Drishti: An Integrated Navigation System for Visually Impaired and Disabled
ISWC '01 Proceedings of the 5th IEEE International Symposium on Wearable Computers
Cryptography and authentication on RFID passive tags for apparel products
Computers in Industry
Mobile commerce integrated with RFID technology in a container depot
Decision Support Systems
A dynamic logistics process knowledge-based system - An RFID multi-agent approach
Knowledge-Based Systems
RFID-enabled automation in support of factory integration
Robotics and Computer-Integrated Manufacturing
A framework for fast RFID tag reading in static and mobile environments
Computer Networks: The International Journal of Computer and Telecommunications Networking
A knowledge-based problem solving method in GIS application
Knowledge-Based Systems
An expert system for an emergency response management in Networked Safe Service Systems
Expert Systems with Applications: An International Journal
e-services providing complex containers cargo conditions monitoring information system
Proceedings of the International Conference on Management of Emergent Digital EcoSystems
Automatic linguistic report of traffic evolution in roads
Expert Systems with Applications: An International Journal
International Journal of Electronic Government Research
Acquiring logistics process intelligence: Methodology and an application for a Chinese bulk port
Expert Systems with Applications: An International Journal
A hierarchical model of the impact of RFID practices on retail supply chain performance
Expert Systems with Applications: An International Journal
Hi-index | 12.07 |
This paper presents an intelligent traffic management expert system with RFID technology. The system provides both practically important traffic data collection and control information and can trace criminal or illegal vehicles such as stolen cars or vehicles that evade tickets, tolls or vehicle taxes. The system architecture consists of an RFID reader, a passive tag, a personal computer, a pair of infrared sensors, and a high-speed server with a database system. Based on RFID technology, the system collects and calculates average speed and average flow information on each road of a district area in a city. It then transmits the messages from all the congested roads in a district area to the server in the district center via a communication program. Through a flooding algorithm, each server in a district center exchanges and updates information with all neighbor servers in other district centers so all that the servers in various district centers can get all the latest congestion messages in a city. Therefore, a dynamic navigation system can find the shortest path that avoids congested roads. Meanwhile, we compare three types of tags for choosing a better solution for e-plates in the future. We also adopt infrared sensors for detecting cars that do not have a tag.