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[1] L. W. Fullerton, Spread Spectrum Radio Transmission System, U.S. Patent 4,641,317, February 1987. [2] Application Note 1628D, Understanding Power Transistor Breakdown Parameters, On Semiconductor. Available: http://onsemi.com. [3] W. B. Mitchell, "Avalanche transistors give fast pulses," Electronic Design, pp. 202-209, March 1968. [4] H. -M. Rein, "Subnanosecond-Pulse Generator with Variable Pulsewidth Using Avalanche Transistors," IEEE Electronics Letters, vol. 11, no. 1, pp. 21-23, January 1975. [5] E. K. Miller, ed., Time-Domain Measurements in Electromagnetics, Chapter 4, New York: Van Norstrand Reinhold, 1986. [6] Application Note 918, Pulse and Waveform Generation with Step Recovery Diodes, Hewlett Packard, October 1984. [7] R. Tielert, "Subnanosecond-Pulse Generator Employing 2-Stage Pulse Step Sharpener," IEEE Electronics Letters, vol. 12, no. 3, pp. 84-54, February 1976. [8] J. S. Lee, C. Nguyen, and T. Scullion, "New Uniplanar Subnanosecond Monocycle Pulse Generator and Transformer for Time-Domain Microwave Applications," IEEE Transactions on Microwave Theory and Techniques, vol. 49, no. 6, pp. 1126-1129, June 2001. [9] J. Han, and C. Nguyen, "A New Ultra-wideband, Ultra-Short Monocycle Pulse Generator with Reduced Ringing," IEEE Microwave and Wireless Components Letters, vol. 12, no. 6, pp. 206-208, June 2002. [10] S. Hamilton and R. Hall, "Shunt-Mode Harmonic Generation Using Step Recovery Diodes," Microwave Journal, pp. 69-78, April 1967. [11] Application Note 920, Harmonic Generation Using Step Recovery Diodes and SRD Modules, Hewlett Packard, 1988. [12] H. Kim, D. Park, and Y. Joo, "Design of CMOS Scholtz's Monocycle Pulse Generator," IEEE Conference on Ultra Wideband Systems and Technologies, Reston, VA, November 2003. [13] H. F. Harmuth, "Antennas and Waveguides for Nonsinusodial Waves," A dvances in Electronics and Electron Physics, Supplement 15, Orlando: Academic Press, 1984. [14] H. F. Harmuth, Efficient Driving Circuit for Current Radiator, U.S. Patent 5365240, November 15, 1994. [15] U.S. Patents 5748891, May 1998; 6002708, December 1999; 6385268, May 2002; and 64000754, June 2002. Available: http://www.aetherwire.com/. [16] B. E. Burke and D. L. Smythe, Jr., "ACCD Time-Integrating Correlators," IEEE Journal of Solid State Circuits, vol. SC-18, no. 6, pp. 736-744, December 1983. [17] K. Marsden, H. -J. Lee, D. S. Ha, and H. -S. Lee, "Low Power CMOS Reprogrammable Pulse Generator for UWB Systems," IEEE Conference on Ultra Wideband Systems and Technologies, Reston, VA, pp. 443-447, November 2003. [18] D. Rowe, B. Pollack, J. Pulver, W. Chon, P. Jett, L. Fullerton, and L. A. Larson, "A Si/SiGe HBT timing generator IC for high-bandwidth impulse radio applications," Proceedings of the IEEE Custom Integrated Circuits Conference, pp. 221-224, May 1999. [19] D. Kelly, R. S. Reinhardt, M. Einhorn, "PulsON Second Generation Timing Chip; Enabling UWB Through Precise Timing," IEEE Conference on Ultra Wideband Systems and Technologies, Baltimore, MD, May 2002. [20] G. Durisi and S. Benedetto, "Performance Evaluation and Comparison of Different Modulation Schemes for UWB Multiaccess Systems," IEEE International Conference on Communications, Anchorage, AK, 2003. [21] J. D. Choi, and W. E. Stark, "Performance of ultra-wideband communications with suboptimal receivers in multipath channels," IEEE Journal on Selected Areas in Communications, vol. 20, no. 9, December 2002. [22] R. T. Hoctor and H. W. Tomlinson, "An Overview of Delay-Hopped, Transmitted-Reference RF Communications," Technical Information Series, G.E. Research and Development Center, pp. 1-29, January 2002. [23] M. K. Simon, J. K. Omura, R. A. Sholtz, and B. K Levitt, "Spread Spectrum Communications, Volume-I," Computer Science Press, 1985. [24] R. T. Hoctor and H. W. Tomlinson et al., "Delay Hopped Transmitted Reference Experimental Results," Technical Information Series, G. E. Research and Development Center, 2002GRC099, April 2002. [25] L. Yang and G. B. Giannakis, "Optimal pilot waveform assisted modulation for ultra-wideband communications," Conference Record Thirty-Sixth Asilomar Conference on Signals, Systems and Computers, vol. 1, pp. 733-737, November 2002. [26] L. Yang and G. B. Giannakis, "Optimal pilot waveform assisted modulation for ultra-wideband communications," IEEE Transactions on Wireless Communications, 2004 (to appear). [27] J. D. Choi, and W. E. Stark, "Performance of autocorrelation receivers for ultra-wideband communications with PPM in multipath channels," Digest of Papers IEEE Conference on Ultra Wideband Systems and Technologies, May 2002. [28] E. Saberinia and A. H. Tewfik, "Single and multicarrier UWB Communications," Proc. 7th International Symposium on Signal Processing and its Applications, vol. 2, pp. 343-346, July 2003. [29] S. S. Kolenchery, J. K. Townsend, and J. A. Freebersyser, "A Novel Impulse Radio Network for Tactical Military Wireless Communications," IEEE Military Communications Conference, vol. 1, pp. 59-65, Boston, MA, October 1998. [30] W. H. Steel, Interferometry, 1st ed., Cambridge UK: Cambridge University Press, 1967. [31] B. Natarajan, C. R. Nassar, and S. Shattil, "Innovative Pulse Shaping for High Performance Wireless TDMA," IEEE Communications Letters, vol. 5, no. 9, pp. 372-374, September 2001. [32] B. Natarajan, C. R. Nassar, and S. Shattil, "Throughput Enhancements in TDMA Through Carrier Interferometry Pulse Shaping," IEEE Vehicular Technology Conference, pp. 1799-803, Boston, MA, September 2000. [33] C. R. Nassar, F. Zhu, and Z. Wu, "Direct Sequence Spreading UWB Systems: Frequency Domain Processing for Enhanced Performance and Throughput," IEEE International Conference on Communications, vol. 3, pp. 2180-2186, May 2003. [34] L. -L. Yang and L. Hanzo, "Residue Number System Assisted Fast Frequency Hopped Synchronous Ultra-Wideband Spread-Spectrum Multiple-Access: A Design Alternative to Impulse Radio," IEEE Journal on Selected Areas in Communications, vol. 20, no. 9, pp. 1652-1663, December 2002. [35] E. Saberinia and A. H. Tewfik, "Multicarrier UWB," IEEE P802.15 Wireless Personal Area Networks, P802.15-02/03147r1-TG3a, November 2002. [36] E. Saberinia and A. H. Tewfik, "Synchronous UWB-OFDM," IEEE International Symposium on Wearable Computers, pp. 41-42, September 2002. [37] E. Saberinia and A. H. Tewfik, "High Bit Rate UWB-OFDM," IEEE Global Communications Conference, vol. 3, pp. 2260-2264, November 2002. [38] A. Batra, et al., "Multi-band OFDM Physical Layer Proposal for IEEE 802.15 Task Group 3a," IEEE P802.15 Wireless Personal Area Networks, P802.15-03/268r1, September 2002. [39] E. Saberinia and A. H. Tewfik, "N-Tone Sigma-Delta UWB-OFDM Transmitter and Receiver," IEEE International Conference on Acoustics, Speech and Signal Processing, vol. 4, pp. 129-132, April 2003. [40] J. C. de Mateo Garcia and A. Garcia Armada, "Effects of Bandpass Sigma-Delta Modulation on OFDM Signals," IEEE Transactions on Consumer Electronics, vol. 45, no. 2, pp. 119-124, May 1999. [41] E. Saberinia and A. H. Tewfik, "Generating UWB-OFDM Signal Using Sigma-Delta Modulator," 57th IEEE Vehicular Technology Conference, vol. 2, pp. 1425-1429, April 2003. [42] C. R.C.M. da Silva and L. B. Milstein, "Spectral-Encoded UWB Communication Systems," IEEE Conference on Ultra-Wideband Systems and Technologies, November 2003. [43] J. A. Salehi, A. M. Weiner, and J. P. Heritage, "Coherent Ultrashort Light Pulse Code-Division Multiple Access Communication Systems," Journal of Lightwave Technology, vol. 8, pp. 478-491, March 1990. [44] K. S. Kim, D. M. Marom, L. B. Milstein, and Y. Fainman, "Hybrid Pulse Position Modulation/Ultrashort Light Pulse Code-Division Multiple Access SystemsPart I: Fundamental Analysis," IEEE Transactions on Communications, vol. 50, pp. 2018-2031, December 2002. [45] P. Crespo, M. Honig, and J. Salehi, "Spread-Time Code-Division Multiple Access," IEEE Transactions on Communications, vol. 43, pp. 2139-2148, June 1995. [46] M. G. Shayesteh, J. A. Salehi, and M. Nasiri-Kenari, "Spread-Time CDMA Resistance in Fading Channels," IEEE Transactions on Wireless Communications, vol. 2, pp. 446-458, May 2003. [47] L. B. Milstein and P. K. Das, "An Analysis of a Real-Time Transform Domain Filtering Digital Communication SystemPart I: Narrow Band Interference Rejection," IEEE Transactions on Communications, vol. 28, pp. 816-824, June 1980. [48] Z. Wu, F. Zhu, and C. R. Nassar, "Ultra Wideband Time Hopping Systems: Performance and Throughput Enhancement via Frequency Domain Processing," 36th Asilomar Conference on Signals, Systems and Computers, vol. 1, pp. 722-727, November 2002. |
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