رکورد قبلیرکورد بعدی

" Traffic-Aware Spectrum Sharing Protocols "


Document Type : Latin Dissertation
Language of Document : English
Record Number : 899123
Doc. No : TL63n1n4nc
Main Entry : O'Malley, Corey Susan
Title & Author : Traffic-Aware Spectrum Sharing Protocols\ Liu, Chun-HaoCabric, Danijela
Date : 2015
student score : 2015
Abstract : Current radio frequency (RF) spectrum is shown to be highly underutilized in both spatial and temporal domain. One potential solution to improve the spectrum utilization is through cognitive radio (CR). Traditional CR approach adopts the sense-and-transmit strategy to exploit more transmission opportunities. After CR senses the RF channel, it will utilize this channel as long as it is not occupied by licensed users. However, there are some limitations using this approach. First, if the licensed users appear while CR is transmitting on the same channel, the collision occurs. Second, if the licensed users stop transmitting and CR does not detect this opportunity, the throughput loss occurs. In this dissertation, we focus on studying the statistical properties of the licensed channel bands, and explore the approaches to exploit the traffic knowledge to improve the traditional CR strategy. The statistical knowledge of the busy/idle period on the licensed channel allows CR to switch to better channels to increase throughput. To this end, our goal is to develop traffic-aware spectrum sharing protocols. As a first step, we proposed a traffic classifier to classify the distribution for the idle/busy period using less number of observations and extended to the cases where there is no perfect knowledge of traffic parameters and periods. We also proposed a traffic prediction algorithm based on Markov chain derivation and estimated traffic parameters, and we analyzed the impact of estimation errors on the prediction accuracy. Based on this result, we further designed spectrum sharing protocols with multi-channel sensing strategies for CR users. The CR users are scheduled for their transmission and cooperative sensing strategies in order to achieve maximal user throughput. We proposed to solve the scheduling optimization problem with four low-complexity strategies, i.e., sequential, parallel, sequential-parallel, and iterative-parallel sensing strategies. The optimal sensing order for sequential strategy was derived, and we also pro- posed several heuristics to further reduce the computation complexity for other strategies. Furthermore, this protocol is designed to be robust to both channel and traffic uncertainties.
Added Entry : Liu, Chun-Hao
Added Entry : UCLA
کپی لینک

پیشنهاد خرید
پیوستها
عنوان :
نام فایل :
نوع عام محتوا :
نوع ماده :
فرمت :
سایز :
عرض :
طول :
63n1n4nc_462639.pdf
63n1n4nc.pdf
پایان نامه لاتین
متن
application/pdf
1.76 MB
85
85
نظرسنجی
نظرسنجی منابع دیجیتال

1 - آیا از کیفیت منابع دیجیتال راضی هستید؟