Part I Phase Noise Estimation in OFDM and OFDMA Uplink Communications
[1] T. Pollet, M. Van Bladel, and M. Moeneclaey, “BER sensitivity of OFDM systems to carrier frequency offset and wiener phase noise,” IEEE Trans.
Commun., vol. 43, pp. 191–193, Feb./March/April 1995.
[2] H. Steendam, M. Moeneclaey, and H. Sari, “The effect of carrier phase jitter on the performance of orthogonal frequency-division mutiple-access systems,” IEEE Trans. on Comm., vol. 46, no. 4, pp. 456–459, Apr 1998.
[3] V. Abhayawardhana and I. Wassell, "Common phase error correction for OFDM in wireless communication," in Proc. IEEE Global Telecommun. Conf
(Globecom'02), vol. 1, Taipei, ROC, Nov. 2002, pp. 17-21.
[4] S.Wu and Y. Bar-Ness, “A phase noise suppression algorithm for OFDM based WLANs,” IEEE Commun. Lett., vol. 6, pp. 535–537, Dec. 2002.
[5] Y.-C. Liao and K.-C. Chen, “Estimation of wiener phase noise by the
autocorrelation of the ici weighting function in ofdm systems,” in Proc. Personal, Indoor and Mobile Radio Communications (PIMRC 2005), Berlin, Gremany, Sep 2005.
[6] Z. Cao, U. Tureli, and Y.-D. Yao, “Deterministic multiuser carrierfrequency offset estimation for interleaved ofdma uplink,” IEEE Trans. on Comm., vol. 52, no. 9, pp. 1585–1594, Sep 2004.
[7] Yi-Hsueh Lin, “Phase Synchronization of Adaptive OFDM system,” Master thesis, Dept. of Communication Engineering Institute, National Taiwan University,
Taipei, Taiwan, June 2003
[8] Elena Costa, Silvano Pupolin, “M-QAM-OFDM system performance in the presence of a nonlinear amplifier and phase noise”, IEEE Trans. Comm., vol. 50, No.3, pp. 462-472, March 2002
[9] L. Piazzo and P. Mandarini, "Analysis of phase noise effects in ofdm modems,"
IEEE Trans. on Comm., vol. 50, no. 10, pp. 1696-1705, Oct 2002.
[10] R. Van Nee and R. Prasad, OFDM for Multimedia Wireless Communications.
Boston, MA: Artech House, 2000.
[11] P. Robertson and S. Kaiser, “Analysis of the effects of phase noise in orthogonal frequency division multiplexing (OFDM) systems,” in Proc. ICC’95, pp.
1652–1657.
[12] B. Stantchev and G. Fettweis, “Time-variant distortion in OFDM,” IEEE Commun. Letters, vol. 4, no. 9, pp. 312-314, Sep 2000.
[13] Z. Jianhua, H. Rohling, and Z. Ping, “Analysis of ici cancellation scheme in OFDM systems with phase noise,” IEEE Trans. on Broadcasting, vol. 50, no. 2, pp. 97-106, Jun 2004.
[14] Yi-Ching Liao, “Carrier Synchronization of OFDM Systems over Dispersive Multipath Fading Channels,” Doctor thesis, Dept. of Communication Engineering Institute, National Taiwan University, Taipei, Taiwan, Oct. 2005
[15] S. He and M. Torkelson, “Effective SNR estimation in OFDM system simulation,” in Proc. IEEE Global Telecommun. Conf. (Globecom'98), vol. 2, Nov. 1998, pp. 945-950.
[16] Y.-C. Liao and K.-C. Chen, “Multiuser Common Phase Error Estimation for Uplink OFDMA Communications,” in IEEE Wireless Communications and Networking Conference (WCNC 2007), Mar. 2007.
[17] Air Interface for Fixed Broadband Wireless Access Systems-Amendment 2:
Medium Access Control Modifications and Additional Physical Layer Specifications for 2-11 GHz, IEEE Std. 802.16a, 2003.
[18] P. H. Moose, “A technique for orthogonal frequency division multiplexing frequency offset correction,” IEEE Trans. Commun., vol. 42, pp. 2908–2914, Oct.
1994.
[19] H. Sari, G. Karam, and I. Jeanclaude, “Channel equalization and carrier synchronization in OFDM systems,” in Proc. 1993 Tirrenia Int. Workshop on Digital Communications 1993.
[20] M. A. Visser and Y. Bar-Ness, “OFDM frequency offset correction using an adaptive decorrelator,” in Proc. PIMRC’98, pp. 816–820.
[21] M. A. Visser, P. Zong, and Y. Bar-Ness, “A novel method for blind frequency offset correction in OFDM systems,” in Proc. CISS’32 1998, pp. 483–488, Mar.
1998.
[22] M. S. El-Tanany, Y. Wu, and L. Hazy, “Analytical modeling and simulation of phase noise interference in OFDM-based digital television terrestrial broadcasting systems,” IEEE Trans. Broadcast., vol. 47, pp. 20–31, Mar. 2001.
[23] R. A. Casas, S. L. Biracree, and A. E. Youtz, “Time domain phase noise
correction for OFDM signals,” IEEE Trans. Broadcast., vol. 48, pp. 230–236, Sep.
2002.
[24] S.Wu and Y. Bar-Ness, “A new phase noise mitigation method in OFDM systems with simultaneous CPE and ICI correction,” in Proc. MCSS’03.
[25] D. Petrovic, W. Rave, and G. Fettweis, “Phase noise suppression in OFDM including intercarrier interference,” in Proc. International OFDM Workshop, pp.
219–224.
[26] Songping Wu, Pan Liu, and Yeheskel Bar-Ness, “Phase Noise Estimation and Mitigation for OFDM Systems,” IEEE Trans. on Wireless Comm., vol. 5, no. 12, Dec. 2006.
[27] K. Nikitopoulos and A. Polydoros, "Compensation schemes for phase noise and residual frequency offset in OFDM systems," in Proc. IEEE Global Telecommun.
Conf (Globecom'01), vol. 1, San Antonio, TX, Nov. 2001, pp. 25-29.
[28] T. Onizawa, M. Mizoguchi, T. Sakata, and M. Morikura, "A new simple adaptive phase tracking scheme employing phase noise estimation for OFDM signals," in Proc. IEEE VTC'02 Spring, vol. 3, Birmingham, AL, May 2002, pp.
1252-1256.
[29] S. He and M. Torkelson, “Effective SNR estimation in OFDM system simulation,” in Proc. IEEE Global Telecommun. Conf. (Globecom’98), vol. 2, Nov. 1998, pp. 945–950.
Part II Characterizing The Wireless Ad Hoc Networks by Using The Distance
Distributions
[1] Mark Weiser, “The computer for the 21st century.” Scientific American 265(3), 1991.
[2] J. Z. Sun, “Mobile ad hoc networking: An essential technology for pervasive computing,” Proc. of International Conferences on Info-tech & Info-net (ICII), vol.3, p.p. 316-321, 2001.
[3] M. Frodigh, P. Johansson and P. Larsson, “Wireless ad hoc networking: the art of networking without a network,” Ericsson Review, No.4, 2000, pp. 248-263.
[4] Y. C. Cheng and T. G. Robertazzi, “Critical connectivity phenomena in multihop radio networks,” IEEE Trans. on Communications, vol. 37, no. 7, pp. 770-777, 1989.
[5] P. Gupta and P. R. Kumar, “Critical power for asymptotic connectivity in wireless networks,” Stochastic Analysis, Control, Optimization and Applications: A
Volume in Honor of W. H. Fleming, W. M. McEneany, G. Yin, and Q. Zhang (Eds.), Boston, MA: Birkhauser, 1998, pp. 547–566.
[6] C. Bettstetter, “On the connectivity of wireless multihop networks with homogeneous and inhomogeneous range assignment,” VTC'02.
[7] P. J. Wan and C. W. Yi, “Asymptotic critical transmission radius and critical neighbor number for k-connectivity in wireless ad hoc networks,” ACM MobiHoc'04.
[8] R. Hekmat and P. Van Mieghem, “Degree distribution and hopcount in wireless ad-hoc networks,” IEEE ICON'03.
[9] C. Bettstetter, “On the minimum node degree and connectivity of a wireless multihop network,” ACM MobiHoc’02.
[10] M. D. Penrose, “On k-connectivity for a geometric random graph,” Wiley Random Structures and Algorithms, vol. 15, no. 2, 1999, pp. 145-164.
[11] R. Hekmat and P. Van Mieghem, "Study of connectivity in wireless ad-hoc networks with an improved radio model," WiOpt'04.
[12] J. Ni and S. Chandler, “Connectivity properties of a random radio network,” IEE Communications, Vol. 141, pp.289-296, Aug. 1994.
[13] C. Bettstetter and C. Hartmann, “Connectivity of wireless multihop networks in a shadow fading environment,” ACM MSWiM’03, 2003.
[14] L. E. Miller, “Distribution of link distance in a wireless network,” Journal of Research of National Institute of Standards and Technology, vol. 106, pp. 401-412, March/April, 2001.
[15] L. E. Miller, “Joint distribution of link distances,” 2003 Conference on
Information Sciences and Systems, The Johns Hopkins University, March 12–14, 2003.
[16] C. C. Tseng, H. T. Chen and K. C. Chen, “On the distance distributions of the wireless ad hoc networks,” IEEE VTC 2006 Spring.
[17] D. B. West, Introduction to Graph Theory, Prentice Hall, 2001.
[18] T. Rappaport, Wireless Communications, Principles and Practice. Upper Saddle River Prentice-Hall PTR, 2002.
[19] B. Krishnamachari, S.B. Wicker, and R. Bejar, “Phase Transition Phenomena in Wireless Ad hoc Networks,” IEEE GLOBECOM'01.
Part III On The Distance Distributions of The Wireless Ad Hoc Networks
[1] Y. C. Cheng and T. G. Robertazzi, “Critical connectivity phenomena in multihop radio networks,” IEEE Trans. on Communications, vol. 37, no. 7, pp. 770-777, 1989.
[2] T. K. Philips, S. S. Panwar, and A. N. Tantawi, “Connectivity properties of a packet radio network model,” IEEE Trans. on Information Theory, vol. 35, no. 5, pp. 1044-1047, 1989.
[3] P. Piret, “On the connectivity of radio network,” IEEE Trans. on Information Theory, vol.37, no. 5, pp. 1490-1492, 1991.
[4] P. Santi and D. M. Blough, “An evaluation of connectivity in mobile wireless ad hoc networks,” IEEE Proc. of the International Conference on Dependable System and Networks (DSN’02), 2002.
[5] P. Gupta and P. R. Kumar, “Critical power for asymptotic connectivity in wireless networks,” in Stochastic Analysis, Control, Optimization and Applications: A Volume in Honor of W. H. Fleming, W.M. McEneany, G. Yin, and Q. Zhang, Eds.
Boston, MA: Birkhauser, 1998, pp. 547–566.
[6] P. Panchapakesan and D. Manjunath, “On the transmission range in dense ad hoc radio networks,” in Proc. SPCOMM 2001, Bangalore, India, July 2001, Paper 01-38.
[7] M. D. Penrose, “On k-connectivity for a geometric random graph,” Wiley Random Structures and Algorithms, vol. 15, no. 2, 1999, pp. 145-164.
[8] S. K. Berberian, Fundamentals of Real Analysis, Springer, 1999.
[9] H. R. Thompson, “Distribution of distance to nth neighbor in a population of randomly distributed individuals,” Ecology, vol. 37, no. 2, 1956.
[10] C. Bettstetter and C. Hartmann, “Connectivity of Wireless Multihop Networks in a Shadow Fading Environment,” ACM MSWiM’03, 2003.
[11] L. E. Miller, “Distribution of link distance in a wireless network,” Journal of Research of National Institute of Standards and Technology, vol. 106, pp. 401-412, March/April, 2001.
[12] L. E. Miller, “Joint distribution of link distances,” 2003 Conference on
Information Sciences and Systems, The Johns Hopkins University, March 12–14, 2003.
Part IV Organizing an Optimal Cluster-Based Ad Hoc Network Architecture by the
Modified Quine-McCluskey Algorithm
[1] M. Frodigh, P. Johansson and P. Larsson, “Wireless ad hoc networking: the art of networking without a network,” Ericsson Review, no. 4, pp. 248-263, 2000.
[2] B. Das and V. Bhargavan, “Routing in ad-hoc networks using minimum connected dominating sets,” in Proc. IEEE International Conference on Communications 1997, vol. 1, pp. 376-380.
[3] M. R. Garey and D. S. Johnson, Computers and Intractability: A Guide to The Theory of NP-Completeness. San Francisco: Freeman, 1978.
[4] J. Y. Yu and H. J. P. Chong, “A survey of clustering schemes for mobile ad hoc networks,” IEEE Commun. Surveys and Tutorials, vol. 7, no. 1, pp. 32-48, first quarter 2005.
[5] E. J. McCluskey and H. Schorr, “Minimization of Boolean functions,” Bell Syst.
Tech. J., vol. 35, no. 5, pp. 1417-1444, Nov. 1956.
[6] R. Sivakumar, P. Sinha, and V. Bharghavan, “CEDAR: a core-extraction
distributed ad hoc routing algorithm,” IEEE J. Sel. Areas Commun., vol. 17, no 8, pp. 1-12, Aug. 1999.
[7] M. Gerla and J. T. C. Tsai, “Multicluster, mobile, multimedia radio network,”
ACM/Baltzer J. Wireless Networks, vol. 1, no. 3, pp. 255-265, 1995.
Part V A Clustering Algorithm to Produce Power-Efficient Architecture for
(N,B)-Connected Ad Hoc Networks
[1] Das, B. and, Bhargavan, V., “Routing in ad-hoc networks using minimum connected dominating sets”, IEEE International Conference on Communications (ICC), Vol. 1, pp.376-380, 1997.
[2] Greay, M. R. and Johnson, D. S., Computers and Intractability: A guide to the theory of NP-Completeness, Freeman, San Francisco, 1978.
[3] Li, C. S., “Clustering in packet radio networks”, IEEE International Conference on Communications (ICC), pp. 283-287, 1985.
[4] Lian, J., Agnew, Gordon B., Nail, S., “A Variable Degree Based Clustering Algorithm for Networks”, Proceedings of The 12th International Conference on Computer Communications and Networks, 2003, (ICCCN 2003), pp. 465-470.
[5] Lin, C. H., and Gerla, M., “Adaptive clustering for mobile wireless networks”, IEEE Journal on Selected Area of Communications, Vol. 15, No. 7, pp.
1265-1275, 1997.
[6] Jiang, M. L., Li, J. Y. and Tay, Y. C., “Cluster based routing protocol (CBRP) functional specification”, IETF Internet-Draft, 1998.
http://www3.ietf.org/proceedings/98dec/slides/manet-cbrp-98dec/.
[7] Shah, M. J. and Flikkema, P. G., “Power-based leader selection in ad-hoc wireless networks”, IEEE International Performance, Computing and Communications Conference (IPCCC), pp.134-139, 1999.
[8] Basu, P., Khan, N. and Little, Thomas D. C., “A mobility based metric for clustering in mobile ad hoc networks”, IEEE International Conference on Distributed Computing Systems Workshop, pp. 413-418, 2001.
[9] Chatterjee, M., Das, S. K. and Turgut, D., “WCA: A Weighted Clustering
Algorithm for Mobile Ad Hoc Networks”, Journal of Cluster Computing (Special Issue on Mobile Ad hoc Networks), Vol. 5, No. 2, pp. 193-204, April 2002.
[10] Tseng, C. C. and Chen, K. C., “Power efficient topology control in wireless ad hoc networks”, IEEE Wireless Communications and Networking Conference (WCNC), Vol. 1, pp. 610-615, 2004.