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Radio resource allocation over fading channels under statistical delay constraints

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Radio resource allocation over fading channels under statistical delay constraints/ by Tho Le-Ngoc, Khoa Tran Phan.
Author:	Le-Ngoc, Tho.
other author:	Phan, Khoa Tran.
Published:	Cham :Springer International Publishing : : 2017.,
Description:	xii, 117 p. :ill., digital ; : 24 cm.;
Contained By:	Springer eBooks
Subject:	Radio frequency allocation. -
Online resource:	http://dx.doi.org/10.1007/978-3-319-57693-0
ISBN:	9783319576930

Radio resource allocation over fading channels under statistical delay constraints
Le-Ngoc, Tho.

Radio resource allocation over fading channels under statistical delay constraints[electronic resource] /by Tho Le-Ngoc, Khoa Tran Phan. - Cham :Springer International Publishing :2017. - xii, 117 p. :ill., digital ;24 cm. - SpringerBriefs in electrical and computer engineering,2191-8112. - SpringerBriefs in electrical and computer engineering..

1 Introduction -- 2 Power Allocation over Fading Channels under Delay Constraints: A Literature Review -- 3 Joint Data Admission Control and Power Allocation under Average Delay Constraint -- 4 Power Allocation with Energy Harvesting under Statistical Delay Constraints -- 5 Resource Allocation for Buffer-Aided Half-Duplex Relaying under Delay-Outage Constraint -- 6 Power Allocation for Buffer-Aided Full-Duplex Relaying under Delay-Outage Constraint.

This SpringerBrief presents radio resource allocation schemes for buffer-aided communications systems over fading channels under statistical delay constraints in terms of upper-bounded average delay or delay-outage probability. This Brief starts by considering a source-destination communications link with data arriving at the source transmission buffer. The first scenario, the joint optimal data admission control and power allocation problem for throughput maximization is considered, where the source is assumed to have a maximum power and an average delay constraints. The second scenario, optimal power allocation problems for energy harvesting (EH) communications systems under average delay or delay-outage constraints are explored, where the EH source harvests random amounts of energy from renewable energy sources, and stores the harvested energy in a battery during data transmission. Online resource allocation algorithms are developed when the statistical knowledge of the random channel fading, data arrivals, EH processes governing the system dynamics is unknown a-priori. This Brief continues with a source-relay-destination communications link with buffers available at both source and relay, as part of a multi-hop network. Optimal resource allocation schemes for this 3-node relaying system to maximize its effective capacity under a delay-outage constraint are proposed, with special emphasis on relay roles: Half-duplex (HD) or full-duplex (FD) relay operation. With HD relay, the adaptive link selection relaying problem jointly with both fixed and adaptive power allocation schemes is investigated. Within each transmission frame, either the source-relay link or the relay-destination link is selected to be active depending on the channel conditions. With FD relay under the presence of non-zero residual self-interference (SI) This Brief also presents source and relay power allocation schemes for both cases of available knowledge of the channel state information at transmitter (CSIT): instantaneous or statistical. Professional and researchers working in this related field and advanced-level students in electrical or computer engineering will find the content valuable as a reference.

ISBN: 9783319576930

Standard No.: 10.1007/978-3-319-57693-0doiSubjects--Topical Terms:

563500
Radio frequency allocation.

LC Class. No.: TK5103.4873

Dewey Class. No.: 621.384

Radio resource allocation over fading channels under statistical delay constraints
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505 0 $a 1 Introduction -- 2 Power Allocation over Fading Channels under Delay Constraints: A Literature Review -- 3 Joint Data Admission Control and Power Allocation under Average Delay Constraint -- 4 Power Allocation with Energy Harvesting under Statistical Delay Constraints -- 5 Resource Allocation for Buffer-Aided Half-Duplex Relaying under Delay-Outage Constraint -- 6 Power Allocation for Buffer-Aided Full-Duplex Relaying under Delay-Outage Constraint.
520 $a This SpringerBrief presents radio resource allocation schemes for buffer-aided communications systems over fading channels under statistical delay constraints in terms of upper-bounded average delay or delay-outage probability. This Brief starts by considering a source-destination communications link with data arriving at the source transmission buffer. The first scenario, the joint optimal data admission control and power allocation problem for throughput maximization is considered, where the source is assumed to have a maximum power and an average delay constraints. The second scenario, optimal power allocation problems for energy harvesting (EH) communications systems under average delay or delay-outage constraints are explored, where the EH source harvests random amounts of energy from renewable energy sources, and stores the harvested energy in a battery during data transmission. Online resource allocation algorithms are developed when the statistical knowledge of the random channel fading, data arrivals, EH processes governing the system dynamics is unknown a-priori. This Brief continues with a source-relay-destination communications link with buffers available at both source and relay, as part of a multi-hop network. Optimal resource allocation schemes for this 3-node relaying system to maximize its effective capacity under a delay-outage constraint are proposed, with special emphasis on relay roles: Half-duplex (HD) or full-duplex (FD) relay operation. With HD relay, the adaptive link selection relaying problem jointly with both fixed and adaptive power allocation schemes is investigated. Within each transmission frame, either the source-relay link or the relay-destination link is selected to be active depending on the channel conditions. With FD relay under the presence of non-zero residual self-interference (SI) This Brief also presents source and relay power allocation schemes for both cases of available knowledge of the channel state information at transmitter (CSIT): instantaneous or statistical. Professional and researchers working in this related field and advanced-level students in electrical or computer engineering will find the content valuable as a reference.
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