Fast near-optimal subnetwork selection in layered relay networks

Kolte, Ritesh; Özgür, Ayfer

doi:10.1109/allerton.2014.7028597

Cited by 3 publications

(3 citation statements)

References 14 publications

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“…Another thread of related work pertains to algorithm design for finding near-optimal subnetworks. [21] and [22] made progress in that direction, by providing low-complexity heuristic algorithms for near-optimal relay selection. The work of [23], [24] proposed algorithms for only selecting the best route (in terms of cooperative diversity) in one-layer networks.…”

Section: A Related Workmentioning

confidence: 99%

Wireless Network Simplification: The Performance of Routing

Ezzeldin

Sengupta

Fragouli

2020

IEEE Trans. Inform. Theory

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Consider a wireless Gaussian network where a source wishes to communicate with a destination with the help of N full-duplex relay nodes. Most practical systems today route information from the source to the destination using the best path that connects them. In this paper, we show that routing can in the worst case result in an unbounded gap from the network capacity -or reversely, physical layer cooperation can offer unbounded gains over routing. More specifically, we show that for N -relay Gaussian networks with an arbitrary topology, routing can in the worst case guarantee an approximate fraction 1 N/2 +1 of the capacity of the full network, independently of the SNR regime. We prove that this guarantee is fundamental, i.e., it is the highest worst-case guarantee that we can provide for routing in relay networks. Next, we consider how these guarantees are refined for Gaussian layered relay networks with L layers and N L relays per layer. We prove that for arbitrary L and N L , there always exists a route in the network that approximately achieves at least 2 (L−1)N L +4 resp. 2 LN L +2 of the network capacity for odd L (resp. even L), and there exist networks where the best routes exactly

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Section: A Related Workmentioning

confidence: 99%

Wireless Network Simplification: The Performance of Routing

Ezzeldin

Sengupta

Fragouli

2020

IEEE Trans. Inform. Theory

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“…Another thread of related work pertains to algorithm design for finding near-optimal subnetworks. [5] and [6] made progress in that direction, by providing low-complexity heuristic algorithms for near-optimal relay selection.…”

Section: Introductionmentioning

confidence: 99%

Wireless network simplification: Beyond diamond networks

Ezzeldin

Sengupta

Fragouli

2016

2016 IEEE International Symposium on Information Theory (ISIT)

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Abstract-We consider an arbitrary layered Gaussian relay network with L layers of N relays each, from which we select subnetworks with K relays per layer. We prove that: (i) For arbitrary L, N and K = 1, there always exists a subnetwork that approximately achievesof the network capacity for odd L (resp. even L), (ii) For L = 2, N = 3, K = 2, there always exists a subnetwork that approximately achieves 1 2 of the network capacity. We also provide example networks where even the best subnetworks achieve exactly these fractions (up to additive gaps). Along the way, we derive some results on MIMO antenna selection and capacity decomposition that may also be of independent interest.

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“…The performance guarantees for the scenario where a subset of two relays per layer is selected from a network with two layers of three relays each is also provided. The progress in the second direction is made by [18] and [19], where low-complexity heuristic algorithms for the selection of near-optimal relay subnetwork of a given size from a layered Gaussian relay network is provided. Previously, in cooperative communication literature also, the notion of relay selection has been used [20]- [22].…”

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confidence: 99%

Network Simplification for Secure AF Relaying

Agrawal,

Agnihotri

2016

Preprint

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We consider a class of Gaussian layered networks where a source communicates with a destination through L intermediate relay layers with N nodes in each layer in the presence of a single eavesdropper which can overhear the transmissions of the nodes in the last layer. For such networks we address the question: what fraction of maximum secure achievable rate can be maintained if only a fraction of available relay nodes are used in each layer? In particular, we provide upper bounds on additive and multiplicative gaps between the optimal secure AF when all N relays in each layer are used and when only k, 1 ď k ă N , relays are used in each layer. We show that asymptotically (in source power), the additive gap increases at most logarithmically with ratio N {k and L, and the corresponding multiplicative gap increases at most quadratically with ratio N {k and L. To the best of our knowledge, this work offers the first characterization of the performance of network simplification in layered amplify-and-forward relay networks in the presence of an eavesdropper.

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Fast near-optimal subnetwork selection in layered relay networks

Cited by 3 publications

References 14 publications

Wireless Network Simplification: The Performance of Routing

Wireless Network Simplification: The Performance of Routing

Wireless network simplification: Beyond diamond networks

Network Simplification for Secure AF Relaying

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