- 學位論文
以生物模型探討認知無線網路之動態時變
Biological approaches to the Dynamics of Cognitive Radio Networks
若您是本文的作者,可授權文章由華藝線上圖書館中協助推廣。
摘要
在今日的頻譜分配策略下,為了提高頻譜利用率,感知無線電技術是眾所周知的一種加強效果的方法。通過伺機傳輸鏈路級,感知無線電技術能在今日的網路頻譜分配政策下有效提供一種頻譜使用率過低的問題。然而,使用頻譜感知無線電技術之後的系統時間動態相當未知。我們注意到,該系統行為是在一個共存的不同物種之間的相互作用非常相似生態系統。因此,我們以著名的的優勢兩個代表異構用戶的天敵種類飼料實物捕食代表資源。用人自然種群動態的頻譜共享的生態系統,以如此的生態模型,我們可以有效地識別感知無線電網路的時間動態和開發有效的方法來實現的感知無線電系統穩定性評估。論文的第一部分將簡述生態模型的歷史以及眾多分類。我們考慮到使用生態模型以及其數學模型的理論分析以及性質。第二部分將此模型應用到三個不同的感知無線電系統以及其時間動態分析,以著名的捕食與被捕食模型的優勢兩個代表異構用戶的天敵種類飼料實物捕食代表資源並以不同的網路作為分析對象以闡明感知無線電網路的時間特性。第三部分則簡述了使用空間蓋念的生態模型來描述一感知無線電網路的時間動態以及其系統分析。最後我們在最後一章對於整個研究的貢獻做出了簡單的結論以及此研究未來的發展方向。
並列摘要
Cognitive radio technology is well known to enhance spectrum utilization via opportunistic transmission at link level. However, the time dynamics of spectrum utilization among primary system users and secondary cognitive radio users in such cognitive radio networks are pretty unknown at this time. We note that the system behaviors are very similar to interaction among different species coexisting in an ecosystem. Therefore, we take advantage of well-known predator-prey model where two species of predators representing heterogeneous users feed on the one specie of prey representing resources. Employing nature population dynamics in the spectrum sharing ecosystem, we could efficiently identify the time dynamics of CRs and the develop efficient ways to achieve system stability assessment for CRs.
參考文獻
[3] J. D. Murray, Mathematical Biology. Springer-Verlag, 1989.
[4] R. B. Kellogg, T. Y. Li, and J. Yorke, “A constructive proof of the brouwer fixed-point theorem and computational results,” SIAM Journal on Numerical Analysis, vol. 13, no. 4, pp. pp. 473–483, 1976.
[5] R. Chiang, G. Rowe, and K. Sowerby, “A quantitative analysis of spectral occupancy measurements for cognitive radio,” in Vehicular Technology Conference, 2007. VTC2007-Spring. IEEE 65th, april 2007, pp. 3016 –3020.
[6] “First report and order,” Federal Communication Commission Std. 02-48, Feb. 2002.
[8] S. Wright, “Evolution in mendelian population,” Genetics, vol. 16, no. 2, pp. 97–159, Mar. 1931.
延伸閱讀
- 蘇煒哲(2010)。以無線感測網路為基礎之動態監測網建立及解算〔碩士論文,國立臺灣大學〕。華藝線上圖書館。https://doi.org/10.6342/NTU.2010.01629
- 林姿伶、朱偲瑜、陳瑞欣、陳盈縈、朱育秀、周立偉(2019)。【論文摘要】發展偵測認知障礙之生物性運動知覺模式:初探研究。物理治療,44(4),305-306。https://doi.org/10.6215/FJPT.201912.P24
- Wu, R. T. (2009). 在無線感測網路中考慮覆蓋生命週期之群體智慧的佈置策略 [master's thesis, Tatung University]. Airiti Library. https://www.airitilibrary.com/Article/Detail?DocID=U0081-3001201315104353
- Durka, P. J., Blinowski, G. J., Klekowicz, H., Malinowska, U., Kuś, R., & Blinowska, K. J. (2009). Information Infrastructure for Cooperative Research in Neuroscience. Computational Intelligence and Neuroscience, 2009(), 70-74. https://doi.org/10.1155/2009/409624
- Perales, G. S., Femat, R., Wong, K. W., & Cantón, E. C. (2013). Complex Discrete Dynamics and Its Structures in Bioinspired Systems. Discrete Dynamics in Nature and Society, 2013(), 284-285-132. https://doi.org/10.1155/2013/591946