This paper proposes a hybrid wireless mesh network (WMN) architecture that allows the backbone to utilize random connections to access points (APs) in a wireless local area network (WLAN). Theoretical analysis shows that the capacity of a three-tier hybrid WMN is affected by the number of mesh router cells connected to APs, the ratio of access link bandwidth to backbone link bandwidth, and traffic balance among routers with AP access. Simulation results demonstrate that configuring APs and balancing traffic can significantly improve network capacity in the proposed hybrid architecture by taking advantage of wired connections through APs.
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Dynamic Topology Re-Configuration in Multihop Cellular Networks Using Sequent...IJERA Editor
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Dynamic Topology Re-Configuration in Multihop Cellular Networks Using Sequent...IJERA Editor
Cellular communications has experienced explosive growth in the past two decades. Today millions of people around the world use cellular phones. Cellular phones allow a person to make or receive a call from almost anywhere. Likewise, a person is allowed to continue the phone conversation while on the move. Cellular communications is supported by an infrastructure called a cellular network, which integrates cellular phones into the public switched telephone network. The cellular network has gone through three generations.The first generation of cellular networks is analog in nature. To accommodate more cellular phone subscribers, digital TDMA (time division multiple access) and CDMA (code division multiple access) technologies are used in the second generation (2G) to increase the network capacity. With digital technologies, digitized voice can be coded and encrypted. Therefore, the 2G cellular network is also more secure. The third generation (3G) integrates cellular phones into the Internet world by providing highspeed packet-switching data transmission in addition to circuit-switching voice transmission. The 3G cellular networks have been deployed in some parts of Asia, Europe, and the United States since 2002 and will be widely deployed in the coming years. The high increase in traffic and data rate for future generations of mobile communication systems, with simultaneous requirement for reduced power consumption, makes Multihop Cellular Networks (MCNs) an attractive technology. To exploit the potentials of MCNs a new network paradigm is proposed in this paper. In addition, a novel sequential genetic algorithm (SGA) is proposed as a heuristic approximation to reconfigure the optimum relaying topology as the network traffic changes. Network coding is used to combine the uplink and downlink transmissions, and incorporate it into the optimum bidirectional relaying with ICI awareness. Numerical results have shown that the algorithms suggested in this thesis provide significant improvement with respect to the existing results, and are expected to have significant impact in the analysis and design of future cellular networks.
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List of Wireless Communication IEEE 2006 Projects. It Contains the IEEE Projects in the Domain Wireless Communication for M.Phil Computer Science students.
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Capacity of hybrid wireless mesh networks with random a ps
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CAPACITY OF HYBRID WIRELESS MESH NETWORKS
WITH RANDOM APS
ABSTRACT:
This paper proposes hybrid WMN architecture that the backbone is able to utilize random
connections to Access Points (APs) of Wireless Local Area Network (WLAN). In such a
proposed hierarchal architecture, capacity enhancement can be achieved by letting the traffic
take advantage of the wired connections through APs.
Theoretical analysis has been conducted for the asymptotic capacity of three-tier hybrid WMN,
where per-MR capacity in the backbone is first derived and per-MC capacity is then obtained.
Besides related to the number of MR cells as a conventional WMN, the analytical results reveal
that the asymptotic capacity of a hybrid WMN is also strongly affected by the number of cells
having AP connections, the ratio of access link bandwidth to backbone link bandwidth, etc.
APs configuration of the network can drastically improve the network capacity in our proposed
network architecture. It also shows that the traffic balance among the MRs with AP access is
very important to have a tighter asymptotic capacity bound. The results and conclusions justify
the perspective of having such a hybrid WMN utilizing widely deployed WLANs.