Method for improving communication connectivity of Internet of Vehicles based on double-lane grid fluid mechanics

A fluid mechanics, two-lane technology, applied in vehicle-to-vehicle communication, vehicle wireless communication services, services based on specific environments, etc., can solve problems such as road congestion

Active Publication Date: 2021-07-09
WENZHOU UNIVERSITY +2
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  • Abstract
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  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In order to improve the connectivity between vehicles, most of the current ideas are to use other vehicles on the road or add roadside units for cooperative communication, but for the cooperation between vehicles, there is a problem of willingness to cooperate, and adding roadside units also There will be problems of setting rationality and cost, and these works also ignore the fact that vehicles change lanes in actual traffic. After vehicles change lanes, the distance between vehicles will change, and the connectivity between vehicles wil

Method used

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  • Method for improving communication connectivity of Internet of Vehicles based on double-lane grid fluid mechanics
  • Method for improving communication connectivity of Internet of Vehicles based on double-lane grid fluid mechanics
  • Method for improving communication connectivity of Internet of Vehicles based on double-lane grid fluid mechanics

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Embodiment

[0076] refer to figure 1 , figure 2 , image 3 , this example takes a two-lane expressway vehicular communication network as an example, considering the direct connectivity of the communication link after a lane change and the continuous connectivity of the link when the traffic flow returns to stability after the long-wave disturbance.

[0077] refer to Figure 4 , Figure 5 , a method for improving communication connectivity of the Internet of Vehicles based on two-lane lattice hydrodynamics, comprising the following steps:

[0078] 1) Construct a two-lane IoV communication model: The two-lane IOV communication model includes lane 1, lane 2 and a group of nodes J uniformly distributed on lane 1 and lane 2, J={j-n,...,j-2 ,j-1,j,j+1,j+2,...j+n}, according to the lane-changing conditions in the lattice hydrodynamic model, the occurrence of vehicle lane-changing behavior is defined as: the node j-1 on lane 2 If the density is higher than the density of node j on lane 1, v...

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Abstract

The invention discloses a method for improving Internet of Vehicles communication connectivity based on double-lane grid fluid mechanics. The method comprises the following steps: 1) constructing a double-lane Internet of Vehicles communication model; 2) deducing a density condition which needs to be met for ensuring the stability of the traffic flow; 3) constructing a direct connectivity probability function based on traffic flow stability; 4) deducing conditions for stabilizing the traffic flow after the driver adjusts the time in the traffic flow changing process; 5) constructing a continuous connectivity probability function between the vehicles. According to the method, the movement of the vehicles on the road is regarded as the flow of particles, and the lane changing behaviors of the vehicles are coordinated by adopting a double-lane grid fluid mechanics model, so that traffic jam caused by a large number of lane changing behaviors is avoided, and the communication connectivity of the vehicles is improved on the basis of ensuring the stability of the traffic flow.

Description

technical field [0001] The invention relates to the field of in-vehicle communication, in particular to a method for improving the communication connectivity of the Internet of Vehicles based on two-lane grid fluid mechanics. Background technique [0002] The vehicle-mounted network can greatly improve the safety of road driving and the effectiveness of transportation by applying wireless communication technology to vehicle-to-vehicle communication. In order to ensure the real-time and reliable transmission of safety warning information and traffic congestion information, the overall performance of the vehicle communication system must be improved. However, due to the complexity of actual traffic conditions, such as traffic stability, vehicle acceleration and deceleration, and lane changes, all of which seriously affect the performance of the communication system, posing severe challenges to the reliable transmission of wireless communication between vehicles. Therefore, it...

Claims

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Application Information

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IPC IPC(8): H04W4/46H04W24/02H04W24/06G06F30/28G06F111/08G06F113/08G06F119/14
CPCH04W4/46H04W24/02H04W24/06G06F30/28G06F2111/08G06F2113/08G06F2119/14
Inventor 肖海林杨婧雷周迪王开学汪鹏君沈君凤周梦
Owner WENZHOU UNIVERSITY
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