A Tree-Structured Intelligence Entity Pool and Its Sharing among Ubiquitous Objects
CSE '09 Proceedings of the 2009 International Conference on Computational Science and Engineering - Volume 02
Applications and design issues for mobile agents in wireless sensor networks
IEEE Wireless Communications
SARIF: A novel framework for integrating wireless sensor and RFID networks
IEEE Wireless Communications
International Journal of Communication Networks and Distributed Systems
SAPCC1G2: a mutual authentication protocol promote the security of RFID and WSN integration system
International Journal of Communication Networks and Distributed Systems
An Intercommunication Home Energy Management System with Appliance Recognition in Home Network
Mobile Networks and Applications
A secure handshake scheme with symptoms-matching for mHealthcare social network
Mobile Networks and Applications - Special issue on Wireless and Personal Communications
Body sensor network mobile solutions for biofeedback monitoring
Mobile Networks and Applications - Special issue on Wireless and Personal Communications
Energy-efficient and reliability-driven cooperative communications in cognitive body area networks
Mobile Networks and Applications - Special issue on Wireless and Personal Communications
International Journal of Electronic Government Research
International Journal of E-Health and Medical Communications
Layered Fault Management Scheme for End-to-end Transmission in Internet of Things
Mobile Networks and Applications
Wireless Personal Communications: An International Journal
ROCHAS: robotics and cloud-assisted healthcare system for empty nester
BodyNets '13 Proceedings of the 8th International Conference on Body Area Networks
Hi-index | 0.00 |
Radio frequency identification technology has received an increasing amount of attention in the past few years as an important emerging technology. However, the intrinsically passive features of existing RFID systems, to which we refer as first-generation RFID systems, render their adaptation to real-world dynamics in order to efficiently comply with up-to-date applicationspecific requirements difficult. To address this challenging issue, we propose an evolution to second-generation RFID systems characterized by the introduction of encoded rules that are dynamically stored in RFID tags. This novel approach facilitates the systems' operation to perform actions on demand for different objects in different situations, and enables improved scalability. Based on 2G-RFID-Sys, we propose a novel e-healthcare management system, and explain how it can be employed to leverage the effectiveness of existing ones. It is foreseeable that the flexibility and scalability of 2G-RFIDSys will support more automatic and intelligent applications in the future.