprising a sequential networking step of transmitting its information to a base station and a networking result processing step of collecting and analyzing information transmitted from the base station to the node-type sensor network after the sequential networking step. Provides a control method.

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

According to the present invention, as shown in FIG. 2, a mobile device having a separate wireless module 1 for a sensor network, for example, an RF module and interfacing with mobile communication terminals scattered in the form of a node (NODE) in the periphery is implemented. A communication terminal 2A-2N, and a plurality of mobile communication terminals 2A-2N, and a base station 3 for constructing a sensor network in the form of a node and managing the sensor network through these mobiles are included.

Here, the base station 3 may be a base station installed for the sensor network separately from the mobile communication network, including the base station located at the end of the normal mobile communication network.

In addition, the mobile communication terminal 2A-2N includes, for example, a wireless module 1, which is an RF module that can exchange sensor network signals with neighboring nodes of a node type as shown in FIG. 3, and the wireless module. The MSM 4 is provided to control the overall functions of the mobile communication terminals 2A-2N, including the sensor network function of (1). Here, the wireless module 1 may read information provided in the memory unit 5 of the MSM 4 through the MSM 4 and transmit the information to another terminal connected to the sensor network.

In addition, in another embodiment of the present invention, a mobile communication terminal equipped with a wireless module without a base station may form a sensor network in the form of a network node.

Next, a control method applied to the above apparatus will be described.

A first embodiment of the present invention is a method for constructing a sensor network using mobile communication terminals in the form of a node, including a base station. In this case, the base station proceeds to the network operation checking step (S2) in the initial state (S1). Check whether information needs to be shared or collected through the sensor network. At this time, if it is confirmed during the network operation confirmation step (S2) that there is no need to share or collect information through the current sensor network, the current step ends and proceeds to the standby state. However, if it is checked during the network operation confirmation step (S2) that there is no need to share or collect information through the current sensor network, the process proceeds to the node confirmation step (S3) so that the base station is located on the adjacent first node. Search to identify the terminal on the first node. After the node identification step S3, the network information transmission step S4 is performed to transmit and process the request information desired by the base station to the terminal located on the first node. In addition, after the network information transmission step (S4) to proceed to the sequential networking step (S5) and the terminals located on each node formed from the base station to the base station transmits the request information to the terminal of the neighbor node connected to itself and the sensor network Process it and transmit its information to the base station if necessary. After the sequential networking step (S5), the process proceeds to the networking result processing step (S6) and the base station collects and analyzes the information transmitted to the sensor network in the form of a node.

That is, when the base station 3 used in the first embodiment needs to inform or collect the desired information to the terminal on the sensor network, it transmits the necessary information to the terminals 2A located on the first node adjacent to the base station 3. . For example, when the base station 3 wants to transmit the smoking cessation information at a specific place, it transmits the smoking cessation message to the terminal 2A located on the first node. Then, the terminal 2A located on the first node processes the smoking cessation message of the base station 3 through the radio module 1 and inputs it to the MSM 4. Accordingly, the MSM 4 displays the smoking cessation message processed by the wireless module 1 on the display (not shown) of the terminal 2A, and then moves to the next node, for example, the first, that is adjacent through the wireless module 1. The terminal 2B-D located on the second node is searched for, and if the terminal exists, the smoking cessation message is transmitted again to the terminal 2B-D on the next node.

Therefore, if the messages are sequentially delivered in the above manner, the sensor network function can be smoothly executed in the mobile body.

In addition, when the base station wants to collect the public information stored in the memory unit 5 of each terminal through the sensor network, the corresponding disclosure in a sequential network transfer method from the terminal located on each node through the reverse process The information can be received and analyzed.

Here, in another second embodiment of the present invention, a sensor network can be constructed and used purely by terminals without a base station.

That is, the MSM 4 of the first terminal 2A located on an arbitrary node searches for the terminal 2B-D located on another adjacent node immediately and performs a sensor network function on the neighboring nodes. When the terminals 2B-D exist, necessary information is transmitted to the radio module 1 of the terminal 2B-D. For example, if the user wants to transfer the mode of the terminal to the vibration mode, the MSM 4 of any first terminal 2A which first started the sensor network is connected to the wireless module of the terminals located in the adjacent nodes via the wireless module 1. Send the information to (1). Then, the radio module 1 of the terminals 2B-D of the next node processes the information and inputs the information to its MSM 4. Accordingly, the MSMs 4 analyze the received information and automatically change the ringing mode to the vibration mode, search for the terminal 2E-G of the next node adjacent to the same, and repeat the above process. . In the above process, if the specific data, for example, survey data, is collected, the reverse process of the sensor network transfer process may be performed to collect and analyze the data to the terminal that started the first sensor network.

Therefore, through the above process, it is possible to efficiently perform sensor networking composed of mobile communication terminals without a base station.

         As described above, the present invention provides a wireless module for separately sensor networking in a mobile communication terminal, and by exchanging information with adjacent terminals of a sensor network function, it is necessary to connect the mobile communication terminals to a plurality of networks. Since information can be easily exchanged, it has the advantage of significantly reducing the construction cost of network construction.

In addition, according to the present invention, since the network is constructed using the mobile communication terminal, since the mutual information is processed regardless of the place, the functionality of the mobile communication terminal is also significantly improved.

Claims (4)

A mobile communication terminal having a separate wireless module for a sensor network therein and a mobile communication terminal scattered in the form of a node (NODE) and a sensor networking, and a sensor network in the form of a plurality of mobile communication terminals and nodes. A mobile communication terminal equipped with a sensor network function, characterized in that it comprises a base station for configuring and managing the sensor networking through the mobile. A mobile communication terminal with a sensor network function, characterized in that the mobile communication terminal with a wireless module without a base station to form a sensor network in the form of a network node. The network operation confirmation step of the base station confirms whether a plurality of mobile communication terminals need to share or collect information through a sensor network constructed in the form of a network node, and as a result of the network operation confirmation step, Node identification step of identifying the terminal on the first node by searching for the terminal located on the adjacent first node when the base station does not need to share or collect the information, and after the node identification step, the base station is located on the first node. A network information transmission step of transmitting and processing desired information desired to a terminal, and terminals located on each node formed from a base station after the network information transmission step are connected to a terminal of an adjacent node connected to the sensor network. Transmit and process the request information and send the information to the base station if necessary A sequential networking step of transmitting and a networking result processing step of collecting and analyzing the information transmitted from the base station to the node-type sensor network after the sequential networking step, the control of the mobile communication terminal with a sensor network function, characterized in that Way. As a result of the network operation checking step that any first terminal checks whether a plurality of mobile communication terminals need to share or collect information through a sensor network constructed in the form of a network node, and as a result, the current sensor If there is no need to share or collect information through a network, a node checking step of identifying a terminal on a first node by searching for a terminal located on an adjacent first node, and after the node checking step, A network information transmission step of transmitting and processing desired request information to a terminal located on a first node by an arbitrary first terminal, and on each node formed based on an arbitrary first terminal after the network information transmission step. Terminals located in the network transmit request information to terminals of adjacent nodes connected to the sensor network. A sequential networking step of processing and transmitting its information to an arbitrary first terminal if necessary; and a networking result process of collecting and analyzing the information transmitted to the sensor network in the form of a node after the sequential networking step; Control method of a mobile communication terminal equipped with a sensor network function, characterized in that consisting of steps.

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