Increasing traffic safety during single lane passing using wireless sensor networks

机译：使用无线传感器网络传递单通机的交通安全增加

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Overtaking traffic on undivided roadways is one of the major causes of accidents that results in fatalities and severe injuries. This is especially true in developing countries such as India, where roads are narrow, yet traffic is heavy and fast. The primary cause of such accidents is the inability of drivers to gauge the speed and distance of oncoming traffic as well as the impairment of vision due to lack of adequate light (at night), the presence of large vehicles in front as well as sharp turns and curves in the road. We present a novel concept that uses wireless sensor networks to assist a driver in making a safe decision on overtaking a vehicle in the presence of oncoming traffic on an undivided two-lane roadway. Our system broadcasts a request for information from oncoming vehicles. The oncoming vehicle responds back with position and speed information, allowing us to automatically make a go/no-go decision on whether to try and overtake or not, taking into account the aforementioned information as well as the capability of our own vehicle. In this concept paper, we present the solution approach and hardware prototype design as well as the test-bed used to test the prototype. We postulate that this system, when deployed, would significantly reduce driver stress and decrease the number of accidents during single lane passing on undivided two-lane roadways.

机译：超越交通不可分割的道路是导致死亡和严重伤害的事故的主要原因之一。这在印度等发展中国家尤其如此，道路狭窄，交通繁重又快。此类事故的主要原因是驾驶员无法衡量迎面而来的交通的速度和距离以及由于缺乏足够的光线（晚上），前面的大型车辆的存在以及急剧转弯的障碍和曲线在路上。我们介绍了一种新颖的概念，它使用无线传感器网络来帮助驾驶员在在不可分割的双车道道路上迎面而来的交通存在安全决定。我们的系统从迎面而来的车辆广播信息请求。迎面而来的车辆回复了位置和速度信息，允许我们自动制定任何关于是否尝试并超越的决定，同时考虑到上述信息以及我们自己的车辆的能力。在这篇概念论文中，我们提出了解决方案方法和硬件原型设计以及用于测试原型的测试床。我们假设该系统在部署时，将显着降低驾驶员压力，减少单行车通行道路的单车道中的事故数量。

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《International conference on advances in computing, communications and informatics》|2015年||共5页
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作者
Unnikrishnan H.; Vishnu Narayanan B.; Ananyase Alin Devassy; Ramachandran Anand;
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中图分类通信;
关键词
Dedicated Short Range Communication (DSRC); Single lane passing; Vehicular Ad hoc NETwork (VANET); Wireless Sensor Network (WSN);

机译：专用短程沟通（DSRC）;单车道通过;车辆临时网络（VANET）;无线传感器网络（WSN）;

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1. Policy considerations for evaluating the safety effectiveness of passing lanes on rural two-lane highways with lower traffic volumes: Wyoming 59 case study [J] . Schumaker Lindsay, Ahmed Mohamed M., Ksaibati Khaled Journal of transportation safety & security . 2017,第1a4期

机译：评估交通流量较低的农村两车道高速公路通过车道安全有效性的政策考虑：怀俄明州59个案例研究
2. Wireless sensor networks for traffic management and road safety [J] . Pascale A., Nicoli M., Deflorio F., Intelligent Transport Systems, IET . 2012,第1期

机译：无线传感器网络，用于交通管理和道路安全
3. Single Sink Repositioning Technique in Wireless Sensor Networks for Increasing Throughput and Decreasing Delay [J] . Asrat Sime Bedada Computer Engineering and Intelligent Systems . 2020,第5期

机译：无线传感器网络中的单槽重新定位技术，提高吞吐量和降低延迟
4. Increasing traffic safety during single lane passing using wireless sensor networks [C] . Unnikrishnan H., Vishnu Narayanan B., Ananyase Alin Devassy, International conference on advances in computing, communications and informatics . 2015

机译：使用无线传感器网络提高单车道通行期间的交通安全
5. A study of the traffic operational, design and safety characteristics of single lane roundabouts in the United States. [D] . Flannery, Aimee Rebecca. 1998

机译：对美国单行道回旋处的交通运营，设计和安全特性的研究。
6. Traffic Measurement on Multiple Drive Lanes with Wireless Ultrasonic Sensors [O] . Soobin Jeon, Eil Kwon, Inbum Jung 2014

机译：无线超声波传感器在多行车道上的交通量测量
7. INTELLIGENT TRAFFIC-SAFETY MIRROR BY USING WIRELESS SENSOR NETWORK [O] . Peter Danišovič, Michal Hodoň, Michal Chovanec 2014

机译：使用无线传感器网络智能交通安全镜

Increasing traffic safety during single lane passing using wireless sensor networks

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