KR20160109157A - The apparatus of wireless package for national disaster multi communication network - Google Patents

Abstract

The purpose of the present invention is to provide an emergency multi-communication wireless package device in a disaster situation and a method thereof to solve a problem in which it is hard to that smartphones using an existing ground communication network are compatible in each of different communication modes and can be used within a communication available range of a base station for connecting the ground communication network and a problem in which satellite communication through the smartphones can be performed and communication is disconnected when an emergency situation such as a natural disaster, a disaster, etc. is generated. By comprising: a smart emergency multi-communication relay (100); and a smart device (200), the present invention can rapidly arrange the smart emergency multi-communication relay instead of the ground communication network in the disaster situation by bases or positions, rapidly transmitting a disaster situation signal and a rescue requesting signal through the smart device by making the smart device to wirelessly communicate with a disaster management server through a Ham communication network, a Ham satellite communication service network, a communication satellite service network, a Wi-Fi communication network, a 3G communication network, and an LTE communication network formed in the smart emergency multi-communication relay, grasp accurate information and position of a disaster generation field by connecting the smart emergency multi-communication relay located in a range of 100-500 m with respect to the smart device with an adjacent different smart emergency multi-communication relay through Ad-Hoc networking, provide information so central disaster headquarters makes an effective decision by transmitting accurate image information regarding a field situation, minimize disaster damage, and rapidly prepare for secondary and tertiary disasters.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wireless communication device,

In the present invention, the smart emergency hybrid communication repeater can be quickly arranged in place of the ground communication network in the event of a disaster, by location or by location, and the Ham communication network, the Ham satellite communication network, the communication satellite service network, A smart device, and a disaster management server at a remote location via a WiFi communication network, a 3G communication network, and an LTE communication network so as to be wireless data communication.

Generally, a smartphone using a terrestrial communication network performs communication using various communication methods such as 3G and LTE.

However, there is a problem that the smart phones using the terrestrial communication network are difficult to mutually compatible with each other and can be used only within the communication range of the base station connecting the terrestrial communication network.

In addition, a smart phone is a terminal using a terrestrial communication network, and can not perform satellite communication, resulting in disconnection of communication when an emergency such as a natural disaster or a disaster occurs.

Currently, there is no emergency disaster communication available to general users in the event of a disaster situation.

In addition, since the disaster situation is directly related to human life and property as seen from the case of Japan's tsunami in March 2011, there is an urgent need for an emergency disaster communication system capable of communicating in any disaster environment.

Korean Patent Registration No. 10-1402885

In order to solve the above problems, in the present invention, it is possible to quickly arrange the Smart Emergency Multipoint Repeater in place of the terrestrial communication network in the event of a disaster by each base or location, It is possible to relay the smart device and remote disaster management server through the service network, the communication satellite service network, the WiFi communication network, the 3G communication network, and the LTE communication network to wireless data communication. The present invention provides an emergency mixed communication wireless package apparatus and method for connecting a hybrid communication repeater to another neighboring smart hybrid communication repeater through ad-hoc (ad hoc) networking.

In order to accomplish the above object, the emergency mixed communication wireless package device in a disaster situation according to the present invention comprises:

A Smart Emergency Composite Repeater 100 (hereinafter, referred to as " Smart Emergency Repeater ") 100, which is composed of a mobile communication network, a Ham communication network, a Ham satellite communication service network, a communication satellite service network, a WiFi communication network, a 3G communication network and an LTE communication network, )Wow,

And a smart device 200 connected to a disaster management server at a remote location through a smart emergency communication repeater in a disaster situation and transmitting a disaster situation signal and a rescue request signal at present.

As described above, according to the present invention, it is possible to improve the compatibility by 80% compared to the existing one so that communication can be performed in each different communication method through the smart device in the event of a disaster, and in the range of 100m to 500m It is possible to connect a Smart Emergency Repeater with another Smart Emergency Composite Repeater through Ad-Hoc (ad-hoc) networking to send disaster situation signal and rescue request signal quickly through Smart Device. Accurate information and location can be grasped, accurate image information can be transmitted to the site situation, and the central disaster headquarters can provide information to make effective decision making, thereby minimizing disaster damage There is a good effect to be able to quickly prepare for the second and third disasters.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram showing components of an emergency mixed communication wireless package device 1 in a disaster situation according to the present invention;
FIG. 2 is a block diagram showing the components of a smart emergency hybrid communication repeater according to the present invention;
3 is a block diagram illustrating components of a hybrid satellite communication module according to the present invention.
FIG. 4 is a flowchart illustrating an operation procedure of a ham radio module according to an embodiment of the present invention.
Figure 5 is a block diagram illustrating the components of a smart device in accordance with the present invention;
FIG. 6 is a diagram illustrating an embodiment in which a smart device and a disaster management server at a remote location act as a relay for wireless data communication through a Ham (HAM) satellite and a communication satellite connected to a smart emergency hybrid communication repeater according to the present invention.
FIG. 7 is a block diagram showing a configuration of an Ad-Hoc (Ad Hoc) networking engine according to an embodiment of the present invention, in which a Smart Emergency Composite Communication Relay located in a range of 100 m to 500 m based on a smart device is connected to another Smart Emergency Complex One embodiment that illustrates coupling with a communication repeater is also shown.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing components of an emergency mixed communication wireless package apparatus 1 in a disaster situation according to the present invention, which is composed of a smart emergency hybrid communication repeater 100 and a smart device 200.

First, the smart emergency hybrid communication repeater 100 according to the present invention will be described.

The smart emergency hybrid communication repeater 100 is composed of a Ham communication network, a Ham satellite communication service network, a communication satellite service network, a WiFi communication network, a 3G communication network, and an LTE communication network so that a smart device and a disaster- It plays a role.

2, a repeater main body 110, an independent power supply unit 120, a hybrid satellite communication module 130, a WiFi communication module 140, a 3G communication module 150, an LTE communication module 160, A ham communication module 170, a repeater control unit 180, and an Ad-Hoc (ad hoc) networking engine unit 190.

First, the relay main body 110 according to the present invention will be described.

The relay main body 110 is formed in a box shape and serves to protect and support each device from external pressure.

This is made of a plastic resin or titanium material of a flame retardant material which has a rectangular box shape and strong shock absorption, strong durability, and does not ignite a fire.

The reason for forming the flame retardant plastic resin or the titanium material is that it is strong in shock absorption, strong in durability, and does not ignite in the fire. In the event of a disaster (war or natural disaster) So that the repeater can be installed according to the star or the location.

In addition, the main body of the repeater includes an automatic folding satellite antenna at an upper end.

Here, the automatic folding satellite antenna is recessed in the inner space to prevent damage due to an external impact, and is automatically protruded to the outside of the upper end of the main body of the repeater by a control signal of its remote location or its own time clock signal to form a satellite antenna .

Second, the independent power supply unit 120 according to the present invention will be described.

The independent power supply unit 120 is located at one side of the main body of the repeater, and generates electric energy from the sunlight to charge the rechargeable battery, and supplies power to each device independently.

This is a temporary power source maintenance device for preventing data loss in the case of a power failure, and is configured to connect the power source only for a minimum time period necessary for storing data in case of a power failure.

The independent power supply unit includes a solar battery cell and a rechargeable battery.

Third, the hybrid satellite communication module 130 according to the present invention will be described.

The hybrid satellite communication module 130 is located at one side of the interior space of the repeater main body and is driven according to a control signal of the repeater control unit to connect the HAM satellite and the smart device, And transmits the current disaster situation signal and rescue request signal transmitted from the smart device to the Ham (HAM) satellite and the communication satellite.

As shown in FIG. 3, it comprises a Ham radio module 131 and a communication satellite transmission / reception module 132.

4, the Ham radio module 131 connects the Ham (HAM) satellite and the smart device to each other and transmits the current disaster situation signal and the structure request signal transmitted from the smart device to the HAM ) Satellite.

It communicates in Very High Frequency (VHF) and Ultra High Frequency (UHF) frequency bands.

The communication satellite transmission / reception module 132 connects the communication satellite and the smart device to each other, and transmits the current disaster situation signal and the structure request signal transmitted from the smart device to the communication satellite.

Fourth, the WiFi communication module 140 according to the present invention will be described.

The WiFi communication module 140 is driven in accordance with a control signal of the repeater control unit to connect wireless data communication with another smart emergency hybrid communication repeater and a disaster management server at a remote location with a WiFi wireless communication network.

It consists of basic service set (BSS) composed of several nodes (terminals), ad-hooc and infrastructure.

The infrastructure includes an AP for each BSS for connection between the BSSs.

Here, the AP plays the same role as the base station, and is connected to a wireless network called a distribution system (DS) to form a single extended service set (ESS).

Fifth, the 3G communication module 150 according to the present invention will be described.

The 3G communication module 150 is driven in accordance with the control signal of the repeater control unit and connects the disaster management server of another smart emergency hybrid communication repeater and the remote location to the 3G wireless communication network.

It is a third generation mobile communication technology standard, using a frequency of 2 gigahertz, and a transmission speed of 128 Kbps to 2 Mbps.

In other words, when a smartphone user stops moving or walking, the mobile phone has a maximum speed of 384 Kbps, a car running at 128 Kbps, and a fixed or equipped mobile phone at a speed of 2 Mbps.

Sixth, the LTE communication module 160 according to the present invention will be described.

The LTE communication module 160 is driven in accordance with a control signal of the repeater control unit, and performs a wireless data communication connection to another LTE wireless communication network with a disaster management server at another remote location.

This is a high-speed wireless data packet communication standard which is 12 times faster than HSDPA (High Speed Downlink Packet Access). It is also called as 3.9G mobile communication (3.9G) because it is a middle technology between 3rd generation mobile communication and 4th generation mobile communication And is considered one of the most promising candidates for 4G mobile technology, along with WiBro Evolution.

The channel bandwidth of the LTE communication module 160 is 1.25 to 20 MHz, the maximum transmission rate of the downlink is 100 Mbps, and the maximum transmission rate of the uplink is 50 Mbps based on the 20 MHz bandwidth.

The wireless multiple access and multiplexing scheme is based on OFDM (orthogonal frequency division), and the high-speed packet data transmission scheme is based on MIMO (multiple input / output).

Seventh, the ham communication module 170 according to the present invention will be described.

The Ham communication module 170 is driven in accordance with a control signal of the repeater control unit to connect the wireless emergency data communication with another disaster management server at a remote location and a smart communication network at a remote location.

It uses 144 to 146.000 MHz as the VHF band, and 7.000 to 7.200 as the short wave band (HF band). MHz, 3.5 MHz, 10 MHz, 14 MHz, and 24 MHz, and is capable of packet communication in which data is transmitted and received between a transceiver and a PC.

Eighth, a repeater control unit 180 according to the present invention will be described.

The repeater control unit 180 is connected to the hybrid satellite communication module, the WiFi communication module, the 3G communication module, the LTE communication module, and the Ham communication module to check the driving status of each device, A communication system, a communication satellite service network, a WiFi communication network, a 3G communication network, and an LTE communication network, and controls the smart device to be wireless data communication.

Ninth, the Ad-Hoc (ad hoc) networking engine unit 190 according to the present invention will be described.

The ad-hoc (ad hoc) networking engine unit 190 transmits the Smart Emergency Composite Repeater 100m-500m based on the smart device to another neighboring Smart Emergency Complex Relay through Ad-Hoc (ad hoc) It also serves as a link.

As shown in FIG. 7, the mobile communication terminal is composed of an autonomous network for communicating between smart emergency hybrid communication repeaters which can communicate wirelessly without an access point (AP).

In other words, since the topology is configured through the communication in the smart emergency hybrid communication relay period, it is possible to overcome the limit of the distance of the wireless network communication, and compared with the method of using the fixed router (static method) The network topology changes dynamically because the relay period is free to move.

Next, the smart device 200 according to the present invention will be described.

In the event of a disaster, the smart device 200 is connected to a disaster management server at a remote location through a smart emergency communication repeater, and transmits a disaster situation signal and a structure request signal.

5, a multi-communication activity unit 210, a multi-communication intent unit 220, a disaster event setting unit 230, an emergency hybrid communication control unit 240, a smart emergency- (250).

The multi-communication activity unit 210 generates an emergency composite communication interface application UI including a view and an event response on the screen of the smartphone.

The multi-communication intent unit 220 is connected to a smart emergency multi-functional communication repeater, a Ham communication network, a Ham satellite communication network, a communication satellite service network, a WiFi (WiFi) communication network on the smartphone screen on which the emergency hybrid communication interface application UI is displayed through the multi- And transmits a request command to the disaster event event setting unit so that a disaster event selected automatically in a communication network, a 3G communication network, or an LTE communication network is automatically selected.

In the event of a disaster, the disaster state event setting unit 230 may display a disaster state indication indicating that a communication connection with a communication carrier repeater due to a disaster situation is blocked on the screen of the smartphone, and at the same time, And displays the possible communication network on the screen of the smartphone.

The emergency hybrid communication controller 240 sets a layout of a rectangular area on which the emergency composite communication interface application UI is to be displayed on the screen and drives the wireless communication device in a normal communication mode through a communication company repeater at a normal time, And to control to drive in the emergency mixed communication mode through the emergency hybrid communication repeater.

In addition, the smart device 200 according to the present invention includes a manual charging module that is detachably connected to a USB connection jack for battery charging.

The manual charging module comprises a radio function, a function of generating solar energy as electric energy through a solar cell, and a self-generating function of rotation.

Hereinafter, a detailed description will be given of a specific operation process of the emergency mixed communication wireless package device in a disaster situation according to the present invention.

First, power is supplied through the independent power source driving device of the smart emergency hybrid communication repeater 100, and power is supplied to each device.

Next, the smart emergency hybrid communication repeater 100 checks in real time whether or not it enters the emergency communication request signal of the smart device.

Next, a Smart Emergency Multiplexing Communication Repeater located in the range of 100 m to 500 m on the basis of the smart device is called an Ad-Hoc (Ad Hoc) networking neighboring through the Smart Emergency Multicast Repeater Search Unit 250 of the smart device 200 It connects with other smart emergency communication repeater.

Next, the smart device is driven in a normal communication mode through a communication repeater at normal times, and is controlled to be driven in an emergency mixed communication mode through a smart emergency hybrid communication repeater located at a nearby location in a disaster situation.

Next, the smart device 200 transmits an emergency communication request signal to the smart emergency hybrid communication repeater 100.

Finally, according to the emergency communication request signal of the smart device, the smart emergency hybrid communication repeater 100 can automatically communicate with the Ham communication network, the Ham satellite communication network, the communication satellite service network, the WiFi communication network, the 3G communication network and the LTE communication network. And transmits the current disaster situation signal and the rescue request signal of the smart device to the disaster management server at the remote location by driving.

1: Emergency complex communication wireless package device in case of disaster
100: Smart emergency hybrid communication repeater 110: Relay main body
120: Independent power supply unit 130: Hybrid satellite communication module
140: WiFi communication module 150: 3G communication module
160: LTE communication module 170:
200: Smart Device

Claims (5)

A Smart Emergency Composite Repeater 100 (hereinafter, referred to as " Smart Emergency Repeater ") 100, which is composed of a mobile communication network, a Ham communication network, a Ham satellite communication service network, a communication satellite service network, a WiFi communication network, a 3G communication network and an LTE communication network, )Wow,
And a smart device (200) connected to a disaster management server at a remote location through a smart emergency communication repeater in a disaster situation and transmitting a disaster situation signal and a rescue request signal at present. Package device.
The method of claim 1, wherein the smart emergency hybrid communication repeater (100)
A relay main body 110 which is formed in a box shape and protects and supports each device from external pressure,
An independent power supply unit 120 located at one side of the main body of the repeater and generating electrical energy from the sunlight to charge the rechargeable battery,
And a communication unit for receiving the current disaster situation signal transmitted from the smart device by connecting the communication satellite and the smart device between the HAM satellite and the smart device while being driven in accordance with the control signal of the repeater control unit, A hybrid satellite communication module 130 for transmitting a rescue request signal to a Ham (HAM) satellite and a communication satellite,
A WiFi communication module 140 driven in accordance with a control signal of the repeater control unit to establish a wireless data communication connection with a disaster management server of another smart emergency hybrid communication repeater and a remote location to a WiFi wireless communication network,
A 3G communication module 150 driven in accordance with a control signal of the repeater control unit to establish a wireless data communication connection with a disaster management server of another smart emergency hybrid communication repeater and a remote location to a 3G wireless communication network,
An LTE communication module 160 that is driven in accordance with a control signal of the repeater control unit and establishes a wireless data communication connection with a disaster management server in another neighboring smart emergency hybrid communication repeater and a remote location through an LTE wireless communication network,
A ham communication module 170 that is driven in accordance with a control signal of the repeater control unit and establishes a wireless data communication connection with a disaster management server of another smart emergency hybrid communication repeater and a remote location to a Ham communication network,
A hybrid satellite communication module, a WiFi communication module, a 3G communication module, an LTE communication module, and a Ham communication module, and after checking the driving status of each device, the mobile communication network, the Ham satellite communication service network, the communication satellite service network, , A 3G communication network, and an LTE communication network, and controls the smart device to be a wireless data communication. The wireless communication device according to claim 1, .
The hybrid satellite communication module (130) of claim 2, wherein the hybrid satellite communication module
A Ham radio module 131 for connecting a Ham (HAM) satellite and a smart device to each other and transmitting a current disaster situation signal and a rescue request signal transmitted from the smart device to a Ham (HAM)
And a communication satellite transmission / reception module (132) for connecting the communication satellite and the smart device to each other and transmitting a current disaster situation signal and a structure request signal transmitted from the smart device to the communication satellite. A wireless packaging device.
The method of claim 1, wherein the smart emergency hybrid communication repeater (100)
Hoc (ad hoc) networking engine 180 for connecting a smart emergency communication repeater located within a range of 100 m to 500 m based on the smart device to another neighboring smart emergency communication repeater through ad-hoc (ad hoc) networking, Wherein the wireless communication device is configured to include the wireless communication device in a disaster situation.
The method of claim 1, wherein the smart device (200)
A multi-communication activity unit 210 for generating an emergency composite communication interface application UI including a view and an event response on a smartphone screen,
In the smartphone screen on which the emergency composite communication interface application UI is displayed through the multi-communication activity unit, the communication between the smart emergency communication repeater and the Ham communication network, the Ham satellite communication network, the communication satellite service network, the WiFi communication network, the 3G communication network and the LTE communication network A multi-communication intent unit 220 for automatically selecting a possible method and sending a request command to a disaster event event setting unit to perform a disaster situation event,
In the event of a disaster, a disaster situation indicator indicating that the communication connection with the communication repeater due to a disaster situation is blocked on the screen of the smartphone is displayed, and at the same time, a communication network capable of communication through the smart emergency communication repeater is displayed on the screen of the smartphone A disaster event event setting unit 230,
The layout of the rectangular area in which the emergency composite communication interface application UI is to be displayed on the screen is set and the normal communication mode through the communication company repeater is normally set and the emergency mixed communication through the smart emergency communication repeater And an emergency hybrid communication control unit (240) for controlling the wireless hybrid communication communication unit (240) to drive the wireless hybrid wireless communication device in a mode.

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