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Proceedings ArticleDOI

Auto Vehicle Speed Control System-the Review

TL;DR: The highlights that are proposed in this work are: collision notification that gives notification about accident to the victim's relative, Red light traffic control makes sure vehicle doesn't break signal, Speed control alters speed in different zones and prevent vehicle from entering no entry zones, Horn control prevents no honking in horn prohibited zone and Alcohol detection detects drunk driving.
Abstract: Road traffic safety refers to strategies and measures for reducing the danger of a person using the road being killed or genuinely harmed. Efforts to enhance road security have been under way for a long time and majorly affected the road safety record. A notable reduction in danger practices, for example, alcohol-impaired driving or non-wearing of safety belts authenticates this. At that point likewise such a large number of road related accidents still reason to many victims and their families consistently. The World Health Organization (WHO) extends that by 2030, the most widely recognized reason behind loss of life will be damage produced by road accidents. New vehicles over the world, will be outfitted with cutting edge wellbeing systems to help the driver to make the correct move, and if necessary, to control the vehicle in basic circumstances. This migration process, which is the strongest trend in traffic safety, will be market driven and will spread quickly around the world. These measurements give a total thought regarding the seriousness of the issue and consequently the need of time to actualize the system to stay away from such accidents. In this manner the proposed system will help us to diminish the danger of accidents. The highlights that are proposed in this work are: collision notification that gives notification about accident to the victim's relative, Red light traffic control makes sure vehicle doesn't break signal, Speed control alters speed in different zones and prevent vehicle from entering no entry zones, Horn control prevents no honking in horn prohibited zone and Alcohol detection detects drunk driving.
Citations
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Journal Article
TL;DR: Developing disincentive measures for unwanted honking by developing a E-horn which will honk with a specified intensity when vehicle is in honking zone and merging a feature which will trigger the driver if the speed of vehicle is exceeding above the given limit.
Abstract: Due to the increasing cases of noise polution both the physical and mental get affected.A sustainable and and economically viable solution is a need of society.Unwanted and aggressive honking has become major issue in india.the residential area like schools, hospitals and other workplaces are highly affected. There is no any automated system to reduce the honking intensity.In order to reduce the honking intensity, we are aiming to develop disincentive measures for unwanted honking by developing a E-horn which will honk with a specified intensity when vehicle is in honking zone. In addition with this we are merging a feature which will trigger the driver if the speed of vehicle is exceeding above the given limit.

Cites background from "Auto Vehicle Speed Control System-t..."

  • ...There is always considerable effort to reduce speed in the honking zones and avoid annoyance amongst the residents[6]....

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References
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Proceedings ArticleDOI
01 Dec 2016
TL;DR: This work hopes that it provides a better understanding of how targeted defences should be put in place for targeted attacks, and for technologists to be more mindful of the pitfalls when developing architectures, algorithms and protocols, so as to realise a more secure infrastructure composed of dependable autonomous vehicles.
Abstract: In recent years, we have seen significant advancement in technologies to bring about smarter cities worldwide. The interconnectivity of things is the key enabler in these initiatives. An important building block is smart mobility, and it revolves around resolving land transport challenges in cities with dense populations. A transformative direction that global stakeholders are looking into is autonomous vehicles and the transport infrastructure to interconnect them to the traffic management system (that is, vehicle to infrastructure connectivity), as well as to communicate with one another (that is, vehicle to vehicle connectivity) to facilitate better awareness of road conditions. A number of countries had also started to take autonomous vehicles to the roads to conduct trials and are moving towards the plan for larger scale deployment. However, an important consideration in this space is the security of the autonomous vehicles. There has been an increasing interest in the attacks and defences of autonomous vehicles as these vehicles are getting ready to go onto the roads. In this paper, we aim to organize and discuss the various methods of attacking and defending autonomous vehicles, and propose a comprehensive attack and defence taxonomy to better categorize each of them. Through this work, we hope that it provides a better understanding of how targeted defences should be put in place for targeted attacks, and for technologists to be more mindful of the pitfalls when developing architectures, algorithms and protocols, so as to realise a more secure infrastructure composed of dependable autonomous vehicles.

134 citations

Proceedings ArticleDOI
01 Jun 2006
TL;DR: A brief description of IEEE 802.15.4 for WSNs is given, a few application scenarios in vehicles and roads are presented to show the potential applicability to which the new standard can be used to enable W SNs in ITS.
Abstract: The intelligent transportation system (ITS) is envisioned by linking existing and emerging technologies of computers, wireless radio communications systems and sophisticated sensors to be used in vehicles and roads. IEEE 802.15.4 is a new standard designed for low rate wireless personal area networks (LR_WPANs) with a focus on enabling wireless sensor networks for vehicular, residential, commercial and industrial applications. This standard is characterized for its simplicity, low data rate, low power consumption and low cost in networks. The release of IEEE 802.15.4 is anticipated to make a significant contribution to the application of wireless sensor networks (WSNs) to ITS. In this article we first give a brief description of IEEE 802.15.4 standard and the characteristic of 802.15.4 for WSNs, then present a few application scenarios in vehicles and roads to show the potential applicability to which the new standard can be used to enable WSNs in ITS

23 citations

Proceedings ArticleDOI
10 Mar 2017
TL;DR: This work is an attempt to make an Arduino based embedded system which makes the passenger's journey even safer and more secure, such as speed control in different areas and horn control in horn prohibited zones.
Abstract: Road accidents are one of the world's major public health and injury prevention problems. According to the World Health Organization (WHO), more than a million children are killed in road accidents each year, all over the world. The motivation behind this work is an attempt to make an Arduino based embedded system which makes the passenger's journey even safer and more secure. This paper handles the road discipline such as speed control in different areas and horn control in horn prohibited zones. The features included in this paper are Vehicle Speed Control in school Zone and also controlling the speed of the vehicle in different zones such as bridges, highways, cities and suburbs. It also includes Horn Control of Vehicle in No Honking Zone-Control horn disturbances in horn prohibited zones such as hospitals, public libraries, courts, schools and Alcohol detection to detect drunken driving.

11 citations


"Auto Vehicle Speed Control System-t..." refers background in this paper

  • ...In Kalpana seelam et al [1], proposed system by the author handles some real reasons for road accidents, for example, breaking traffic signals and drunken driving....

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  • ...The inspiration behind the proposed work is an attempt to make an embedded system to bring a Positive difference in the field of road safety and road teach in light because of the fact the Road safety system are accessible in top high luxury cars, for example, Audi, Mercedes, Benz etc[1-2]....

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  • ...Road traffic injuries are the main cause of death all inclusive among individuals matured 15– 29 years[1]....

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Proceedings ArticleDOI
01 Dec 2016
TL;DR: A control system that realizes better control performance for the controlled system with a dead time and a large model error is designed and confirmed by vehicle running tests with robotic driver.
Abstract: Robotic drivers are used in vehicle performance tests such as fuel consumption. The test vehicle is driven on the dynamometer for driving test cycles with defined time and speed. To compare fuel consumption of various vehicles appropriately, better control performance is necessary to maintain the target vehicle speed. However, it is difficult to realize better control performance because a vehicle is a controlled system with a dead time and a large model error. In this paper, we designed a control system that realizes better control performance for the controlled system with a dead time and a large model error. First, we built the driver model from vehicle characteristics. We then designed a control system that permits the modeling error. The speed control performance of the proposed control system was confirmed by vehicle running tests with robotic driver.

9 citations

Proceedings ArticleDOI
01 Nov 2016
TL;DR: Highlighting feature of this system consists of a sensing module which will evaluate the road condition in real time as well as analyses the accident zone on a particular road from the data stored in database and provides the evaluation result to smart phone.
Abstract: In this study an efficient vehicle road safety and location monitoring system is designed for tracking the vehicle location as well as to notify the driver about road conditions. The proposed tracking system combines smart phone application with microcontroller based system which is embedded with an acceleration sensing module and a navigation system. The microcontroller interfaced device is installed inside the vehicle whose position, abnormal acceleration variations i.e. relevant information for road condition is to be determined and tracked in real time. A microcontroller is used to gather geographic coordinates of vehicle, locate acceleration variations and to transmit an update to database. On the basis of this data the smart phone application will display the instantaneous location of vehicle to user. Highlighting feature of this system consists of a sensing module which will evaluate the road condition in real time as well as analyses the accident zone on a particular road from the data stored in database and provides the evaluation result to smart phone.

6 citations

Trending Questions (1)
What are the Implementation of over speeding drivingthat are being implemented reduce traffic accident?

The paper does not provide specific information about the implementation of over speeding driving to reduce traffic accidents.