Cross-Layer Design for Dynamic Resource Allocation in Wireless Networks

Abstract

In this paper, a novel analytical cross-layer design framework for dynamic resource management of wireless networks is proposed. First, dynamic bandwidth and time resource allocation policies for a single-user under fading channels that maximize capacity are derived. The analysis is then extended to multi-user environments, where the resource allocation is jointly optimized across both physical and data linklayers. A closed-form expression of a QoS measure, mean delay in this case, is derived as a function of layer 2 traffic, multiple access contention from other users, and allocated data-rates at the physical layer. This mean delay expression is then used to efficiently allocate physical layer resources. We also study the effects of various contention mitigation policies on network capacity and average latency under optimum resource allocation strategies.

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Document Details

Document Type
Technical Report
Publication Date
May 01, 2004
Accession Number
AD1125117

Entities

People

  • Ali Saidi
  • John Y. Kim
  • Randall J. Landry

Organizations

  • MITRE Corporation

Tags

Communities of Interest

  • Energy and Power Technologies

DTIC Thesaurus Topics

  • 4G Wireless Networks
  • Ad Hoc Networks
  • Adaptive Communications
  • Adaptive Systems
  • Bandwidth
  • Channel Allocation
  • Co-Channel Interference
  • Communication Systems
  • Data Links
  • Data Rate
  • Information Theory
  • Mesh Networks
  • Multiple Access
  • Networks
  • New York
  • Power Levels
  • Probability
  • Radio Equipment
  • Resource Management
  • Sensor Networks
  • Signal Processing
  • Statistics
  • Wireless Communications
  • Wireless Networks

Fields of Study

  • Computer science

Readers

  • Distributed Systems and Data Platform Development
  • Operations Research
  • Radio communications and signal processing.