KR101864527B1 - radio shadow area telecommunication system - Google Patents

Abstract

The present invention relates to a shadow area communication system,
It is possible to communicate with rescue workers who are involved in rescue or fire fighting in shaded areas where radio waves are obstructed by obstacles and communication is not possible. In addition, the rescue personnel can communicate with the central control room through the dispatch commander or dispatch commander A crew terminal carried by the rescue crew; A terminal of a disaster site dispatch commander or dispatch commander; A central control room for managing the rescue crew and dispatch command post; (S1); An instruction accepting step (S2); Command transmission step (S3); Command receiving or transmitting step S4a; Command arrival step (S4b); A situation transmitting step (S5); Receiving or delivering a status (S6); A status accepting step (S7); To the situation recognition step S8; And more particularly, to a shaded area communication system.

Description

[0001] The present invention relates to a shadow area communication system,

The present invention relates to a shadow area communication system,

In the shaded areas where radio waves are obstructed by obstacles and communication is impossible, a plurality of rescue workers put on fire or rescue can communicate with each other. In addition, the rescue workers can communicate with the central control room through a dispatch command or dispatch commander Communication system.

In general, rescue workers who were put into a shaded area where communication is impossible can be cut off from communication with the outside, or communication between the rescue workers is cut off, and the risk of a safety accident is high when a dangerous situation occurs. On the contrary, various prior arts related to the shadow area have been proposed, and in a method of providing navigation service in the shadow area of the application No. 10-2007-0105698, a system, a server, and a mobile communication terminal for the method, A system for providing a navigation service, the system including a mobile communication terminal, a Location Based Service Platform (LBSP), a location center, a location determination server, and an Indoor Server, If it is determined that the beacon signal is received, the beacon signal is received from the indoor server when the beacon signal is received, and the navigation service using the beacon signal and the in-building map data is provided. When the beacon signal is not received It is checked whether or not a GPS radio wave signal is received, and as a result, And a navigation service is provided in cooperation with the positioning server when a signal is received. The system provides a navigation service in a shaded area to complement a GPS signal and a beacon signal in a shaded area, It is possible to operate the navigation function of the navigation in the shaded area, but there is a problem that the operation of the navigation is impossible in an area where the beacon signal or the GPS signal does not reach. On the other hand, the present invention can utilize a multipoint terminal capable of transmitting and receiving a signal with a frequency of 30 MHz to 300 MHz as a node point, so that rescuers inputting a part of an external communication network can communicate with each other or transmit signals It is possible to transmit signals in both directions to the central control room through the dispatch commander or dispatch commander outside. When there is no movement for a certain time, the danger signal is automatically transmitted to the adjacent rescuer, dispatch commander, dispatch commander terminal or central control room, And to provide a shaded area communication system capable of effectively overcoming the dangerous situations that may occur in rescue operations in the shaded area.

The present invention relates to a shadow area communication system, in which a message can be transmitted to a dispatch commander on the ground, a terminal of a dispatch commander or a central control room through a crew terminal carried by a rescue crew put in a shaded area, Is to provide a shaded area communication system capable of transmitting instructions and the like to rescue workers in a shaded area through a terminal of a dispatch command or dispatch commander.

The present invention also relates to a shading area communication system capable of detecting the movement of a rescue member in a shaded area and automatically transmitting a danger signal to an adjacent rescue crew, dispatch commander or dispatch commander and a central control room when a dangerous situation occurs, .

In order to solve the above problems,

The present invention relates to a marine terminal having a crew terminal carried in a shaded area; A terminal of a disaster site dispatch commander or dispatch commander; A central control room for managing the rescue crew, dispatch commander or dispatch commander; The terminal includes a motion detection sensor and a transmission module, and includes a command execution step (S1); An instruction accepting step (S2); Command transmission step (S3); Command receiving or transmitting step S4a; Command arrival step (S4b); A situation transmitting step (S5); Receiving or delivering a status (S6); A status accepting step (S7); In the context recognition step S8; Through a step, by providing a shaded area communication system capable of communicating with a plurality of rescue personnel, dispatch command post, dispatch commander or central control room.

The present invention relates to a shadow area communication system,

It is possible to communicate with multiple rescue personnel, dispatch commander, dispatch commander or central control room by using the crew terminal carried by the rescue crew in the shaded area,

In addition, when there is no movement of the rescue crew in the shaded area, the crew terminal carried by the rescue crew recognizes it as the occurrence of the dangerous situation, and automatically recognizes that the rescue crew, dispatch commander, dispatch commander or central control room There is an advantage that a danger signal can be transmitted.

In addition, the present invention can be applied to industrial disasters including construction sites, freezers, nuclear power plants, soldiers, caves, mines, ships, and the like.

1 is a schematic diagram of a shadowed area communication system.
Figures 2 to 4 illustrate shaded area communication systems.
5 is an exemplary diagram of an embodiment of a shadowed area communication system.
6 is a network connection diagram of a shadow area communication system.
FIG. 7 is an embodiment of a network connection of a shadow area communication system. FIG.
8 is a flowchart of a shadow area communication system.

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

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor shall design the concept of the term appropriately in order to describe its own invention in the best way possible. It should be interpreted as meaning and concept consistent with the technical idea of the present invention.

The present invention relates to a marine terminal having a crew terminal carried in a shaded area; A terminal of a disaster site dispatch commander or dispatch commander; A central control room for managing the rescue crew and dispatch command post; The present invention relates to a shaded area communication system comprising a motion detection sensor and a transmission module

The crew terminal carried by each rescue crew is a NODE POINT, and can function to forward the mutually transmitted messages to the rescue crew, dispatch commander, dispatch commander, and central control room.

In addition, the present invention provides a method for controlling an information processing apparatus, An instruction accepting step (S2); Command transmission step (S3); Command receiving or transmitting step S4a; Command arrival step (S4b); A situation transmitting step (S5); Receiving or delivering a status (S6); A status accepting step (S7); To the situation recognition step S8; Consists of.

More specifically,

The command execution step S1 is a step of delivering a command to the terminal of the dispatch commander or dispatch commander including the dispatch command post, dispatch commander, and action instructions of each rescue person in the central control room,

The command reception step S2 is a step in which the command transmitted from the central control room is received by the terminal of the dispatch command or dispatch commander,

The command transmission step (S3) is a step of transmitting a command transmitted from the central control room to a command terminal of a rescue party who is rescued in a shaded area by a dispatch command post or a dispatch commander,

The command receiving or delivering step S4a is a step of receiving commands transmitted from the central control room through the terminal of the dispatch commanding party or dispatching commander to the dispatching terminal carried by a plurality of rescue workers in the shaded area, To each of the plurality of rescue personnel until the arrival of the command to the rescue terminal of the specific rescue crew,

The command arrival step S4b is a step of receiving a command sent to the general control room of the specific rescue crew via the terminal of the dispatch command or dispatch commander,

The situation transmitting step S5 may include receiving the command through the command receiving or transmitting step S4a or the command arriving step S4b or, when there is an individual delivery situation, Sending a situation to a terminal of a dispatch commander or dispatch commander,

The situation reception or delivery step S6 is a state in which a situation where the situation transmitted in the situation transmission step is received by the rescue crew, dispatch commanding party or dispatching commander put in the shaded area, or when the situation transmitted in the situation transmission step is the dispatch command or dispatching commander's terminal , It is repeatedly transmitted to other adjacent rescue personnel and finally the situation is transmitted to the dispatch command post or dispatch commander,

The reception step S7 is a step of directly or indirectly accepting the situation transmitted by the rescuer by the terminal of the dispatch command or dispatch commander,

The step of recognizing the situation (S8) is a step of informing the central control room of the situation received by the terminal of the dispatch commander or dispatch commander.

That is, an instruction execution step S1; An instruction accepting step (S2); Command transmission step (S3); Command receiving or transmitting step S4a; Command arrival step (S4b); A situation transmitting step (S5); Receiving or delivering a status (S6); A status accepting step (S7); The situation recognition step (S8) is repeatedly performed so that mutual communication can be made between the rescue personnel, between the rescue personnel and the dispatch commander, between the rescue personnel and dispatch commander terminals, or between the dispatch commander or dispatch commander and the central control room,

When a message is sent and received between rescue personnel, the rescue terminal carried by each rescue person can receive the message or function as a node point, enabling smooth communication between rescue personnel and dispatch commander or dispatch commander terminal , The dispatch commander or dispatch commander terminal can use the network on the ground to report in real time to the central control room.

In addition, the crew terminal carried by each rescue team additionally has a motion detection sensor and a transmission module, and each rescue crew operates the motion detection sensor before putting on the scene, so that an emergency occurs, When the motion detection sensor is limited, the motion detection sensor may sense the danger signal to transmit the danger signal to the adjacent rescuer through the transmission module of the terminal,

The plurality of adjacent rescue personnel receiving the signal can repeatedly transmit the danger signal to the plurality of adjacent rescue personnel until the transfer command is confirmed to the terminal of the dispatch command or dispatch commander using the transmission module incorporated in the dispatch terminal In addition,

In addition, the terminal of the dispatch commander or dispatch commander having received the danger signal is configured to report it to the central control room. In other words, it can function as a NODE POINT to the crew terminal carried by each rescue crew, and to forward the danger signal until it is confirmed to be delivered to the dispatch command post.

In one embodiment,

Referring to the drawings,

FIG. 2 is a diagram showing that a multiparty terminal carried by a mutual rescue crew is manufactured so as to be able to mutually transmit and receive messages by functioning as a node (point)

FIG. 3 is a diagram showing that the information on the site situation is transmitted to or transmitted to a plurality of rescue personnel, dispatch command post, dispatch commander, or central control room through a crew terminal carrying an adjacent rescue crew,

FIG. 4 is a drawing showing that a command including the action command of the dispatch command post and each rescue commander is made to be sent to the rescuers in the shaded area by the dispatch command post or dispatch commander terminal in the central control room,

FIG. 5 is a diagram showing that when the emergency situation occurs and the movement of the rescue personnel is restricted, the motion detection sensor of the crew terminal senses it and transmits the danger signal to the central control room through the dispatch commander or dispatch commander FIG.

Specifically,

The central control room can transmit the command or the structure instruction to the terminal of the dispatch commander or dispatch commander through the command step S1. The dispatch commander or the commander of the dispatch commander can transmit the command or the structure instruction to the dispatch commander And the terminal of the dispatch command post or dispatch commander may transmit the instruction to the plurality of rescue workers or the specific rescue workers in the respective shaded areas in the command transmission step S3, ), A plurality of rescuers may use the respective crew terminals to receive command or structure instructions from the central control room, dispatch command or dispatch commander, or, if the command or structure instruction is limited to a specific rescue member, Until it is delivered to the rescue crew, the crew terminal carried by the multiple rescue crew functions as a NODE POINT To repeat the command or structure instruction until the specific rescue party receives it at the adjacent member terminal, and in the command arrival step (S4b), the specific rescue party can receive it. For example, as shown in FIG. 4, when an attempt is made to deliver a command to a rescue crew D placed in a shaded area in the central control room, the command can not be directly transmitted to the rescue crew D in the central control room. The Command Post is also commanded and the Command Post can also deliver the command of the Central Control Room to the Rescue Crew A because the Central Control Room can not directly deliver the Rescue Order D to the Rescue Crew D, B to rescue crew B to rescue crew C, and rescue crew C to final rescue crew D. In other words, the crew terminal carried by the rescue crew functions as a NODE POINT, so that the dispatch command post, the rescue crews A to C, provide the rescue crew D with a command to the specific rescue crew And the like. In addition, even when the rescue crew D transmits a message to the rescue crew A, it is impossible to directly transmit the message, so that the message can be finally transmitted to the crew terminal of the rescue crew A through the crew terminals of the rescue crews B and C.

When each rescue team wants to report the situation to the dispatch command post, dispatch commander or central control room, the situation is transmitted using the crew terminal carried by each rescue crew in the situation transmission step (S5) In the receiving or delivering step S6, each of the member terminals functions as a NODE POINT to forward the signal until the situation is delivered to the dispatch command or specific rescue personnel, and the dispatch command or dispatch commander After the terminal receives the situation through the reception step (S7), it can transmit it to the central control room through the network and report it.

The situation transmitted by the specific rescue team can be transmitted and received in real time to the rescue personnel, the dispatch command post, the dispatch commander terminal or the central control room in real time, and a method of sending and receiving signals to and from the dispatch command or dispatch commander Of the terminal to communicate with the central control room is not explicitly described since the analogy is obvious from the existing known technology.

Further, the utilization of the present invention is not limited to rescue workers, but can be utilized in industrial disaster sites including construction sites, freezers, nuclear power plants, soldiers, caves, mines, ships and the like.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, the present invention is not limited to the above-described embodiments, Various modifications and variations may be made thereto by those skilled in the art to which the present invention pertains.

Therefore, the spirit of the present invention should not be limited to the embodiments described, and all the equivalents or equivalents of the claims, as well as the appended claims, fall within the scope of the present invention.

Claims (4)

A motion detection sensor and an adjacent structure capable of detecting the movement of the rescue crew when the rescue crew member is in the shaded area and can act as an intersection point to be an intermediary medium for message or command transmission, A crew terminal having a transmission module capable of transmitting a signal to the crew; A terminal of a disaster site dispatch commander or dispatch commander; A central control room for managing the rescue crew, dispatch commander or dispatch commander; In the shade area communication system constituted,
(S1) for commanding the dispatch commander, the dispatch commander, and instructions for the respective rescuers to the dispatch commander or dispatch commander terminal in the central control room;
A command accepting step (S2) of accepting the transmitted command by a terminal of a dispatch command or dispatch commander;
An instruction transmission step (S3) of transmitting an instruction transmitted from the central control room to a member terminal of a rescue party in a rescue operation in a shaded area by a dispatch command post or a dispatch commander;
In the Central Control Room, orders sent by the dispatch commander or dispatch commander terminal are received by multiple rescue workers in rescue operations in the shaded area, or until they reach a specific rescue command from the central control room, A command receiving step S4b for transmitting the command to the crew terminal carried by the rescue crew or a command reaching step S4b for receiving the command transmitted to the specific control crew to the central control room via the dispatch command or dispatch commander ;
When the rescue crew placed in the shaded area has a delivery situation to the dispatch commanding officer or the dispatching commanding officer, the situation of the rescue operation in the shaded area is transmitted to the dispatching commanding terminal or dispatching commanding terminal through the crew terminal carried by the rescue crew A situation transmitting step (S5);
If the situation of the situation transmitted in the situation transmission step S5 is received by the terminal of the crew member of the rescue crew, the dispatch command post or dispatch commander, or the situation transmitted in the situation transmission step S5 reaches the dispatch command terminal or the dispatch command terminal (S6) of repeatedly delivering the situation to the dispatcher or dispatching commander of the adjacent rescue crew, and finally delivering the situation to the dispatching commander or dispatching commander;
A situation receiving step (S7) of directly or indirectly receiving the situation transmitted by the rescue crew, wherein the terminal of the dispatching commanding post or dispatching commanding officer receives the situation;
A step S8 of receiving the status of the dispatch commander or dispatching commander to the central control room and reporting the situation to the central control room; And the shading area communication system.
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