Spatial tessellations: concepts and applications of Voronoi diagrams
Spatial tessellations: concepts and applications of Voronoi diagrams
The Art of Computer Programming Volumes 1-3 Boxed Set
The Art of Computer Programming Volumes 1-3 Boxed Set
Wireless Communications: Principles and Practice
Wireless Communications: Principles and Practice
Introduction to Algorithms
Mobility increases the capacity of ad hoc wireless networks
IEEE/ACM Transactions on Networking (TON)
Throughput capacity of random ad hoc networks with infrastructure support
Proceedings of the 9th annual international conference on Mobile computing and networking
UCAN: a unified cellular and ad-hoc network architecture
Proceedings of the 9th annual international conference on Mobile computing and networking
Capacity bounds for three classes of wireless networks: asymmetric, cluster, and hybrid
Proceedings of the 5th ACM international symposium on Mobile ad hoc networking and computing
Capacity bounds for ad hoc and hybrid wireless networks
ACM SIGCOMM Computer Communication Review
On Mobility-Capacity-Delay Trade-off in Wireless Ad Hoc Networks
MASCOTS '04 Proceedings of the The IEEE Computer Society's 12th Annual International Symposium on Modeling, Analysis, and Simulation of Computer and Telecommunications Systems
On the throughput scaling of wireless relay networks
IEEE/ACM Transactions on Networking (TON) - Special issue on networking and information theory
Degenerate delay-capacity tradeoffs in ad-hoc networks with Brownian mobility
IEEE/ACM Transactions on Networking (TON) - Special issue on networking and information theory
Capacity of a wireless ad hoc network with infrastructure
Proceedings of the 8th ACM international symposium on Mobile ad hoc networking and computing
The capacity of wireless networks
IEEE Transactions on Information Theory
Optimal throughput-delay scaling in wireless networks - part I: the fluid model
IEEE Transactions on Information Theory
Throughput and Delay in Random Wireless Networks With Restricted Mobility
IEEE Transactions on Information Theory
Capacity of ad hoc wireless networks with infrastructure support
IEEE Journal on Selected Areas in Communications
Improved throughput bounds for interference-aware routing inwireless networks
COCOON'07 Proceedings of the 13th annual international conference on Computing and Combinatorics
Capacity of mobile ad hoc network with infrastructure support
APCC'09 Proceedings of the 15th Asia-Pacific conference on Communications
Throughput, delay, and mobility in wireless ad hoc networks
INFOCOM'10 Proceedings of the 29th conference on Information communications
The capacity of heterogeneous wireless networks
INFOCOM'10 Proceedings of the 29th conference on Information communications
On the connectivity analysis over large-scale hybrid wireless networks
INFOCOM'10 Proceedings of the 29th conference on Information communications
Capacity of hybrid wireless networks with directional antenna and delay constraint
IEEE Transactions on Communications
Multicast performance with hierarchical cooperation
IEEE/ACM Transactions on Networking (TON)
Capacity bounds of three-dimensional wireless ad hoc networks
IEEE/ACM Transactions on Networking (TON)
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An optical network is too costly to act as a broad-band access network. On the other hand, a pure wireless ad hoc network with n nodes and total bandwidth of W bits per second cannot provide satisfactory broadband services since the pernode throughput diminishes as the number of users goes large. In this paper, we propose a hybrid wireless network, which is an integrated wireless and optical network, as the broadband access network. Specifically, we assume a hybrid wireless network consisting of n randomly distributed normal nodes, and m regularly placed base stations connected via an optical network. A source node transmits to its destination only with the help of normal nodes, i.e., in the ad hoc mode, if the destination can be reached within L (L ≥ 1) hops from the source. Otherwise, the transmission will be carried out in the infrastructure mode, i.e., with the help of base stations. Two transmission modes share the same bandwidth of W bits/sec. We first study the throughput capacity of such a hybrid wireless network, and observe that the throughput capacity greatly depends on the maximum hop count L and the number of base stations m. We show that the throughput capacity of a hybrid wireless network can scale linearly with n only if m = Ω(n), and when we assign all the bandwidth to the infrastructure mode traffics. We then investigate the delay in hybrid wireless networks. We find that the average packet delay can be maintained as low as Θ(1) even when the per-node throughput capacity is Θ(W).