Non-Overlapping Allocation MAC for Collision Avoidance in Distributed Cognitive Radio Networks
- 주제(키워드) Cognitive Radio , MAC
- 발행기관 아주대학교
- 발행년도 2012
- 학위수여년월 2012. 8
- 학위명 석사
- 학과 및 전공 일반대학원 컴퓨터공학과
- 실제URI http://www.dcollection.net/handler/ajou/000000012949
- 본문언어 영어
- 저작권 아주대학교 논문은 저작권에 의해 보호받습니다.
초록/요약
Recently, the rapid growth of wireless services has made the demand for wireless spectrum more enormous than ever. A study by Federal Communication Commission (FCC) shows that spectrum was not efficiently used due to the fixed spectrum assignment policy. Cognitive Radio is a new technology that is proposed to tackle such problem. Cognitive Radio (CR) enables secondary users (SUs) to temporarily use the spectrum whenever it is unused by primary users (PUs). By dynamically assigned the use of spectrum between PUs and SUs, the spectrum is much more efficiently used. In this thesis, a Non-Overlapping Allocation MAC protocol (NOA-MAC) has been proposed to facilitate the coexisting of SUs and PUs in decentralized CR networks. In NOA-MAC, PU activity is modeled as two-state Continuous Time Markov Chain, which allows SUs to perform spectrum sensing to detect spectrum opportunities in which they can opportunistically transmit data. Then, spectrum opportunities are share among SUs by a non-overlapping slots allocation scheme, which coordinates SUs to exchange spectrum information on a common control channel and schedule their transmissions independent of each other. Since spectrum access in NOA-MAC is done in a slotted structure and slots allocation scheme assigns non-overlapping slots to SUs competing for the same spectrum band, collision is avoided. As a result, throughput can be improved, which is the main objective of NOA-MAC. Simulation is done in OPNET Modeler with various scenarios from multi-user access scenario with normal to high collision condition to evaluate performance of NOA-MAC in both throughput and end-to-end delay.
more목차
1. INTRODUCTION 1
2. BACKGROUND 4
2.1. Cognitive Radio Networks 4
2.2. Spectrum Management Framework for CRAHNs 6
2.2.1. Cognitive Cycle in CRAHNs 6
2.2.2. Spectrum Sensing 8
2.2.3. Spectrum Access 10
2.3. Common Control Channel 11
2.4. Related works 13
3. PROPOSED SCHEME 19
3.1. Problem Statement 19
3.2. System Model 20
3.2.1. Network Model 20
3.2.2. Spectrum Sensing Model 21
3.3. Extension of IS-MA in Multi-user Environment: OIS-MA 22
3.3.1. Motivation 22
3.3.2. Extending procedure 24
3.4. Non-Overlapping Allocation MAC (NOA-MAC) 26
3.4.1. Assumptions 26
3.4.2. Overview 27
3.4.3. Negotiation Mechanism 28
3.4.4. Collision Avoidance Mechanism 34
4. PERFORMANCE EVALUATION 37
4.1. Simulation Setup 37
4.2. Simulation Results 39
4.2.1. Multi-user Access Scenario with Normal Collision Condition 39
4.2.2. Multi-user Access Scenario with High Collision Condition 41
5. CONCLUSION 44
REFERENCES 45
