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J. Nicholas Laneman
Professor
University of Notre Dame


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Publications

| Preprints | Journal Articles | Book Chapters | Conference Papers |
|
PhD Theses | MS Theses | BS Theses |
| Technical Reports | Patents |

Preprints

[1] U. Kumar, J. N. Laneman, and V. Gupta, “Achievability over Gaussian Cascade and Relay Channels with Feedback,” IEEE Trans. Commun., July 2011, submitted for publication. [ PDF ]
[2] Z. Sun and J. N. Laneman, “A Unified Sub-Nyquist Sampling Structure for Wideband Spectrum Sensing,” IEEE Trans. Signal Processing, Aug. 2013, submitted for publication.
[3] M. Khoshnevisan and J. N. Laneman, “Intermittent Communication,” IEEE Trans. Inform. Theory, Jan. 2014, submitted for publication. [ PDF ]
[4] G. J. Bradford and J. N. Laneman, “Rate, Reliability, and Delay Tradeoffs for Decode-and-Forward Relaying,” IEEE Trans. Wireless Commun., Nov. 2015, submitted for publication. [ PDF ]

Journal Articles

[1] 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. [ PDF ]
[2] 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. [ PDF ]
[3] 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. [ PDF ]
[4] 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. [ PDF ]
[5] 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. [ PDF ]
[6] 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 ]
[7] 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. [ PDF ]
[8] 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. [ PDF ]
[9] 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. [ PDF ]
[10] 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. [ PDF ]
[11] 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. [ PDF ]
[12] 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. [ PDF ]
[13] 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. [ PDF ]
[14] 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. [ PDF ]
[15] 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. [ PDF ]
[16] 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. [ PDF ]
[17] 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. [ PDF ]
[18] 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. [ PDF ]
[19] D. Chen, M. Haenggi, and J. N. Laneman, “Distributed Spectrum-Efficient Routing Algorithms in Wireless Networks,” IEEE Trans. Wireless Commun., vol. 7, no. 12, pp. 5297 -- 5305, Dec. 2008. [ PDF ]
[20] I. Krikidis, Z. Sun, J. N. Laneman, and J. Thompson, “Cognitive Legacy Networks via Cooperative Diversity,” IEEE Commun. Lett., vol. 13, no. 2, pp. 106--108, Feb. 2009. [ PDF ]
[21] W. Zhang, S. Kotagiri, and J. N. Laneman, “On Downlink Transmission Without Transmit Channel State Information and With Outage Constraints,” IEEE Trans. Inform. Theory, vol. 55, no. 9, pp. 4240--4248, Sept. 2009. [ PDF ]
[22] I. Krikidis, J. N. Laneman, J. Thompson, and S. McLaughlin, “Protocol Design and Throughput Analysis for Multi-User Cognitive Cooperative Systems,” IEEE Trans. Wireless Commun., vol. 8, no. 9, pp. 4740--4751, Sept. 2009. [ PDF ]
[23] S. Kotagiri and J. N. Laneman, “Variations on Information Embedding in Multiple Access and Broacast Channels,” IEEE Trans. Inform. Theory, vol. 56, no. 5, pp. 2225--2240, May 2010. [ PDF ]
[24] A. Zaidi, S. Kotagiri, J. N. Laneman, and L. Vandendorpe, “Cooperative Relaying with State Available Non-Causally at the Relay,” IEEE Trans. Inform. Theory, vol. 56, no. 5, pp. 2272--2298, May 2010. [ PDF ]
[25] Z. Sun, G. J. Bradford, and J. N. Laneman, “Sequence Detection Algorithms for PHY-Layer Sensing in Dynamic Spectrum Access Networks,” IEEE J. Select. Topics Signal Processing., vol. 5, no. 1, pp. 97--109, Feb. 2011. [ PDF ]
[26] P. Rost, G. Fettweis, and J. N. Laneman, “Energy- and Cost-Efficient Mobile Communication using Multi-Cell MIMO and Relaying,” IEEE Trans. Wireless Commun., vol. 11, no. 9, pp. 3377--3387, Sept. 2012. [ PDF ]
[27] P. Hesami and J. N. Laneman, “Incremental Use of Multiple Transmitters for Low-Complexity Diversity Transmission in Wireless Systems,” IEEE Trans. Commun., vol. 60, no. 9, pp. 2522--2533, Sept. 2012. [ PDF ]
[28] M. L. Dickens, J. N. Laneman, and B. P. Dunn, “Seamless Dynamic Runtime Reconfiguration in a Sofware-Defined Radio,” J. Signal Process. Sys., vol. 69, no. 1, pp. 87--94, October 2012. [ PDF ]
[29] M. L. Dickens and J. N. Laneman, “On the Use of an Algebraic Language Interface for Waveform Definition,” Analog Integr. Circ. and Signal Process., vol. 73, no. 2, pp. 613--625, Nov. 2012. [ PDF ]
[30] M. Khoshnevisan and J. N. Laneman, “Power Allocation in MIMO Wireless Systems Subject to Simultaneous Power Constraints,” IEEE Trans. Commun., vol. 60, no. 12, pp. 3855--3864, Dec. 2012. [ PDF ]
[31] M. Bloch and J. N. Laneman, “Exploiting Partial Channel State Information for Secrecy over Wireless Channels,” IEEE J. Select. Areas Commun., vol. 31, no. 9, pp. 1840--1849, Sept. 2013. [ PDF ]
[32] M. Bloch and J. N. Laneman, “Strong Secrecy from Channel Resolvability,” IEEE Trans. Inform. Theory, vol. 59, no. 12, pp. 8077--8098, Dec. 2013.
[33] U. Kumar, J. Liu, V. Gupta, and J. N. Laneman, “Improving Control Performance across AWGN Channels using a Relay Node,” Int. J. Syst. Sci., vol. 45, no. 7, pp. 1579--1588, July 2014. [ PDF ]
[34] U. Kumar, J. Liu, V. Gupta, and J. N. Laneman, “Stability Across a Gaussian Product Channel: Necessary and Sufficient Conditions,” IEEE Trans. Automat. Contr., vol. 59, no. 9, pp. 2530--2535, Sept. 2014. [ PDF ]
[35] Z. Sun and J. N. Laneman, “Performance Metrics, Sampling Schemes, and Detection Algorithms for Wideband Spectrum Sensing,” IEEE Trans. Signal Processing, vol. 62, no. 19, pp. 5107--5118, Oct. 2014.
[36] E. MolavianJazi and J. N. Laneman, “A Second-Order Achievable Rate Region for Gaussian Multi-access Channels via a Central Limit Theorem for Functions,” IEEE Trans. Inform. Theory, vol. 61, no. 12, pp. 6719--6733, Dec. 2015. [ PDF ]

| Preprints | Journal Articles | Book Chapters | Conference Papers |
|
PhD Theses | MS Theses | BS Theses |
| Technical Reports | Patents |

Book Chapters

[1] J. N. Laneman, Cooperation in Wireless Networks: Principles and Applications. Springer, 2006, ch. Cooperative Diversity: Models, Algorithms, and Architectures, pp. 163--188. [ PDF ]
[2] 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. [ PDF ]
[3] E. Hardouin, J. N. Laneman, S. Hidetoshi, A. Golitschek, and O. Gonsa, LTE - The UMTS Long Term Evolution: From Theory to Practice, Second ed. John Wiley and Sons, 2011, ch. Relaying.

Conference Papers

[1] 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.
[2] 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. [ PDF ]
[3] 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. [ PDF ]
[4] 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 ]
[5] 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. [ PDF ]
[6] 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. [ PDF ]
[7] 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. Commun. Conf. (ICC), May 2003, pp. 2678--2682. [ PDF ]
[8] 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. [ PDF ]
[9] 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 ]
[10] 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 ]
[11] 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 ]
[12] 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 ]
[13] 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 ]
[14] 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 ]
[15] 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 ]
[16] 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 ]
[17] 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 ]
[18] 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 ]
[19] 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 ]
[20] 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 ]
[21] 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 ]
[22] J. N. Laneman, “On the Distribution of Mutual Information,” in Proc. Workshop on Information Theory and its Applications (ITA), San Diego, CA, Feb. 2006, invited paper. [ PDF ]
[23] 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. [ PDF ]
[24] 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 ]
[25] 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.
[26] 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.
[27] 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. [ PDF ]
[28] 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 ]
[29] J. N. Laneman and J. Barros, “Rate-Equivocation Tradeoffs for General Eavesdropper Channels,” in Proc. Workshop on Information Theory and its Applications (ITA), San Diego, CA, Jan. 2007, invited presentation.
[30] 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, pp. 649--654. [ PDF ]
[31] 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, pp. 381--385. [ PDF ]
[32] 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, pp. 1566--1570. [ PDF ]
[33] 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, pp. 483--486. [ PDF ]
[34] 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, pp. 305--308. [ PDF ]
[35] 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, pp. 136--139. [ PDF ]
[36] 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, pp. 990--995. [ PDF ]
[37] 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, pp. 139--143. [ PDF ]
[38] 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. [ PDF ]
[39] 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, pp. 2302--2306. [ PDF ]
[40] 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, pp. 216--221. [ PDF ]
[41] 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, pp. 818--825. [ PDF ]
[42] M. L. Dickens, B. P. Dunn, and J. N. Laneman, “Portable Software Radios using Commodity Hardware and Open-Source Software,” in Proc. SDR, Washington, DC, Oct. 2008. [ PDF ]
[43] M. Bloch and J. N. Laneman, “Information-Spectrum Methods for Information-Theoretic Security,” in Proc. Workshop on Information Theory and its Applications (ITA), San Diego, CA, Feb. 2009, pp. 23--28, invited paper. [ PDF ]
[44] U. Kumar, V. Gupta, and J. N. Laneman, “On Communication across Line Networks with Feedback using Consensus Based Schemes,” in Proc. Workshop on Information Theory and its Applications (ITA), San Diego, CA, Feb. 2009, invited paper.
[45] G. J. Bradford and J. N. Laneman, “An Experimental Framework for Evaluating Cooperative Diversity,” in Proc. Conf. Inform. Sci. and Syst. (CISS), Baltimore, MD, Mar. 2009, pp. 641--645. [ PDF ]
[46] P. Rost, G. Fettweis, and J. N. Laneman, “Broadcast and Interference in Relay-Assisted Next-Generation Cellular Systems,” in Proc. IEEE Comm. Theory Workshop, Napa Valley, CA, May 2009.
[47] G. J. Bradford, B. P. Dunn, M. L. Dickens, Z. Sun, and J. N. Laneman, “Demonstration of Cooperative Diversity using a Custom Software-Defined Radio Prototype,” in Proc. ACM Int. Symp. on Mobile Ad Hoc Net. and Comp. (MobiHoc), New Orleans, LA, May 2009.
[48] P. Rost, G. Fettweis, and J. N. Laneman, “Opportunities, Constraints, and Benefits of Relaying in the Presence of Interference,” in Proc. IEEE Int. Commun. Conf. (ICC), Dresden, Germany, June 2009, pp. 1--5. [ PDF ]
[49] H. Sneessens, L. Vandendorpe, and J. N. Laneman, “Adaptive CF Relaying in Fading Environments with or without Wyner-Ziv Coding,” in Proc. IEEE Int. Commun. Conf. (ICC), Dresden, Germany, June 2009, pp. 1--5. [ PDF ]
[50] I. Krikidis, J. N. Laneman, J. Thompson, and S. McLaughlin, “Stability Analysis for Cognitive Radio with Cooperative Enhancements,” in Proc. IEEE Information Theory Workshop (ITW), Volos, Greece, June 2009, pp. 286--290. [ PDF ]
[51] B. P. Dunn, M. Bloch, and J. N. Laneman, “Secure Bits through Queues,” in Proc. IEEE Information Theory Workshop (ITW), Volos, Greece, June 2009, pp. 37--41. [ PDF ]
[52] A. Zaidi, S. Kotagiri, , J. N. Laneman, and L. Vandendorpe, “Multiaccess Channels with State Known to One Encoder: Another Case of Degraded Message Sets,” in Proc. IEEE Int. Symp. Information Theory (ISIT), Seoul, Korea, July 2009, pp. 2376--2380. [ PDF ]
[53] U. Kumar, J. N. Laneman, and V. Gupta, “Coding Schemes for Additive Noise Channels with Noisy Feedback,” in Proc. IEEE Int. Symp. Information Theory (ISIT), Seoul, Korea, July 2009, pp. 1258--1262. [ PDF ]
[54] E. MolavianJazi, M. Bloch, and J. N. Laneman, “Arbitrary Jamming Can Preclude Secure Communication,” in Proc. Allerton Conf. Communications, Control, and Computing, Monticello, IL, Sept. 2009, pp. 1069--1075. [ PDF ]
[55] U. Kumar, J. N. Laneman, and V. Gupta, “Cooperative Communications with Feedback via Stochastic Approximation,” in Proc. IEEE Information Theory Workshop (ITW), Taormina, Sicily, Oct. 2009, pp. 411--415, invited paper. [ PDF ]
[56] Z. Sun, I. Krikidis, J. N. Laneman, and J. Thompson, “Cognitive Radio Enhancements for Legacy Networks using Cooperative Diversity,” in Proc. IEEE Global Comm. Conf. (GLOBECOM), Honolulu, Hawaii, Dec. 2009, pp. 1--6. [ PDF ]
[57] G. J. Bradford and J. N. Laneman, “A Survey of Implementation Efforts and Experimental Design for Cooperative Communications,” in Proc. IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP), Dallas, TX, Mar. 2010, pp. 5602--5605, invited paper. [ PDF ]
[58] M. L. Dickens, B. P. Dunn, and J. N. Laneman, “Thresholding for Optimal Data Processing in a Software Defined Radio Kernel,” in Proc. Karlsruhe Workshop on Software Radios (WSR), Karlsruhe, Germany, March 2010. [ PDF ]
[59] Z. Sun, G. J. Bradford, and J. N. Laneman, “Sequence Detection Algorithms for Dynamic Spectrum Access Networks,” in Proc. IEEE Int. Dynamic Spectrum Access Networks (DySPAN) Symp., Singapore, Apr. 2010, pp. 1--9. [ PDF ]
[60] Z. Sun, G. J. Bradford, and J. N. Laneman, “Demonstration of Sequence Detection Algorithms for Dynamic Spectrum Access Networks,” in Proc. IEEE Int. Dynamic Spectrum Access Networks (DySPAN) Symp., Singapore, Apr. 2010.
[61] N. Dodson, G. J. Bradford, and J. N. Laneman, “A High Performance Transceiver RF Front-end Implementation,” in Proc. SDR, Washington, DC, Nov.-Dec. 2010. [ PDF ]
[62] U. Kumar, V. Gupta, and J. N. Laneman, “Sufficient Conditions for Stabilizability over Gaussian Relay and Cascade Channels,” in Proc. IEEE Conf. Decision and Control (CDC), Atlanta, GA, Dec. 2010, pp. 4765--4770. [ PDF ]
[63] M. Khoshnevisan and J. N. Laneman, “Minimum Delay Communication in Energy Harvesting Systems over Fading Channels,” in Proc. Conf. Inform. Sci. and Syst. (CISS), Baltimore, MD, Mar. 2011, pp. 1--5. [ PDF ]
[64] P. Hesami and J. N. Laneman, “Limiting Behavior of Receive Antennae Selection,” in Proc. Conf. Inform. Sci. and Syst. (CISS), Baltimore, MD, Mar. 2011, pp. 1--6. [ PDF ]
[65] M. Khoshnevisan and J. N. Laneman, “Power Allocation in Wireless Systems Subject to Long-Term and Short-Term Power Constraints,” in Proc. IEEE Int. Commun. Conf. (ICC), Kyoto, Japan, June 2011, pp. 1--5. [ PDF ]
[66] M. L. Dickens, J. N. Laneman, and B. P. Dunn, “Seamless Dynamic Runtime Reconfiguration in a Software-Defined Radio,” in Proc. SDR WInnComm Europe, Brussels, Belgium, June 2011. [ PDF ]
[67] E. MolavianJazi and J. N. Laneman, “Source-Channel Coding Tradeoff in Multiple Antenna Multiple Access Channels,” in Proc. IEEE Int. Symp. Information Theory (ISIT), St. Petersburg, Russia, Aug. 2011, pp. 1688--1692. [ PDF ]
[68] P. Hesami and J. N. Laneman, “Low-Complexity Incremental Use of Multiple Transmitters in Wireless Communication Systems,” in Proc. Allerton Conf. Communications, Control, and Computing, Monticello, IL, Sept. 2011, pp. 1613--1618. [ PDF ]
[69] J. N. Laneman and B. P. Dunn, “Communications Overhead as the Cost of Constraints,” in Proc. IEEE Information Theory Workshop (ITW), Paraty, Brazil, Oct. 2011, pp. 365--369. [ PDF ]
[70] M. L. Dickens and J. N. Laneman, “On the Use of an Algebraic Language for Waveform Definition,” in Proc. SDR WInnComm, Washington, DC, Nov.-Dec. 2011. [ PDF ]
[71] U. Kumar, V. Gupta, and J. N. Laneman, “On Stability Across a Gaussian Product Channel,” in Proc. IEEE Conf. Decision and Control (CDC), Orlando, FL, Dec. 2011, pp. 3142--3147. [ PDF ]
[72] E. MolavianJazi and J. N. Laneman, “Multiaccess Communication in the Finite Blocklength Regime,” in Proc. Workshop on Information Theory and its Applications (ITA), San Diego, CA, Feb. 2012. [ PDF ]
[73] G. J. Bradford and J. N. Laneman, “Low Latency Relaying Schemes for Next-Generation Cellular Networks,” in Proc. IEEE Int. Commun. Conf. (ICC), Ottawa, Canada, June 2012, pp. 4294--4299. [ PDF ]
[74] Z. Sun and J. N. Laneman, “Secondary Access Policy with Imperfect Sensing in Dynamic Spectrum Access Networks,” in Proc. IEEE Int. Commun. Conf. (ICC), Ottawa, Canada, June 2012, pp. 1752--1756. [ PDF ]
[75] E. MolavianJazi and J. N. Laneman, “Simpler Achievable Rate Regions for Multiaccess with Finite Blocklength,” in Proc. IEEE Int. Symp. Information Theory (ISIT), Boston, MA, July 2012, pp. 36--40. [ PDF ]
[76] M. Khoshnevisan and J. N. Laneman, “Achievable Rates for Intermittent Communication,” in Proc. IEEE Int. Symp. Information Theory (ISIT), Boston, MA, July 2012, pp. 1346--1350. [ PDF ]
[77] G. J. Bradford and J. N. Laneman, “Error Exponents for Block Markov Superposition Encoding with Varying Decoding Latency,” in Proc. IEEE Information Theory Workshop (ITW), Lausanne, Switzerland, Sept. 2012, pp. 237--241, invited paper. [ PDF ]
[78] M. Khoshnevisan and J. N. Laneman, “Intermittent Communication and Partial Divergence,” in Proc. Allerton Conf. Communications, Control, and Computing, Monticello, IL, Oct. 2012, pp. 656--662. [ PDF ]
[79] E. MolavianJazi and J. N. Laneman, “A Random Coding Approach to Gaussian Multiple Access Channels with Finite Blocklength,” in Proc. Allerton Conf. Communications, Control, and Computing, Monticello, IL, Oct. 2012, pp. 286--293. [ PDF ]
[80] M. Khoshnevisan and J. N. Laneman, “Upper Bounds on the Capacity of Binary Intermittent Communication,” in Proc. Workshop on Information Theory and its Applications (ITA), San Diego, CA, Feb. 2013, pp. 1--6, invited paper.
[81] M. Khoshnevisan and J. N. Laneman, “Achievable Rates for Intermittent Multi-Access Communication,” in Proc. IEEE Information Theory Workshop (ITW), Seville, Spain, Sept. 2013. [ PDF ]
[82] E. MolavianJazi and J. N. Laneman, “On the Second-Order Coding Rate of Non-Ergodic Fading Channels,” in Proc. Allerton Conf. Communications, Control, and Computing, Monticello, IL, Oct. 2013. [ PDF ]
[83] Z. Sun and J. N. Laneman, “Sampling Schemes and Detection Algorithms for Wideband Spectrum Sensing,” in Proc. IEEE Int. Dynamic Spectrum Access Networks (DySPAN) Symp., McLean, VA, Apr. 2014, pp. 541--552.
[84] E. MolavianJazi and J. N. Laneman, “On the Second-Order Cost of TDMA for Gaussian Multiple Access,” in Proc. IEEE Int. Symp. Information Theory (ISIT), Honolulu, Hawaii, July 2014, pp. 266--270. [ PDF ]
[85] E. MolavianJazi and J. N. Laneman, “Coded Modulation for Gaussian Channels: Dispersion- and Entropy-Limited Regimes,” in Proc. IEEE Wireless Comm. and Networking Conf. (WCNC), New Orleans, LA, Mar. 2015, pp. 528--533.
[86] H. Pezeshki and J. N. Laneman, “Anywhere Decoding: Low-Overhead Basestation Cooperation for Interference and Fading-Limited Wireless Environments,” in Proc. Allerton Conf. Communications, Control, and Computing, Monticello, IL, Oct. 2015.
[87] M. Cai and J. N. Laneman, “Database- and Sensing-Based Distributed Spectrum Sharing: Flexible Physical-Layer Prototyping,” in Proc. Asilomar Conf. Signals, Systems, and Computers, Monterey, CA, Nov. 2015, pp. 1051--1057, invited paper.

| Preprints | Journal Articles | Book Chapters | Conference Papers |
|
PhD Theses | MS Theses | BS Theses |
| Technical Reports | Patents |

PhD Theses

[1] J. N. Laneman, “Cooperative Diversity in Wireless Networks: Algorithms and Architectures,” Ph.D. dissertation, Massachusetts Institute of Technology, Cambridge, MA, Aug. 2002. [ PDF ]
[2] W. Zhang, “The Role of Channel Correlation in Fading Communication Channels,” Ph.D. dissertation, University of Notre Dame, Notre Dame, IN, July 2006. [ PDF ]
[3] 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 ]
[4] D. Chen, “Diversity and Spectral Efficiency in Wireless Relay Networks,” Ph.D. dissertation, University of Notre Dame, Notre Dame, IN, Dec. 2007. [ PDF ]
[5] B. P. Dunn, “Overhead in Communication Systems as the Cost of Constraints,” Ph.D. dissertation, University of Notre Dame, Notre Dame, IN, Dec. 2010. [ PDF ]
[6] M. L. Dickens, “Surfer: Any-Core Software Defined Radio,” Ph.D. dissertation, University of Notre Dame, Notre Dame, IN, Apr. 2012. [ PDF ]
[7] U. Kumar, “Feedback Coding Schemes for Control over Gaussian Networks,” Ph.D. dissertation, University of Notre Dame, Notre Dame, IN, Sept. 2012, co-advised with Vijay Gupta. [ PDF ]
[8] Z. Sun, “Performance Metrics, Sampling Schemes, and Detection Algorithms for Wideband Spectrum Sensing,” Ph.D. dissertation, University of Notre Dame, Notre Dame, IN, Dec. 2013. [ PDF ]
[9] M. Khoshnevisan, “Intermittent Communication,” Ph.D. dissertation, University of Notre Dame, Notre Dame, IN, Jan. 2014. [ PDF ]
[10] G. J. Bradford, “Rate, Reliability, and Delay of Wireless Relays,” Ph.D. dissertation, University of Notre Dame, Notre Dame, IN, Aug. 2014. [ PDF ]
[11] E. MolavianJazi, “A Unified Approach to Gaussian Channels with Finite Blocklength,” Ph.D. dissertation, University of Notre Dame, Notre Dame, IN, Aug. 2014. [ PDF ]

MS Theses

[1] 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 ]
[2] D. Chen, “Noncoherent Communication Theory for Cooperative Diversity in Wireless Networks,” Master's thesis, University of Notre Dame, Notre Dame, IN, May 2004. [ PDF ]
[3] 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 ]
[4] 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 ]
[5] G. J. Bradford, “A Framework for Implementation and Evaluation of Cooperative Diversity in Software-Defined Radio,” Master's thesis, University of Notre Dame, Notre Dame, IN, Dec. 2008. [ PDF ]
[6] E. MolavianJazi, “Secure Communications over Arbitrarily Varying Wiretap Channels,” Master's thesis, University of Notre Dame, Notre Dame, IN, Dec. 2009. [ PDF ]
[7] U. Kumar, “Network Communications with Feedback via Stochastic Approximation,” Master's thesis, University of Notre Dame, Notre Dame, IN, Dec. 2009, co-advised with Vijay Gupta. [ PDF ]
[8] Z. Sun, “Design and Implementation of Sequence Detection Algorithms for Dynamic Spectrum Access,” Master's thesis, University of Notre Dame, Notre Dame, IN, May 2010. [ PDF ]
[9] M. Khoshnevisan, “Optimal Power Allocation in Wireless Communications Subject to Several Power and Energy Constraints,” Master's thesis, University of Notre Dame, Notre Dame, IN, Apr. 2011. [ PDF ]
[10] P. Hesami, “Low-Complexity Incremental Transmission for Multiple-Antenna Wireless Systems,” Master's thesis, University of Notre Dame, Notre Dame, IN, Apr. 2011. [ PDF ]
[11] J. Masengesho, “Sequence Detection for Dynamic Spectrum Access,” Master's thesis, University of Notre Dame, Notre Dame, IN, June 2012.
[12] M. Cai, “Design and Implementation of a Distributed Spectrum Access System,” Master's thesis, University of Notre Dame, Notre Dame, IN, Aug. 2014. [ PDF ]
[13] S. Golnarian, “Energy-Efficient and Queue-Aware Resource Allocation in Uplink OFDM Systems for Wireless M2M Communication,” Master's thesis, University of Notre Dame, Notre Dame, IN, Dec. 2014. [ PDF ]
[14] N. G. Kleber, “Analysis of CSIR for an OFDM System Limited by a Frequency-Hopping Interferer,” Master's thesis, University of Notre Dame, Notre Dame, IN, Dec. 2015. [ PDF ]

BS Theses

[1] R. L. Jones, III, “Measurements and Modeling of Primary User Activity for Dynamic Spectrum Access,” Bachelor's thesis, University of Notre Dame, Notre Dame, IN, Apr. 2011. [ PDF ]

| Preprints | Journal Articles | Book Chapters | Conference Papers |
|
PhD Theses | MS Theses | BS Theses |
| Technical Reports | Patents |

Technical Reports

[1] J. N. Laneman and C.-E. W. Sundberg, “Adaptive Soft Combining and Channel Decoding in the Presence of Fading and FM Intereference,” Bell Labs, Lucent Technologies, Tech. Rep. BL011332-990226-05TM, Feb. 1999.
[2] C.-E. W. Sundberg, D. Sinha, D. Mansour, M. Zarrabizadeh, and J. N. Laneman, “Multistream Hybrid In Band On Channel Systems for Digital Audio Broadcasting in the FM Band,” Bell Laboratories, Lucent Technologies, Tech. Rep. 10009657-991025-31TM, Jan. 2000.
[3] 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 ]
[4] J. N. Laneman and C.-E. W. Sundberg, “Reed-Solomon Code Issues for Digital Audio Broadcasting Applications in the AM Band,” Bell Laboratories, Lucent Technologies, Tech. Rep. 10009657-000320-04TM, Mar. 2000.
[5] 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 ]

Patents

[1] 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 ]
[2] 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. [ HTTP ]
[3] 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 ]
[4] J. N. Laneman and C.-E. W. Sundberg, “Multi-Mode Decoding for Digital Audio Broadcasting and Other Applications,” U.S. Patent 6874115, Mar., 2005. [ HTTP ]
[5] 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. [ HTTP ]
[6] Z. Sun and J. N. Laneman, “Sequence Detection Methods, Devices, and Systems for Spectrum Sensing in Dynamic Spectrum Access Networks,” U.S. Patent 8838520, Sept., 2014. [ HTTP ]

| Preprints | Journal Articles | Book Chapters | Conference Papers |
|
PhD Theses | MS Theses | BS Theses |
| Technical Reports | Patents |

 


J. Nicholas Laneman
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