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J. Nicholas Laneman
Associate Professor
University of Notre Dame
Navigation
Links
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Publications
Preprints
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[1]
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D. Chen, M. Haenggi, and J. N. Laneman, “Distributed Spectrum-Efficient
Routing Algorithms in Wireless Networks,” IEEE Trans. Wireless
Commun., Oct. 2007, accepted for publication.
[ PDF ]
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[2]
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W. Zhang, S. Kotagiri, and J. N. Laneman, “Outage-Efficient Downlink
Transmission without Transmit Channel State Information,” IEEE
Trans. Inform. Theory, Nov. 2007, submitted for publication.
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[3]
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S. Kotagiri and J. N. Laneman, “Variations on Information Embedding in
Multiple Access and Broacast Channels,” IEEE Trans. Inform.
Theory, Nov. 2007, submitted for publication.
[ PDF ]
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[4]
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P. Rost, G. Fettweis, and J. N. Laneman, “Opportunities, Constraints, and
Benefits of Relaying in the Presence of Interference,” in
Proc. Allerton Conf. Communications, Control, and Computing,
Monticello, IL, Sept. 2008, submitted for publication.
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[5]
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M. Bloch and J. N. Laneman, “On the Secrecy Capacity of Arbitrary Wiretap
Channels,” in Proc. Allerton Conf. Communications, Control,
and Computing, Monticello, IL, Sept. 2008, submitted for publication.
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[6]
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M. L. Dickens, B. P. Dunn, and J. N. Laneman, “Portable Software Radios using
Commodity Hardware and Open-Source Software,” in Proc. SDR '08,
Washington, DC, Oct. 2008, accepted for publication.
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Journal Articles
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[1]
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C.-E. W. Sundberg, D. Sinha, D. Mansour, M. Zarrabizadeh, and J. N. Laneman,
“Multistream Hybid In Band On Channel FM Systems for Digital Audio
Broadcasting,” IEEE Trans. Broadcast., vol. 45, no. 4, pp.
410-417, Dec. 1999.
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[2]
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J. N. Laneman and C.-E. W. Sundberg, “Reed-Solomon Decoding Algorithms for
Digital Audio Broadcasting in the AM Band,” IEEE Trans.
Broadcast., vol. 47, no. 2, pp. 115-122, June 2001.
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[3]
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J. N. Laneman and C.-E. W. Sundberg, “Soft Selection Combining for
Terrestrial Digital Audio Broadcasting in the FM Band,” IEEE Trans.
Broadcast., vol. 47, no. 2, pp. 103-114, June 2001.
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[4]
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J. N. Laneman, C.-E. W. Sundberg, and C. Faller, “Huffman Code Based Error
Screening and Channel Code Optimzation for Error Concealment in Perceptual
Audio Coding (PAC) Algorithms,” IEEE Trans. Broadcast., vol. 48,
no. 3, pp. 193-206, Sept. 2002.
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[5]
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J. N. Laneman and G. W. Wornell, “Distributed Space-Time Coded Protocols for
Exploiting Cooperative Diversity in Wireless Networks,” IEEE Trans.
Inform. Theory, vol. 49, no. 10, pp. 2415-2425, Oct. 2003.
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[6]
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J. N. Laneman, D. N. C. Tse, and G. W. Wornell, “Cooperative Diversity in
Wireless Networks: Efficient Protocols and Outage Behavior,” IEEE
Trans. Inform. Theory, vol. 50, no. 12, pp. 3062-3080, Dec. 2004.
[ PDF ]
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[7]
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J. N. Laneman, E. Martinian, G. W. Wornell, and J. G. Apostolopoulos,
“Source-Channel Diversity for Parallel Channels,” IEEE Trans.
Inform. Theory, vol. 51, no. 10, pp. 3518-3539, Oct. 2005.
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[8]
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W. Zhang and J. N. Laneman, “An Induced Additive-Noise Model for Non-Coherent
Discrete-Time Memoryless Rayleigh Fading Channels,” IEEE Trans.
Inform. Theory, vol. 52, no. 4, pp. 1756-1764, Apr. 2006.
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[9]
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M. Sikora, J. N. Laneman, M. Haenggi, D. J. Costello, Jr., and T. E. Fuja,
“Bandwidth- and Power-Efficient Routing in Linear Wireless Networks,”
IEEE Trans. Inform. Theory, vol. 52, no. 6, pp. 2624-2633, June
2006.
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[10]
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D. Chen and J. N. Laneman, “Modulation and Demodulation for Cooperative
Diversity in Wireless Systems,” IEEE Trans. Wireless Commun.,
vol. 5, no. 7, pp. 1785-1794, July 2006.
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[11]
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A. Scaglione, D. Goeckel, and J. N. Laneman, “Cooperative Communications in
Mobile Ad-Hoc Networks: Rethinking the Link Abstraction,” IEEE
Signal Processing Mag., vol. 23, no. 5, pp. 18-29, Sept. 2006.
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[12]
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W. Zhang and J. N. Laneman, “How Good is Phase-Shift Keying for Peak-Limited
Rayleigh Fading Channels in the Low-SNR Regime?” IEEE Trans.
Inform. Theory, vol. 53, no. 1, pp. 236-251, Jan. 2007.
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[13]
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W. Zhang and J. N. Laneman, “Benefits of Spatial Correlation for
Multi-Antenna Non-Coherent Communication over Fading Channels at Low SNR,”
IEEE Trans. Wireless Commun., vol. 6, no. 3, pp. 887-896, Mar.
2007.
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[14]
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T. Wang, A. Cano, G. B. Giannakis, and J. N. Laneman, “High-Performance
Cooperative Demodulation with Decode-and-Forward Relays,” IEEE
Trans. Commun., vol. 55, no. 7, pp. 1427-1438, July 2007.
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[15]
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Özgür Oyman, J. N. Laneman, and S. Sandhu, “Multihop Relaying for
Broadband Wireless Mesh Networks: From Theory to Practice,” IEEE
Commun. Mag., vol. 45, no. 11, pp. 116-122, Nov. 2007.
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[16]
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S. Kotagiri and J. N. Laneman, “Multiple Access Channels with State
Information Known to Some Encoders and Independent Messages,” EURASIP
J. Wireless Comm. Net., vol. 2008, Feb. 2008.
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[17]
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D. Chen, K. Azarian, and J. N. Laneman, “A Case for Amplify-Forward Relaying
in the Block-Fading Multiaccess Channel,” IEEE Trans. Inform.
Theory, vol. 54, no. 8, pp. 3728-3733, Aug. 2008.
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[18]
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M. L. Dickens, B. P. Dunn, and J. N. Laneman, “Design and Implementation of a
Portable Software Radio,” IEEE Commun. Mag., vol. 46, no. 8, pp.
58-66, Aug. 2008.
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Book Chapters
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[1]
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J. N. Laneman, Cooperation in Wireless Networks: Principles and
Applications. Springer, 2006, ch.
Cooperative Diversity: Models, Algorithms, and Architectures, pp. 163-188.
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[2]
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A. Scaglione, D. Goeckel, and J. N. Laneman, Distributed Antenna
Systems: Open Architecture for Future Wireless Communications. Auerbach Publications, CRC Press, 2007, ch.
Cooperative Communications in Mobile Ad-Hoc Networks: Rethinking the Link
Abstraction, pp. 87-116.
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Conference Papers
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[1]
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J. N. Laneman and G. E. Peterson, “Real-Time Learning of Aircraft Parameters
Using Recursive Least-Squares to Train RBF Networks,” in Proc.
Artificial Neural Networks in Engineering (ANNIE), St. Louis, MO, Nov. 1996.
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[2]
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J. N. Laneman and G. W. Wornell, “Robust Equalization for Spread-Response
Precoding Systems,” in Proc. IEEE International Conference on
Acoustics, Speech, and Signal Processing (ICASSP), Seattle, WA, May 1998,
pp. 3513-3516.
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[3]
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J. N. Laneman and G. W. Wornell, “Energy-Efficient Antenna Sharing and
Relaying for Wireless Networks,” in Proc. IEEE Wireless
Comm. and Networking Conf. (WCNC), Chicago, IL, Sept. 2000, pp. 7-12.
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[4]
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J. N. Laneman and G. W. Wornell, “Exploiting Distributed Spatial Diversity in
Wireless Networks,” in Proc. Allerton Conf. Communications,
Control, and Computing, Monticello, IL, Oct. 2000.
[ PDF ]
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[5]
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J. N. Laneman, G. W. Wornell, and D. N. C. Tse, “An Efficient Protocol for
Realizing Cooperative Diversity in Wireless Networks,” in
Proc. IEEE Int. Symp. Information Theory (ISIT),
Washington, DC, June 2001, p. 294.
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[6]
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J. N. Laneman and G. W. Wornell, “Distributed Space-Time Coded Protocols for
Exploiting Cooperative Diversity in Wireless Networks,” in
Proc. IEEE Global Comm. Conf. (GLOBECOM), Taipei, Taiwan,
Nov. 2002, pp. 77-81.
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[7]
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J. N. Laneman, E. Martinian, G. W. Wornell, J. G. Apostolopoulos, and S. J.
Wee, “Comparing Application- and Physical-Layer Approaches to Diversity on
Wireless Channels,” in Proc. IEEE Int. Conf. Communications
(ICC), May 2003, pp. 2678-2682.
[ PDF ]
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[8]
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J. N. Laneman, “Limiting Analysis of Outage Probabilities for Diversity
Schemes in Fading Channels,” in Proc. IEEE Global Comm.
Conf. (GLOBECOM), San Francisco, CA, Dec. 2003, pp. 1242-1246.
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[9]
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W. Zhang and J. N. Laneman, “Benefits of Correlated MIMO Schemes for Wideband
Communication,” in Proc. IEEE Int. Symp. Information Theory
(ISIT), Chicago, IL, July 2004, p. 414.
[ PDF ]
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[10]
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J. N. Laneman, E. Martinian, and G. W. Wornell, “Source-Channel Diversity
Approaches for Multimedia Communication,” in Proc. IEEE
Int. Symp. Information Theory (ISIT), Chicago, IL, July 2004, p. 393.
[ PDF ]
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[11]
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J. N. Laneman and G. Kramer, “Window Decoding for the Multiaccess Channel
with Generalized Feedback,” in Proc. IEEE Int. Symp.
Information Theory (ISIT), Chicago, IL, July 2004, p. 281.
[ PDF ]
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[12]
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M. Sikora, J. N. Laneman, M. Haenggi, D. J. Costello, Jr., and T. E. Fuja,
“On the Optimum Number of Hops in Linear Ad Hoc Networks,” in Proc.
IEEE Inform. Theory Workshop (ITW), San Antonio, TX, Oct. 2004, pp.
165-169.
[ PDF ]
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[13]
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S. Kotagiri and J. N. Laneman, “Achievable Rates for Multiple Access Channels
with State Information Known at One Encoder,” in Proc.
Allerton Conf. Communications, Control, and Computing, Monticello, IL, Oct.
2004.
[ PDF ]
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[14]
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D. Chen and J. N. Laneman, “Cooperative Diversity for Wireless Fading
Channels without Channel State Information,” in Proc.
Asilomar Conf. Signals, Systems, and Computers, Monterey, CA, Nov. 2004,
pp. 1307-1312, invited paper.
[ PDF ]
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[15]
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J. N. Laneman, “Network Coding Gain of Cooperative Diversity,” in
Proc. IEEE Military Comm. Conf. (MILCOM), Monterey, CA,
Nov. 2004, pp. 106-112, invited paper.
[ PDF ]
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[16]
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D. Chen and J. N. Laneman, “Noncoherent Demodulation for Cooperative
Diversity in Wireless Systems,” in Proc. IEEE Global Comm.
Conf. (GLOBECOM), Dallas, TX, Nov. 2004, pp. 31-35.
[ PDF ]
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[17]
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W. Zhang and J. N. Laneman, “An Induced Additive-Noise Model for Non-Coherent
Discrete-Time Memoryless Rayleigh Fading Channels,” in Proc.
Conf. Inform. Sci. and Syst. (CISS), Baltimore, MD, Mar. 2005.
[ PDF ]
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[18]
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W. Zhang and J. N. Laneman, “Recursive Training with Unitary Modulation for
Correlated Block-Fading MIMO Channels,” in Proc. IEEE
Workshop on Sig. Proc. Adv. in Wireless Comm. (SPAWC), New York, NY, June
2005, pp. 746-750.
[ PDF ]
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[19]
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W. Zhang and J. N. Laneman, “How Good is Phase-Shift Keying for Peak-Limited
Fading Channels in the Low-SNR Regime,” in Proc. Allerton
Conf. Communications, Control, and Computing, Monticello, IL, Sept. 2005.
[ PDF ]
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[20]
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S. Kotagiri and J. N. Laneman, “Reversible Information Embedding in
Multi-user Channels,” in Proc. Allerton Conf. Communications,
Control, and Computing, Monticello, IL, Sept. 2005.
[ PDF ]
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[21]
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B. P. Dunn and J. N. Laneman, “Characterizing Source-Channel Diversity
Approaches Beyond the Distortion Exponent,” in Proc. Allerton
Conf. Communications, Control, and Computing, Monticello, IL, Sept. 2005,
invited paper.
[ PDF ]
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[22]
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J. N. Laneman, “On the Distribution of Mutual Information,” in Proc.
Workshop on Information Theory and its Applications, San Diego, CA, Feb.
2006, invited paper.
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[23]
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C. T. K. Ng, J. N. Laneman, and A. Goldsmith, “The Role of SNR in Achieving
MIMO Rates in Cooperative Systems,” in Proc. IEEE
Information Theory Workshop (ITW), Punta del Este, Uruguay, Mar. 2006, pp.
288-292.
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[24]
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D. Chen and J. N. Laneman, “The Diversity-Multiplexing Tradeoff for the
Multi-Access Relay Channel,” in Proc. Conf. Inform. Sci. and
Syst. (CISS), Princeton, NJ, Mar. 2006, pp. 1324-1328.
[ PDF ]
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[25]
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D. Chen and J. N. Laneman, “Achieving the Diversity-Multiplexing Tradeoff of
the Multi-Access Relay Channel,” in MSRI Workshop on Mathematics of
Relaying and Cooperation in Wireless Networks, Berkeley, CA, Apr. 2006.
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[26]
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D. Chen and J. N. Laneman, “Diversity and Multiplexing in Multiuser Relay
Channels,” in Proc. IEEE Comm. Theory Workshop, Dorado, Puerto Rico,
May 2006, invited presentation.
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[27]
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W. Zhang, S. Kotagiri, and J. N. Laneman, “Information Transmission over the
Postal Channel with and without Feedback,” in Proc. IEEE
Int. Symp. Information Theory (ISIT), Seattle, WA, July 2006, pp.
2749-2753.
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[28]
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S. Kotagiri and J. N. Laneman, “Information Embedding in Degraded Broadcast
Channels,” in Proc. IEEE Int. Symp. Information Theory
(ISIT), Seattle, WA, July 2006, pp. 494-498.
[ PDF ]
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[29]
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J. N. Laneman and J. Barros, “Rate-Equivocation Tradeoffs for General
Eavesdropper Channels,” in Proc. Workshop on Information Theory and
its Applications, San Diego, CA, Jan. 2007, invited presentation.
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[30]
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D. Chen, M. Haenggi, and J. N. Laneman, “Distributed Spectrum-Efficient
Routing Algorithms in Wireless Networks,” in Proc. Conf.
Inform. Sci. and Syst. (CISS), Baltimore, MD, Mar. 2007.
[ PDF ]
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[31]
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W. Zhang, S. Kotagiri, and J. N. Laneman, “Writing on Dirty Paper with
Resizing and its Application to Quasi-Static Fading Broadcast Channels,” in
Proc. IEEE Int. Symp. Information Theory (ISIT), Nice,
France, June 2007.
[ PDF ]
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[32]
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S. Kotagiri and J. N. Laneman, “Multiaccess Channels with State Information
Known to One Encoder: A Case of Degraded Message Sets,” in
Proc. IEEE Int. Symp. Information Theory (ISIT), Nice,
France, June 2007.
[ PDF ]
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[33]
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K. Azarian and J. N. Laneman, “Linear Space-Time Codes with Optimal
Diversity-Multiplexing Tradeoff,” in Proc. IEEE Information
Theory Workshop (ITW), Lake Tahoe, CA, Sept. 2007.
[ PDF ]
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[34]
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W. Chang, S. Kotagiri, J. N. Laneman, S.-Y. Chung, and Y.-H. Lee,
“Compress-Forward Relaying over Parallel Gaussian Channels,” in
Proc. Comp. Adv. Mult-Sensor and Adaptive Processing, St. Thomas, US
Virgin Islands, Dec. 2007.
[ PDF ]
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[35]
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B. P. Dunn and J. N. Laneman, “Rate-Delay Tradeoffs for Communicating a
Bursty Source over an Erasure Channel with Feedback,” in Proc. Int.
Zürich Seminar on Communications, Zürich, Switzerland, Mar. 2008.
[ PDF ]
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[36]
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D. Chen and J. N. Laneman, “Joint Power and Bandwidth Allocation in Wireless
Multihop Networks,” in Proc. IEEE Wireless Comm. and
Networking Conf. (WCNC), Las Vegas, NV, Apr. 2008.
[ PDF ]
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[37]
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A. Zaidi, S. Kotagiri, J. N. Laneman, and L. Vandendorpe, “Cooperative
Relaying with State Available at the Relay Only,” in Proc.
IEEE Information Theory Workshop (ITW), Porto, Portugal, May 2008.
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[38]
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B. P. Dunn, M. L. Dickens, and J. N. Laneman, “Design and Implementation of a
Portable Software Radio,” in Proc. Int. Symp. Adv. Radio Tech.
(ISART), Boulder, CO, June 2008.
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[39]
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B. P. Dunn and J. N. Laneman, “Basic Limits on Protocol Information in
Slotted Communication Networks,” in Proc. IEEE Int. Symp.
Information Theory (ISIT), Toronto, Canada, July 2008.
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[40]
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Özgür Oyman and J. N. Laneman, “Multihop Diversity in Wideband OFDM
Systems: The Impact of Spatial Resuse and Frequency Selectivity,” in
Proc. Int. Symp. Spread Spectrum Techniques and Applications (ISSSTA),
Bologna, Italy, Aug. 2008.
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Theses
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[1]
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J. N. Laneman, “Channel Estimation and Equalization for Spread-Response
Precoding Systems in Fading Environments,” Master's thesis, Massachusetts
Institute of Technology, Cambridge, MA, June 1997.
[ PDF ]
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[2]
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J. N. Laneman, “Cooperative Diversity in Wireless Networks: Algorithms and
Architectures,” Ph.D. dissertation, Massachusetts Institute of Technology,
Cambridge, MA, Aug. 2002.
[ PDF ]
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[3]
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D. Chen, “Noncoherent Communication Theory for Cooperative Diversity in
Wireless Networks,” Master's thesis, University of Notre Dame, Notre Dame,
IN, May 2004.
[ PDF ]
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[4]
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B. P. Dunn, “Delay Constrained Multimedia Communications: Comparing
Source-Channel Approaches for Quasi-Static Fading Channels,” Master's
thesis, University of Notre Dame, Notre Dame, IN, Aug. 2005.
[ PDF ]
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[5]
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W. Zhang, “The Role of Channel Correlation in Fading Communication
Channels,” Ph.D. dissertation, University of Notre Dame, Notre Dame, IN,
July 2006.
[ PDF ]
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[6]
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D. Chen, “Diversity and Spectral Efficiency in Wireless Relay Networks,”
Ph.D. dissertation, University of Notre Dame, Notre Dame, IN, Nov. 2007,
defended.
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[7]
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S. Kotagiri, “State-Dependent Networks with Side Information and Partial
State Recovery,” Ph.D. dissertation, University of Notre Dame, Notre Dame,
IN, Dec. 2007.
[ PDF ]
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[8]
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A. Crohas, “Practical Implementation of a Cognitive Radio System for Dynamic
Spectrum Access,” Master's thesis, University of Notre Dame, Notre Dame,
IN, Aug. 2008.
[ PDF ]
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Reports
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[1]
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J. N. Laneman and G. W. Wornell, “Distributed Spatial Diversity Techniques
for Improving Mobile Ad-Hoc Network Performance,” in Proc. ARL FedLab
Symp. on Adv. Telecomm. & Inform. Distrib. Prog. (ATIRP), College Park, MD,
Mar. 2000.
[ PDF ]
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[2]
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J. N. Laneman and G. W. Wornell, “An Efficient Protocol for Realizing
Distributed Spatial Diversity in Wireless Ad-Hoc Networks,” in Proc.
ARL FedLab Symp. on Adv. Telecomm. & Inform. Distrib. Prog. (ATIRP),
College Park, MD, Mar. 2001.
[ PDF ]
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Patents
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[1]
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J. N. Laneman and C.-E. W. Sundberg, “Soft Selection Combining Based on
Successive Erasures of Frequency Band Components in a Communication
System,” U.S. Patent 6430724, Aug., 2002.
[ HTTP ]
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[2]
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J. N. Laneman, D. Sinha, and C.-E. W. Sundberg, “Channel Code Configurations
for Digital Audio Broadcasting Systems and Other Types of Communication
Systems,” U.S. Patent 6587826, July, 2003.
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[3]
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J. N. Laneman, D. Sinha, C.-E. W. Sundberg, and J. W. Tracey, “Error
Screening Based on Code and Control Information Consistency in a
Communication System,” U.S. Patent 6662339, Dec., 2003.
[ HTTP ]
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[4]
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J. N. Laneman and C.-E. W. Sundberg, “Multi-Mode Decoding for Digital Audio
Broadcasting and Other Applications,” U.S. Patent 6874115, Mar., 2005.
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[5]
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C. Verplaste, D. W. Lee, T. P. Evans, and J. N. Laneman, “Motion-Based Input
System for Handheld Devices,” U.S. Patent 6861946, Mar., 2005.
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