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Hierarchical nested data acquisition and transmission method for wireless fiber optic sensor network

A sensor network, wireless optical fiber technology, applied in network topology, wireless communication, signal transmission system, etc., to prolong node life, avoid data collision and loss, and correct timer drift.

Active Publication Date: 2014-10-01
SHANGHAI UNIV
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Problems solved by technology

[0003] Aiming at the problems existing in the prior art, the present invention provides a layered nested data acquisition and transmission method suitable for wireless optical fiber sensor networks, which can effectively solve the problem of synchronization between nodes, has the characteristics of low energy consumption, and supports all wireless Fiber optic sensor nodes dynamically join the network, which has self-organization, overcomes the shortcomings of the existing wireless sensor network communication protocols, meets the application requirements of wireless fiber optic sensor networks, and realizes distributed synchronous collection and remote multi-hop real-time monitoring of hot spot monitoring units. transmission

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  • Hierarchical nested data acquisition and transmission method for wireless fiber optic sensor network
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  • Hierarchical nested data acquisition and transmission method for wireless fiber optic sensor network

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Embodiment Construction

[0035] The preferred embodiments of the present invention are described below in conjunction with the accompanying drawings:

[0036] like figure 1 As shown, in the wireless optical fiber sensor network provided by the present invention, the nodes in the wireless optical fiber sensor network are divided into four categories: central control node, routing node, management node and wireless optical fiber sensor node. The central control node is connected with the computer of the control center, and is used to send control signals to the management nodes of each hot spot monitoring unit, and collect sensing data from the wireless optical fiber sensor network, and send it to the computer for data storage, processing and real-time display; The routing node is located between the central control node and the management node. Several routing nodes form a multi-hop network with control nodes, management nodes, and wireless optical fiber sensor nodes for remote transmission of control...

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Abstract

The invention relates to a layered and nested real-time data acquisition and transmission method of a wireless optical fiber sensor network. In the wireless optical fiber sensor network, the upper network composed of a central control node, a routing node and a control node uses Multi-hop polling mechanism, routing nodes and some management nodes undertake the routing function to realize remote multi-hop transmission of control information and sensing data; the underlying network composed of control nodes and wireless fiber optic sensor nodes , using a dual-synchronous dynamic time-division multiplexing mechanism to realize distributed synchronous collection and transmission of monitoring data in the same hotspot area; the underlying data collection and transmission period is nested in the upper-level polling period. The wireless fiber optic sensor network has the characteristics of low power consumption, wide distribution, and good real-time performance. It is suitable for monitoring fields with known application environments such as oil depots, power systems, mine tunnels, and greenhouse granaries.

Description

technical field [0001] The invention relates to a collection and transmission technology of layered nested data of a wireless optical fiber sensor network, which belongs to the wireless sensor network technology. Background technique [0002] The wireless fiber optic sensor network is composed of a large number of deployed fiber optic sensor nodes, which cooperatively sense, collect, and process information in the monitoring area, and transmit it to the control center in a wireless multi-hop manner. The wireless fiber optic sensor network combines the advantages of fiber optic sensors such as anti-electromagnetic interference, flameproof and explosion-proof, and the advantages of flexible wireless networking, strong scalability, low cost, and distributed computing. It is suitable for flammable, explosive, strong Corrosive, high electromagnetic interference and other high-risk environments have very important theoretical and practical significance. In the wireless fiber opti...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04W52/02H04W74/08H04W84/18G08C23/06
CPCY02D30/70
Inventor 王廷云朱姗
Owner SHANGHAI UNIV
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