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Bus signal priority control method based on rfid vehicle electronic tags

A signal priority and electronic label technology, applied in the traffic control system of road vehicles, traffic control systems, instruments, etc.

Inactive Publication Date: 2016-09-14
SHANGHAI INST OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0005] The present invention aims at the problem that the existing bus signal priority control system can only passively adapt to traffic flow due to traditional vehicle detection technology, and proposes a bus signal priority control method based on RFID vehicle electronic tags, using RFID electronic tags as information intermediaries, establishing The information interaction principle of bus signal priority enables the existing bus signal priority control system to realize the transition from passively adapting to traffic flow to actively guiding traffic flow, and can minimize the average delay and average number of stops of buses at intersections. To improve the utilization rate of green light time, design and implement a useful and practical guidance-based priority control model

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  • Bus signal priority control method based on rfid vehicle electronic tags
  • Bus signal priority control method based on rfid vehicle electronic tags
  • Bus signal priority control method based on rfid vehicle electronic tags

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Embodiment Construction

[0041] Such as figure 1 Schematic diagram of bus priority information interaction based on RFID technology, figure 2 Communication link diagram of bus priority strategy and image 3 Flow chart of bus signal priority, considering that the signalized intersection is located downstream of the bus platform, and RFID readers are installed 50-100 meters before the bus platform and the stop line at the entrance of the intersection, and the electronic tags are installed on the bus as on-board units, and the intersections are read and written The unit and the site read-write unit can communicate bidirectionally. The workflow of the bus signal priority system can be divided into three stages: A, B, and C, including the green light request of the bus phase, the solution of the priority control scheme, and the execution of the priority control scheme. The intersection roadside unit ( The intersection signal controller and the intersection RFID reader-writer, referred to as the intersec...

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Abstract

The invention relates to a bus signal priority control method based on an RFID vehicle-mounted electronic label. The RFID electronic label is a taken as an information intermediary, and a bidirectional communication between public transport vehicles and a crossing control layer can be established; through guiding the public transport vehicles to reach and pass across a crossing appropriately, the road section travel speed of the bus is changed from priority model input to model output, and a signal control system is converted from adapting to the arrival of a traffic flow passively to guiding the traffic flow to arrive at and pass across the crossing, thereby giving full play to the efficiency of a control model and realizing maximization of system benefit; considering from the aspect of controlling the crossing control layer of the system, signal timing plan, suggested speed, station lingering time and other control parameters and the like core jobs are calculated, and a priority control scheme can be carried out through the communication with the RFID electronic labels, so that efficiency of processing priority algorithm of the crossing control layer can be improved, average vehicle delay and average parking frequency of the public transport vehicles are reduced to the maximum degree, and green time utilization rate is improved.

Description

technical field [0001] The invention relates to a traffic signal control technology, in particular to a bus signal priority control method based on RFID vehicle electronic tags. Background technique [0002] Bus signal priority is the main means to solve problems such as urban traffic congestion, and its realization is based on the information provided by bus detection technology. The coil detection technology and GPS detection technology are widely used in the existing bus priority schemes, but in the actual application process, there are still some shortcomings, mainly reflected in: 1) The coil detection technology only detects the bus on the fixed section of the road. 2) In the actual application of GPS technology, after obtaining vehicle information, it cannot exchange information with the intersection unit in real time, which lacks flexibility and increases the complexity of the center priority algorithm. In addition, in the case of scarcity of road resources, how to a...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G08G1/087
CPCG08G1/087
Inventor 王浩刘云翔黄锋李晓丹原鑫鑫徐琛
Owner SHANGHAI INST OF TECH
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