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Topology construction and internet access method for aviation ad-hoc network

A self-organizing network and Internet technology, applied in radio transmission systems, electrical components, wireless communications, etc., can solve the problems of poor topology reliability and frequent topology changes in aviation self-organizing networks

Active Publication Date: 2016-12-07
SOUTHEAST UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0007] Purpose of the invention: In order to solve the technical problem of poor reliability of the aviation self-organizing network topology, the present invention proposes an aviation self-organizing network topology construction and Internet access method to complete the network access of new nodes in the aviation self-organizing network and the topology update process, so as to form a more stable and reliable network topology

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  • Topology construction and internet access method for aviation ad-hoc network
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  • Topology construction and internet access method for aviation ad-hoc network

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Embodiment Construction

[0083] The present invention will be further explained below in conjunction with the drawings.

[0084] figure 1 with 2 Describes the changes of node height and flight phase respectively. The specific implementation is as follows:

[0085] 1. Before t1, a certain aircraft node is in a dormant state, and its height is 0.

[0086] 2. At time t1, the aircraft node turns on the network equipment, and the system assigns node identifier i to it. From t1 to t2, node i is waiting to take off, that is, in the waiting phase, and its height is 0.

[0087] 3. At t2, node i is ready to take off. From t2 to t3, node i is in the take-off phase, and its height change law is figure 1 Shown.

[0088] 4. At time t3, the flight altitude of node i reaches the cruise altitude h, enters the cruise phase, and its altitude remains at the cruise altitude.

[0089] 5. At t4, node i is ready to land. From t4 to t5, node i is in the landing stage, and its height changes according to figure 1 Shown.

[0090] 6. ...

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Abstract

The invention relates to a topology construction and internet access method for an aviation ad-hoc network. In the method, a flight process is divided into five stages including a dormancy stage, a waiting stage, a take-off stage, a cruising stage and a landing stage; a corresponding topology construction and data transmission strategy is provided for a flight node in a specific flight stage, wherein a waiting node is used as a connection point between an ad-hoc network in the air and a ground network, passively accepts network access requests of other nodes, and is mainly responsible for data relay; on one hand, a take-off node rapidly establishes a link information table; on the other hand, the take-off node accepts a request of the waiting node, carries data of the ground network, and rapidly diffuses data of the ground network in the ad-hoc network in the air; a cruising node regularly updates the link information table, and selects the optimal and backup link to perform data exchange in the air according to a link distance and the link duration; and a landing node rapidly forwards the data of the network in the air to the waiting node, and finally forwards the data into the ground network. By means of the topology construction and internet access method for the aviation ad-hoc network disclosed by the invention, fully connected topology can be rapidly formed; and communication between the aviation ad-hoc network and the ground network is realized.

Description

Technical field [0001] The application of the present invention relates to the topology discovery and construction process of the aviation self-organizing network, and more particularly to an effective topology update method in the aviation self-organizing network to maintain the stability and reliability of the network. Aiming at the aviation self-organizing network, the present invention proposes a method of network topology construction and Internet access based on fast connectivity guarantee and flight phase, which is helpful to solve the frequent changes in topology and network caused by large-scale scenarios and fast moving nodes. The problem of instability, and the ability to make full use of the characteristics of each flight stage of the aircraft for data transmission, improve the communication quality of the aviation self-organizing network, and provide an important topological basis for the design and research of its upper layer protocol, which belongs to the field of ...

Claims

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Application Information

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IPC IPC(8): H04B7/185H04W40/24
CPCH04B7/18506H04W40/246
Inventor 陶军胡静吴昊天
Owner SOUTHEAST UNIV
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