Microcellular handoff using fuzzy techniques
Wireless Networks
Channel carrying: a novel handoff scheme for mobile cellular networks
IEEE/ACM Transactions on Networking (TON)
Mobile Communications Design Fundamentals
Mobile Communications Design Fundamentals
Simulation of Communication Systems: Modeling, Methodology and Techniques
Simulation of Communication Systems: Modeling, Methodology and Techniques
Modeling and Analysis of Fast Handoff Algorithms for Microcellular Networks
MASCOTS '02 Proceedings of the 10th IEEE International Symposium on Modeling, Analysis, and Simulation of Computer and Telecommunications Systems
An empirical analysis of the IEEE 802.11 MAC layer handoff process
ACM SIGCOMM Computer Communication Review
An overview of vertical handover decision strategies in heterogeneous wireless networks
Computer Communications
A novel terminal-controlled handover scheme in heterogeneous wireless networks
Computers and Electrical Engineering
Vertical handoff procedure and algorithm between IEEE802.11 WLAN and CDMA cellular network
CIC'02 Proceedings of the 7th CDMA international conference on Mobile communications
Dynamic slot assignment protocol for QoS support on TDMA-based mobile networks
Computer Standards & Interfaces
IEEE Communications Magazine
Terminal-Controlled Mobility Management in Heterogeneous Wireless Networks
IEEE Communications Magazine
Localized handoff architectures for seamless access in wireless networks
Computers and Electrical Engineering
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In this paper, we present a time-series analysis technique which covers the basic concepts and mechanisms driving the wireless propagation channel. We also use a generated series for simulation study of Handoff performance showing the impact of multipath phenomena. Moreover, the extraction of the average signal has been used to reduce significantly the number of unnecessary Handoffs. The wireless propagation channel modeling is based on the linear model concept of the received power from the access point (AP). This concept has a crucial role in modeling new decentralized Handoff based on the ratio of expected and current signal slopes already provided by the linear model. Hence, a fuzzy-based solution is developed and a comparison with the analytical solution results is established. Until recently, Handoff mechanisms are implemented entirely in software, which increasingly becoming infeasible. Therefore, this work attempt to follow the top-down co-design approach providing hardware prototype which leads to reduce the power consumption and support high processing speed.