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A wireless sensor network routing method and device based on transmission direction

A wireless sensor and transmission direction technology, applied in the field of wireless networks, can solve problems such as inapplicability, inability to effectively reduce the number of hops, wrong selection of transmission direction, etc.

Active Publication Date: 2016-04-20
NORTHWEST UNIV
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  • Abstract
  • Description
  • Claims
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Problems solved by technology

[0005] The second type: routing based on geographical location; the defects of this routing method are: 1) The strategy of selecting the next hop node only by comparing the Euclidean distance between each neighbor node and the destination node, in some more complex does not apply in the region
For example, in the strip area with many corners, such as Figure 4 As shown, due to the blind selection of nodes closer to the destination node, this method cannot effectively reduce the number of hops, but it is easy to cause errors in the selection of the propagation direction, and eventually lead to packet loss
2) Each node only selects an optimal next-hop node, which can easily lead to packet loss
reduced reliability
3) When a node selects a forwarding node, all its neighbor nodes need to coordinate and select an optimal (that is, the closest to the destination node) node as the forwarding node through a large number of data packet exchanges, which increases the communication overhead
[0008] Same as traditional opportunistic routing and routing algorithms based on geographic location, this method has the following disadvantages: 1) The strategy of selecting the next hop node only by comparing the Euclidean distance between each neighbor node and the destination node, in some more complex does not apply in the region of
For example, in the strip area with many corners, such as image 3 As shown, due to the blind selection of nodes closer to the destination node, this method cannot effectively reduce the number of hops, but it is easy to cause errors in the selection of the propagation direction, and eventually lead to packet loss
2) When a node selects a forwarding node, all its neighbor nodes need to coordinate and select an optimal (that is, the closest to the destination node) node as a forwarding node through a large number of data packet exchanges, which increases the communication overhead

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  • A wireless sensor network routing method and device based on transmission direction
  • A wireless sensor network routing method and device based on transmission direction
  • A wireless sensor network routing method and device based on transmission direction

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Embodiment Construction

[0095]In order to obtain the health status of earthen sites in large-scale areas such as the Great Wall and take corresponding measures for various diseases (such as collapse, deformation, cracks, etc.) , it is necessary to establish a reliable routing strategy to ensure that the monitoring data of the Great Wall can be transmitted back to the destination node in a real-time, reliable and efficient manner. The existing large-scale banded area structure of wireless sensor network is as follows: image 3 As shown, it can be divided into straight strip area and corner strip area; for the complex strip network structure combining straight line strip area and corner strip area, a wireless sensor network routing method based on transmission direction is proposed:

[0096] When the entire sensor network is deployed, since the position of each sensor is fixed, a coordinate system is established according to the deployment of the sensor, and each sensor node corresponds to a fixed coord...

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Abstract

The invention discloses a wireless sensor network routing method and device based on transmission direction. The method includes the following steps: determining the direction angle of a forwarding candidate set, determining the forwarding candidate set, selecting a forwarding node and information forwarding, and a strip with a corner Determination of network forwarding candidate sets. This algorithm takes into account the directionality problem when selecting the forwarding candidate set. Compared with the traditional opportunistic routing algorithm of blind omnidirectional broadcasting, it greatly reduces the energy consumption of reception; the algorithm reduces transmission delay, has strong real-time performance, and reduces communication overhead It solves the problem that the traditional geographical location routing is easy to choose the wrong direction and the problem of energy imbalance in complex areas.

Description

technical field [0001] The invention relates to the technical field of wireless networks, in particular to a routing method for a wireless sensor network based on transmission direction, which is applicable to wireless sensor networks for monitoring large-scale banded areas such as the Great Wall. Background technique [0002] Data collection is the primary task in environmental monitoring applications. Sensing nodes need to reliably transmit the collected information to the destination node, which affects the node quality, network life cycle, transmission delay, communication cost, transmission success rate, etc. aspect request. Since routing policies have a crucial impact on these properties, an efficient routing mechanism is a key issue. [0003] The Great Wall, which has a history of more than 2,000 years, is facing the situation of disappearing. It is urgent to protect the Great Wall. The Great Wall belongs to linear cultural heritage. Linear cultural heritage is a n...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04W40/12H04W84/18
CPCY02D30/70
Inventor 刘晨陈晓江金梦黄骏杰尹小燕房鼎益赵晖屈超聂卫科邢天璋陈峰段任
Owner NORTHWEST UNIV
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