Introducing a Hi-Tech -Cloud based Public Transport System (original) (raw)
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Public transport service is one of the most preferred modes of transportation in today's smart cities. People prefer public transport mainly for the cost benefit reasons. The problems faced by the people while using the public transport can be overcome by the technology such as Internet of Things (IOT). In this paper, we present how this technology can be applied to eliminate the problems faced by the passengers of the public bus transport service. The Internet of Things technology is used to provide the passengers waiting at the bus stop with real time information of the arriving buses. Information such as arrival time, crowd density and traffic information of the arriving buses are predetermined and provided to the passengers waiting at the bus stop. The display boards fitted at the bus stops provide the real time bus navigation information to the waiting passengers. This Smart Bus Navigation system enables the passengers to make smart decisions regarding their bus journey. This system reduces the anxiety and the waiting time of the passenger's at the bus stop. The smart bus navigation system creates a positive impact and increases the number of people who prefer to use the public mode of transportation.
Implementation of Smart Bus Tracking System Using Wi-Fi
Now-a-days about 60% of the people are making their transit as a Bus. The services of real-time tracking and arrival time prediction of buses is a very useful for bus riders, especially in cities. On the other side, the traditional GPS-GSM based solution does not work in rural areas due to poor signal strength and network connectivity issues. RFID based tracking system are costly and hard to implement this type of system. In this paper, we present the solution for Smart tracking system for buses using Wi-Fi and the real time tracking Mobile Application. The system consists of Wi-Fi routers at some Access Points say at Bus terminals and the Wi-Fi module in the buses. When the bus come to the bus terminal, the Wi-Fi module gets connected to the router and sends the address i.e. latitude and longitude of the bus terminals to the cloud then the data is retrieved from the cloud and displayed to the user in the mobile application, also gets notified when the bus is nearer to the bus terminal.
GPS-GSM Integration for Enhancing Public Transportation Management Services
2010 Second International Conference on Computer Engineering and Applications, 2010
This paper proposes and implements a solution for enhancing public transportation management services based on GPS and GSM in Punjab province of Pakistan. The system consists of four modules: BUS Station Module, In-BUS Module, BASE Station Module and BUS Stop Module.
Smart Bus Tracking and Management System Using IoT
Bus tracking is an application that tracks a bus and gathers the distance to each station along its route. Tracking System involves the installation of an electronic device in a bus, with an installed Android App on any SMART phone to enable the Administrator/User to track the bus location. Based on IoT this project is implemented as android application. There are two applications one for server and the other for the client. Buses carry GPS devices to track their positions. By this positions to server are periodically updated. Client application displays map showing the position of bus. It shows where buses are on a map and provide students and staffs the updated information at different time interval using RTC. The server will monitor location and will store its data in the database. It is a real-time system as this method automatically sends the information on the GPS system to a system/SMART phone. The students/staffs can get flexibility of planning travel using the app, to decide when to catch the bus. Arduino UNO microcontroller is used to programming for software and hardware module. And it is connected to the cloud and following through the android app. The waiting time of the user can be reduced. Simple mode of communication is the key feature of the Bus Tracking system. This application can be easily extended for central tracking system to keep track of all the buses. The different queries and efficient route management can be easily done through central server system.
An Efficient Real Time Query System for Public Transportation Service using Zigbee and RFID
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In recent decades, the number of vehicles in India has increased enormously, which results in rigorous traffic congestion and pollution in urban areas, especially during peak hours. This paper describes an implementation of Real Time Query System (RTQS) for public transportation service using ZigBee and Radio Frequency Identification (RFID) as a communication medium. The System is a Demand Responsive Transit (DRT) but it is more competent and suitable as it entertains passenger?s demands and gives data such as bus locations, bus number, and number of persons inside the bus in real time. The real time synchronization of this system makes this system more informative and distinctive when compared with other DRTs. Moreover, this system is more flexible and efficient when compared with the conventional systems. This paper discusses the usage of wireless technologies in real time query system and how to make it more reliable using wireless technology ZigBee and RFID.
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Transportation implies the mobility of activities and goods from all sustainable development key dimensions. Over the past years, more trips of public transportation moves people towards a more sustainable future, by reduce congestion on the roads and increase the efficiency of the road system. The research aims at analysing the passenger’s aspiration and perspective of sustainable public transport measure and focuses on the evaluation Malaysia rural bus services. Methods of On-board passenger survey and adoption of Geographical Information System (GIS) / Global Positioning System (GPS) used to collect the primary data.
Prototypic Gps-Gsm Integration for Enhancing Public Transportation and Management Services.
This paper proposes and implements a solution for enhancing public transportation management services based on GPS and GSM. Travel time information is a vital component of many intelligent transportation systems (ITS) applications. In recent years, the number of vehicles in India has increased tremendously, leading to severe traffic congestion and pollution in urban areas, particularly during peak periods. A desirable strategy to deal with such issues is to shift more people from personal vehicles to public transport by providing better service (comfort, convenience and so on). In this proposed system we introduced advanced public transportation systems (APTS) for public service. Advanced public transportation systems (APTS) are one of the most important ITS applications, which can significantly improve the traffic situation in India. One such application will be to provide accurate information about bus arrivals to passengers, leading to reduced waiting times at bus stops. This needs a real-time data collection technique, a quick and reliable prediction technique to calculate the expected travel time based on real-time data and informing the passengers regarding the same. The scope of this proposed system is to use global positioning system data collected from public transportation buses on urban roadways in the city of Chennai, India, to predict travel times. The performance of the proposed system is found to be promising and expected to be valuable in the development of advanced public transportation systems (APTS) in India. The work presented here is one of the first attempts at real-time short-term prediction of travel time for ITS applications in Indian traffic conditions.
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Procedia Computer Science, 2014
This paper proposes a real time Automatic Vehicle Location (AVL) and Monitoring system for pilgrims road transport coming towards city of Makkah in Saudi Arabia based on Data Distribution Service (DDS). This service is a real time publish/subscribe middleware. Using this middleware approach, we are able to locate and track a huge number of mobile vehicles and identify pilgrims for an annual Islamic gathering in the Holy City of Makkah. Performance results are demonstrated for LAN, WLAN and Bluetooth over DDS.