Research on an Intelligent Lane Guidance System

<p>Yuan-yuan Fan<sup>1</sup>, Teng Teng<sup>2</sup>, Jingwen Huang<sup>2</sup>, Zhenglin Sheng<sup>2</sup>, Dong Zhao<sup>1</sup>, Mingyu Yin<sup>1</sup> and Yingjun Sang<sup>2 </sup></p>

doi:10.25236/IJFS.2021.031706

International Journal of Frontiers in Sociology, 2021, 3(17); doi: 10.25236/IJFS.2021.031706.

Research on an Intelligent Lane Guidance System

Author(s)

Yuan-yuan Fan¹, Teng Teng², Jingwen Huang², Zhenglin Sheng², Dong Zhao¹, Mingyu Yin¹ and Yingjun Sang²

Corresponding Author:

Yuan-yuan Fan

Affiliation(s)

¹Faculty of Mathematics and Physics, Huaiyin Institute of Technology, Huaian 223003, China

²Faculty of Automation, Huaiyin Institute of Technology, Huaian, 223003, China

Download PDF
|
Download: 22
|
View: 860

Abstract

Aiming at the problem of congestion and blockage caused by the increasing number of cars in urban roads, in order to alleviate the congestion and blockage of urban main roads, the number of vehicles in each lane was calculated based on geomagnetic sensor and infrared counter. At the same time, considering the influence of the number of lanes on the capacity of the road, according to the actual situation of the road needs to establish the variable lane research program in line with the actual section, and put forward the intelligent lane control system suitable for the urban main road. By analyzing the data collected by sensors, the lane adaptive control can be realized. According to the special situation of emergency rescue, the emergency mode is put forward to save rescue time. Real-time lane information on the screen can help you plan your route in advance and reduce travel time.

Keywords

Smart lanes, vehicle count, sensors, traffic jams

Cite This Paper

Yuan-yuan Fan, Teng Teng, Jingwen Huang, Zhenglin Sheng, Dong Zhao, Mingyu Yin and Yingjun Sang. Research on an Intelligent Lane Guidance System. International Journal of Frontiers in Sociology (2021), Vol. 3, Issue 17: 44-49. https://doi.org/10.25236/IJFS.2021.031706.

References

[1] Xu Jingpeng, Li Xueqin. Design of tidal lane and its effect on traffic congestion mitigation [J]. Integrated transportation, 2017, 39(07): 34-37.

[2] Ji Xianglong, Xu Jiajia, Feng Pengfei, Zhang Xiaoxiang, Huang Mengqing, Li Kui, ZHU Liyu. Journal of Jiangsu University of Technology, 2021, 27(02): 34-40.

[3] Lígia Conceição, Gonçalo Homem de Almeida Correia, José Pedro Tavares. The Reversible Lane Network Design Problem (RL-NDP) for Smart Cities with Automated Traffic [J]. Sustainability, 2020, 12(03).

[4] Tian Wei-guang, Xu Hai-li, Yin Rong-fei, Xing Qiang, Shen Biao. Chinese Journal of Sensors and Actuators, 2021, 34(01):137-142.

[5] Gao han, Fan xueliang. Vehicle position detection based on geomagnetic signal [J]. Sensor and microsystem, 2020, 39(07): 130-133.

[6] Jongtaek Oh, Minwoo Kim. Method to determine initial aiming azimuth accuracy using acceleration, gyroscope, and geomagnetic sensors [J]. ICT Express, 2020, 6(02).

[7] Ai Hong, Wang Jie, Sun Shuo. Vehicle flow monitoring system based on pyroelectric infrared sensor [J]. Instrument technique and sensor, 2007, 4(06): 46-48.

[8] Yang Yan, Huang Mingzheng, Chen Feng. Design and implementation of tidal lane based on microcontroller [J]. Electronic manufacture, 2019, 4(11): 9-11.

[9] Lucian Lobonț, Andrei Marius Pînzariu. Effects of reversible lane implementation, a case study simulation [J]. MATEC Web of Conferences, 2019, 290(05).