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Underground communication system based on Internet of Things technology and application thereof

An Internet of Things technology and communication system technology, applied in the field of underground communication systems, can solve the problem that single frequency cannot solve data forwarding and base station positioning well, does not achieve independent management of underground networks, and cannot reflect the real location of personnel, etc. problem, to achieve the effect of improving reliability and portability, reducing the number of information forwarding, and avoiding electromagnetic shielding

Inactive Publication Date: 2012-03-21
SHANDONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] 1. Failure to achieve independent management of the underground network, resulting in the breakage of a link at a certain point, the downstream part of the breakpoint will completely collapse, and the downstream information will not be able to be recorded
[0005] 2. All underground wireless communications use the same frequency band, but in mines, different environments absorb different wireless spectrums, and the same frequency band has different communication distances in different places. Therefore, the use of a single frequency cannot well solve data forwarding and The coexistence of base station positioning
[0006] 3. The positioning of personnel inside the vehicle is not realized. When the personnel are inside the vehicle, electromagnetic shielding prevents personnel from communicating with the base station for positioning
[0007] 4. The positioning function should not use the way that the node to be positioned indirectly communicates with the positioning node of the base station, otherwise due to the existence of the network topology, the real position of the person cannot be reflected

Method used

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  • Underground communication system based on Internet of Things technology and application thereof
  • Underground communication system based on Internet of Things technology and application thereof
  • Underground communication system based on Internet of Things technology and application thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0056] Such as figure 1 , an underground communication system based on the Internet of Things technology, including an underground roadway local area network and an underground data center, the underground roadway local area network is connected to the underground data center through wired, wireless or wired and wireless interchanging, and it is characterized in that the underground roadway local area network includes personnel Wearing node 26, vehicle assembly node 17, environment monitoring node 23, roadway transmission and positioning node 24, and roadway server 25; personnel wearing node 26, vehicle assembly node 17 and environment monitoring node 23 are connected wirelessly, and the communication frequency is F2; The personnel wearing node 26, the vehicle assembly node 17 and the environment monitoring node 23 are respectively connected to the roadway transmission and positioning node 24 by wireless connection, and the communication frequency is F2; ​​the roadway transmiss...

Embodiment 2

[0074] An underground communication system based on Internet of Things technology as described in Embodiment 1, the difference is that the communication frequency F2 is 2.4G, and F1 is 433M.

Embodiment 3

[0076] An application of the downhole communication system based on Internet of Things technology described in Embodiment 1, the steps are as follows:

[0077] 1) Carry out zoning planning for the area to be monitored underground: take a single roadway as an independent zoning;

[0078] 2) Establish underground roadway local area network in each underground roadway: underground roadway local area network, including personnel wearing node 26, vehicle assembly node 17, roadway transmission and positioning node 24, environment monitoring node 23 and roadway server 25; roadway transmission and positioning node 24 Collect the information of the personnel wearing node 26, the information of the vehicle assembly node 17, and the information of the environmental inspection and monitoring node 23, and transmit the information to the data center on the well for comprehensive processing and analysis of the data;

[0079] 3) The roadway transmission and positioning node 24 locates undergr...

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Abstract

The invention relates to an underground communication system based on an Internet of Things technology and an application thereof. Each underground roadway local area network is connected with a surface data center through a wired and wireless mode or a wired and wireless exchange mode. The underground roadway local area network comprises: a personnel wearing node, a vehicle assembling node, an environment monitoring node, a roadway transmission and positioning node and a roadway server. The personnel wearing node, the vehicle assembling node and the environment monitoring node acquire information and upload the information to the roadway server through the roadway transmission and positioning node. The roadway server transmits the information to the surface data center so as to perform comprehensive processing and analysis. In the roadway, double-frequency wireless information transmission is used, which guarantees the long distance transmission and reduces power consumption. The roadway server is gateway equipment which takes an independent roadway scope as the local area network. Mobility is strong. The comprehensive processing and transmission of the single roadway information can be realized. Personnel positioning is combined with the vehicle positioning, which can effectively avoid an electromagnetic shielding phenomenon.

Description

technical field [0001] The invention relates to an underground communication system and application based on Internet of Things technology, belonging to the field of Internet of Things and wireless sensors. Background technique [0002] Today's underground communication solutions have two methods: wired and wireless. Among them, the wired communication mainly adopts the bus method, and the wireless communication mainly includes WIFI and underground PHS. The wired method not only increases the laying cost, but also is not conducive to the modification of completed projects, and WIFI and underground PHS are difficult to meet the requirements of low power consumption. [0003] In order to overcome the deficiencies in the prior art, Chinese patent CN100501133C discloses a sensor network-based underground safety monitoring system and method, but its disadvantages are: [0004] 1. Failure to achieve independent management of the underground network, resulting in a break at a cert...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04B7/26H04W84/18
CPCY02B60/50Y02D30/70
Inventor 袁东风单小明王磊
Owner SHANDONG UNIV
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