Abstract
In this article, we propose an incentive-based resource allocation scheme for wireless relay networks. The aim of this article is to construct efficient multicast routes that serve as many users as possible with a given resource budget. First, we introduce a new resource allocation problem called Multi-Hop Multicast Maximization (MHMM). Then, we present our heuristic Incentive-Based Route Construction (IBRC) scheme, which enables each node to construct an efficient allocation separately and selfishly. We prove that the MHMM problem is NP-complete, and demonstrate that IBRC has polynomial-time complexity. Moreover, under the scheme, each node has an incentive to operate as designed. IBRC's signaling overhead is much lower than that of the conventional centralized approach, and the results of simulations demonstrate that IBRC can motivate relay nodes to provide efficient and stable resource allocations. The results also show that the revenue distribution among nodes is reasonable because it reflects the utility provided by each node. Multicast services deployed under IBRC are efficient and achieve a good performance, but only incur a low overhead.
Highlights
Modern wireless access networks, such as IEEE 802.16 and IEEE 802.11, provide broad coverage and achieve high transmission rates
We formulate the problem as Multi-Hop Multicast Maximization (MHMM) and propose an economics-based algorithm called Incentive-Based Route Construction (IBRC) to resolve it
Each agent, including the Base Station (BS), Relay Station (RS), and the Bandwidth Broker (BB), decides its best strategy based on the local information and its own incentive, so it can operate selfishly and independently
Summary
Modern wireless access networks, such as IEEE 802.16 and IEEE 802.11, provide broad coverage and achieve high transmission rates. They typically comprise two classes of nodes, namely, a Base Station (BS) and Subscriber Stations (SSs). The BS serves as a gateway to the wired network, while the SSs can be various kinds of mobile or static client devices. The IEEE 802.16j standard [1] includes support for RSs in IEEE 802.16 networks; while a number of articles, such as [2,3,4], consider IEEE 802.11 multi-hop networks, which allow transit APs to relay packets for mobile users
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