參考文獻 |
[1] Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs), Submission Title: Visible Light Communication: Tutorial, Mar. 9 2008, doc.: IEEE 802.15 <08/0114-02>
[2] “世界領先 孫慶成教授發表新LED光色封裝技術,” 國立中央大學
[Online] Available: http://pine.cc.ncu.edu.tw/~ncutop1/?post_type=featured&p=1302 [Accessed: June 20, 2014]
[3] 蘇忠傑, “白光LED封裝技術,” 國立臺灣科技大學
[Online] Available: http://cece2.ntust.edu.tw/ezcatfiles/cece2/homepage/14/LED.htm [Accessed: June 20, 2014]
[4] O′brien, D., Zeng, L., Hoa Le-Minh, Faulkner G., Walewski J.W. and Randel S., “Visible Light Communications: challenges and possibilities,” Personal, Indoor and Mobile Radio Communications, 2008. PIMRC 2008. IEEE 19th International Symposium on, pp. 1-5, Cannes, Sep. 2008
[5] 蘇緣峻, “利用光感測器陣列實現可見光通訊之干擾消除技術,” 國立臺北科技大學, July 2011
[6] Afgani, M.Z., Haas H., Elgala H. and Knipp D., “Visible Light Communication Using OFDM,” IEEE Testbeds and Research Infrastructures for the Development of Networks and Communities, 2006. TRIDENTCOM 2006. 2nd International Conference on, Barcelona, March 2006
[7] Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs), Submission Title: VLC Dimming Proposal, Sep. 20 2009, doc.: IEEE 802.15- 15-09-0641-00-0007
[8] Kwonhyung Lee and Hyuncheol Park, “Modulation for Visible Light Communications With Dimming Control,” IEEE Photonics Technology Letters, vol. 23, No. 16, Aug. 15 2011
[9] Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs), Title: Samsung, Intel, ETRI and CSUS merged proposal text, Nov. 2009, doc.: IEEE P802.15-09-0786-01-0007
[10] Elgala H., Mesleh R. and Haas H., “Indoor Broadcasting via White LEDs and OFDM,” IEEE Transactions on Consumer Electronics, Vol. 55, No. 3, pp. 1127-1134, Aug. 2009
[11] Tanaka Y., Komine T., Haruyam, S. and Nakagawa M., “Indoor Visible Communication utilizing Plural White LEDs as Lighting,” Personal, Indoor and Mobile Radio Communications, 2001 12th IEEE International Symposium on, Vol. 2, Sep. 2001
[12] Dayou Qian, Cvijetic N., Junqiang Hu and Ting Wang, “Optical OFDM Transmission in Metro/Access networks,” Optical Fiber Communication - incudes post deadline papers, 2009. OFC 2009. Conference on, IEEE, pp. 1-3, Mar. 2009
[13] Schmidt B., Lowery A.J. and Armstrong J., “Experimental Demonstrations of Electronic Dispersion Compensation for Long-Haul Transmission Using Direct-Detection Optical OFDM,” Journal of Lightwave Technology, Vol. 26, No. 1, pp. 196-203, Jan. 2008
[14] Kanonakis K., Tomkos I., Krimmel H., Schaich F., Lange C. and others, “An OFDMA-based Optical Access Network Architecture Exhibiting Ultra-High Capacity and Wireline-Wireless Convergence,” IEEE Communications Magazine, Vol. 50, No. 8, pp. 71-78, Aug. 2012
[15] Xie Zhang, Kaiyun Cui, Minyu Yao, Hongming Zhang and Zhengyuan Xu, “Experimental Characterization of Indoor Visible Light Communication Channels,” Communication Systems, Networks & Digital Signal Processing (CSNDSP), 2012 8th International Symposium on, IEEE, pp. 1-5, July 2012
[16] Komine T. and Nakagawa, M., “Fundamental Analysis for Visible-Light Communication System using LED Lights,” IEEE Transaction on Consumer Electronics, Vol. 50, No. 1, pp. 100-107, Feb. 2004
[17] Lubin Zeng, O′Brien D., Hoa Le-Minh, Kyungwoo Lee, Daekwang Jung and Yunje Oh, “Improvement of Date Rate by using Equalization in an Indoor Visible Light Communication System,” Circuits and Systems for Communications, 2008. ICCSC 2008. 4th IEEE International Conference on, pp.678-682, May. 2008
[18] J. B. Carruthers and S. M. Carroll, “Statistical impulse response models for indoor optical wireless channels,” International Journal of Communication Systems - Special Issue on Indoor Optical Wireless Communication Systems and Networks, Vol. 18, No. 3, pp. 267-284, April 2005
[19] Elgala H., Mesleh R., Haas, H. and Pricope B., “OFDM Visible Light Wireless Communication Based on White LEDs,” Vehicular Technology Conference, 2007. VTC2007-Spring. IEEE 65th, pp. 2185-2189, April 2007
[20] Saha N., Mondal R.K., Nam Tuan Le and Yeong Min Jang, “Mitigation of Interference Using OFDM in Visible Light Communication,” 2012 International Conference on ICT Convergence (ICTC), IEEE, pp. 159-162, Oct. 2012
[21] Komine T., Lee J.H., Haruyama S. and Nakagawa M., “Adaptive Equalization System for Visible Light Wireless Communication Utilizing Multiple White LED Lighting Equipment,” IEEE Transactions on Wireless Communications, Vol. 8, No. 6, pp. 2892-2900, June 2009
[22] “無線通道模型概論,” 國立中正大學 [Online] Available: http://web.ee.ccu.edu.tw/~wl/ofdm/class/class%20pdf/Channel%20model.pdf [Accessed: June 20, 2014]
[23] [Online] Available: http://viplab.cs.nctu.edu.tw/course/VLSI_DSP2010_Fall/VLSIDSP_CHAP6.pdf
[Accessed: June 20, 2014]
[24] Garrido M., Parhi K.K. and Grajal J., “A Pipelined FFT Architecture for Real-Valued Signals,” IEEE Transactions on Circuits and Systems – I: Regular Papers, Vol. 56, No. 12, pp. 2634-2643, Dec. 2009
[25] Ayinala M. and Parhi K.K., “FFT architectures for real-valued signals based on radix-23 and radix-24 algorithms,” IEEE Transactions on Circuits and Systems I: Regular Papers, Vol. 60, No. 9, pp. 2422-2430, Feb. 2013
[26] Salehi S.A., Amirfattahi R. and Parhi K.K., “Pipelined Architectures for Real-Valued FFT and Hermitian-Symmetric IFFT with Real Datapaths,” IEEE Transactions on Circuits and Systems II: Express Briefs, Vol. 60, No. 8, pp. 507-511, Aug. 2013
[27] Ayinala M., Brown M. and Parhi K.K., “Pipelined Parallel FFT Architectures via Folding Transformation,” IEEE Transactions on VLSI Systems, Vol. 20, No. 6, pp. 1068-1081, June 2012.
[28] T. D. Chiueh and Pei-Yun Tsai, “OFDM Baseband Receiver Design for Wireless Communications,” John Wiley, 2007.(ISBN: 978-0-470-82234-0)
[29] Elgala H., Mesleh, R. and Haas, H., “Practical Considerations for Indoor Wireless Optical System Implementation using OFDM,” IEEE Telecommunications, pp. 25-29, June 2009
|