A Enhanced Monotone Wi-Fi Offloading Model Based Data Communication in Network
International Journal of Computer Science (IJCS) Published by SK Research Group of Companies (SKRGC)
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Abstract
The interest for rapid portable Internet administrations has expanded drastically. An ongoing study uncovers that Internet get to be anticipated to be a standard component of future engine vehicles. Travelers in the vehicle need to be associated at home or office, and may require fluctuated Internet administrations, for example, web surfing, email, the web based diversion, sound and video gushing, among others. In propose an enhanced monotone offloading model, where multiple wireless networks are used to transfer mobile data. Mobile can minimize the total communication cost by selecting different networks. Wi-Fi offloading techniques can be classified into: (1) auction game-based offloading and (2) congestion game-based offloading. To offload cellular traffic of vehicular users through carrier-WiFi networks based on game-theory approaches, jointly considering the utilities of vehicular users and the mobile network operator, and the overall offloading performance. Specifically, in the auction game-based offloading mechanism, periodic auctions is employed for the mobile network operators to sell WiFi access opportunities. Vehicular users calculate their utilities and submit bids if the utility is positive. In this research, focus to predict Wi-Fi offloading potential and access cost is introduced and incorporated in the proposed finite horizon markov decision process offloading mechanisms to make offloading decisions efficiently. Each Vehicular Users make an offloading decision based on the strategies of other Vehicular Users and its own satisfaction function to maximize their own utility. In this design of offloading mechanisms in order to improve the overall offloading performance. Enhancing the limit is the essential impetus, which can be additionally arranged as far as postpone strategies. From administrators' and clients' point of view, likewise examine state-of-the-arts different impetuses of WiFi offloading, for example, cost minimization, vitality utilization sparing, and enhancing rate. Moreover, WiFi offloading plans that endeavor to upgrade congruity to manage visit interruption issues, are additionally researched, particularly for vehicular situations. At long last, future research bearings and difficulties for WiFi offloading methodologies are displayed in different motivating forces of WiFi offloading.
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Keywords
Wi-fi offloading, heterogeneous network, cost minimization
