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2020 – today
- 2022
- [j43]Nikolaus Kleber, Jonathan D. Chisum, Bertrand M. Hochwald, J. Nicholas Laneman:
Three-Dimensional RF Sensor Networks for Widespread Spectrum Monitoring. IEEE Trans. Cogn. Commun. Netw. 8(2): 763-777 (2022) - [j42]Nikolaus Kleber, Martin Haenggi, Jonathan D. Chisum, Bertrand M. Hochwald, J. Nicholas Laneman:
Directivity in RF Sensor Networks for Widespread Spectrum Monitoring. IEEE Trans. Cogn. Commun. Netw. 8(2): 778-792 (2022) - [j41]Kang Gao, Xiangbo Meng, J. Nicholas Laneman, Jonathan D. Chisum, Ralf M. Bendlin, Aditya Chopra, Bertrand M. Hochwald:
A Training-Based Mutual Information Lower Bound for Large-Scale Systems. IEEE Trans. Commun. 70(8): 5151-5163 (2022) - [c70]Xiangbo Meng, Nicholas Estes, J. Nicholas Laneman, Jonathan D. Chisum, Ralf M. Bendlin, Bertrand M. Hochwald:
Spectral Efficiency with One-Bit Transmitters under Out-of-Band Power Constraints. GLOBECOM 2022: 1067-1072 - 2021
- [c69]Gonzalo J. Martínez, Grigoriy Dubrovskiy, Shangyue Zhu, Alamin Mohammed, Hai Lin, J. Nicholas Laneman, Aaron D. Striegel, Ravikumar V. Pragada, Douglas R. Castor:
An Open, Real-World Dataset of Cellular UAV Communication Properties. ICCCN 2021: 1-6 - 2020
- [j40]Hamed Pezeshki, Masoumeh Sadeghi, Martin Haenggi, J. Nicholas Laneman:
Anywhere Decoding: Low-Overhead Uplink Interference Management for Wireless Networks. IEEE Trans. Wirel. Commun. 19(6): 4095-4108 (2020) - [i25]Kang Gao, J. Nicholas Laneman, Jonathan D. Chisum, Ralf M. Bendlin, Aditya Chopra, Bertrand M. Hochwald:
Analyzing Training Using Phase Transitions in Entropy - Part II: Application to Quantization and Classification. CoRR abs/2012.00969 (2020)
2010 – 2019
- 2019
- [c68]Kang Gao, J. Nicholas Laneman, N. J. Estes, Jonathan D. Chisum, Bertrand M. Hochwald:
Channel Estimation with One-Bit Transceivers in a Rayleigh Environment. GLOBECOM Workshops 2019: 1-6 - [i24]Hamed Pezeshki, Masoumeh Sadeghi, Martin Haenggi, J. Nicholas Laneman:
Anywhere Decoding: Low-Overhead Uplink Interference Management for Wireless Networks. CoRR abs/1903.11782 (2019) - [i23]Kang Gao, J. Nicholas Laneman, N. J. Estes, Jonathan D. Chisum, Bertrand M. Hochwald:
Training for Channel Estimation in Nonlinear Multi-Antenna Transceivers. CoRR abs/1912.06924 (2019) - 2018
- [c67]Kang Gao, J. Nicholas Laneman, Bertrand M. Hochwald:
Beamforming with Multiple One-Bit Wireless Transceivers. ITA 2018: 1-9 - [c66]Kang Gao, J. Nicholas Laneman, Bertrand M. Hochwald:
Capacity of multiple one-bit transceivers in a Rayleigh environment. WCNC 2018: 1-6 - [i22]Kang Gao, J. Nicholas Laneman, Bertrand M. Hochwald:
Beamforming with Multiple One-Bit Wireless Transceivers. CoRR abs/1802.04923 (2018) - [i21]Kang Gao, J. Nicholas Laneman, Bertrand M. Hochwald:
Capacity of Multiple One-Bit Transceivers in a Rayleigh Environment. CoRR abs/1804.07985 (2018) - 2017
- [j39]Mostafa Khoshnevisan, J. Nicholas Laneman:
Intermittent Communication. IEEE Trans. Inf. Theory 63(7): 4089-4102 (2017) - [c65]Nikolaus Kleber, Abbas Termos, Gonzalo J. Martínez, John Merritt, Bertrand M. Hochwald, Jonathan D. Chisum, Aaron Striegel, J. Nicholas Laneman:
RadioHound: A pervasive sensing platform for sub-6 GHz dynamic spectrum monitoring. DySPAN 2017: 1-2 - [c64]Mingming Cai, J. Nicholas Laneman, Bertrand M. Hochwald:
Carrier Aggregation for Phased-Array Analog Beamforming with Beam Squint. GLOBECOM 2017: 1-7 - [c63]Mingming Cai, J. Nicholas Laneman, Bertrand M. Hochwald:
Beamforming codebook compensation for beam squint with channel capacity constraint. ISIT 2017: 76-80 - [c62]Kang Gao, N. J. Estes, Bertrand M. Hochwald, Jonathan D. Chisum, J. Nicholas Laneman:
Power-performance analysis of a simple one-bit transceiver. ITA 2017: 1-10 - [c61]Nikolaus Kleber, J. Nicholas Laneman:
Tracking of a Frequency-Hopping Interferer in an OFDM System. WCNC 2017: 1-6 - [i20]Mingming Cai, J. Nicholas Laneman:
Wideband Distributed Spectrum Sharing with Multichannel Immediate Multiple Access. CoRR abs/1702.02695 (2017) - [i19]Mingming Cai, J. Nicholas Laneman, Bertrand M. Hochwald:
Beamforming Codebook Compensation for Beam Squint with Channel Capacity Constraint. CoRR abs/1705.04441 (2017) - [i18]Mary Ann Weitnauer, Jennifer Rexford, J. Nicholas Laneman, Matthieu R. Bloch, Santiago Griljava, Catherine Ross, Gee-Kung Chang:
Smart Wireless Communication is the Cornerstone of Smart Infrastructures. CoRR abs/1706.07363 (2017) - 2016
- [c60]Sahand Golnarian, J. Nicholas Laneman, Michael D. Lemmon:
On the outage performance of an IEEE 802.11 broadcast scheme in vehicular Ad Hoc Networks. Allerton 2016: 101-106 - [c59]Mingming Cai, Kang Gao, Ding Nie, Bertrand M. Hochwald, J. Nicholas Laneman, Huang Huang, Kunpeng Liu:
Effect of Wideband Beam Squint on Codebook Design in Phased-Array Wireless Systems. GLOBECOM 2016: 1-6 - [c58]Kang Gao, Mingming Cai, Ding Nie, Bertrand M. Hochwald, J. Nicholas Laneman, Huang Huang, Kunpeng Liu:
Beampattern-Based Tracking for Millimeter Wave Communication Systems. GLOBECOM 2016: 1-6 - [c57]Mingming Cai, J. Nicholas Laneman:
Multichannel Immediate Multiple Access for Dedicated Short-Range Communications: IEEE 802.11p-Compatible Physical Layer. VTC Fall 2016: 1-5 - [i17]Mingming Cai, Kang Gao, Ding Nie, Bertrand M. Hochwald, J. Nicholas Laneman, Huang Huang, Kunpeng Liu:
Effect of Wideband Beam Squint on Codebook Design in Phased-Array Wireless Systems. CoRR abs/1609.03160 (2016) - [i16]Nikolaus Kleber, Jonathan D. Chisum, Aaron Striegel, Bertrand M. Hochwald, Abbas Termos, J. Nicholas Laneman, Zuohui Fu, John Merritt:
RadioHound: A Pervasive Sensing Network for Sub-6 GHz Dynamic Spectrum Monitoring. CoRR abs/1610.06212 (2016) - [i15]Kang Gao, Mingming Cai, Ding Nie, Bertrand M. Hochwald, J. Nicholas Laneman, Huang Huang, Kunpeng Liu:
Beampattern-Based Tracking for Millimeter Wave Communication Systems. CoRR abs/1612.05306 (2016) - 2015
- [j38]Ebrahim MolavianJazi, J. Nicholas Laneman:
A Second-Order Achievable Rate Region for Gaussian Multi-Access Channels via a Central Limit Theorem for Functions. IEEE Trans. Inf. Theory 61(12): 6719-6733 (2015) - [c56]Mingming Cai, J. Nicholas Laneman:
Database- and sensing-based distributed spectrum sharing: Flexible physical-layer prototyping. ACSSC 2015: 1051-1057 - [c55]Mingming Cai, J. Nicholas Laneman:
Database-aided distributed channel assignment in spectrum sharing. Allerton 2015: 1158-1165 - [c54]Hamed Pezeshki, J. Nicholas Laneman:
Anywhere decoding: Low-overhead basestation cooperation for interference- and fading-limited wireless environments. Allerton 2015: 1286-1293 - [c53]Ebrahim MolavianJazi, J. Nicholas Laneman:
Coded modulation for Gaussian channels: Dispersion- and entropy-limited regimes. WCNC 2015: 528-533 - 2014
- [j37]Utsaw Kumar, Jie Liu, Vijay Gupta, J. Nicholas Laneman:
Improving control performance across AWGN channels using a relay node†. Int. J. Syst. Sci. 45(7): 1579-1588 (2014) - [j36]Utsaw Kumar, Jie Liu, Vijay Gupta, J. Nicholas Laneman:
Stabilizability Across a Gaussian Product Channel: Necessary and Sufficient Conditions. IEEE Trans. Autom. Control. 59(9): 2530-2535 (2014) - [j35]Zhanwei Sun, J. Nicholas Laneman:
Performance Metrics, Sampling Schemes, and Detection Algorithms for Wideband Spectrum Sensing. IEEE Trans. Signal Process. 62(19): 5107-5118 (2014) - [c52]Zhanwei Sun, J. Nicholas Laneman:
Sampling schemes and detection algorithms for wideband spectrum sensing. DySPAN 2014: 541-552 - [c51]Ebrahim MolavianJazi, J. Nicholas Laneman:
On the second-order cost of TDMA for Gaussian multiple access. ISIT 2014: 266-270 - 2013
- [j34]Matthieu R. Bloch, J. Nicholas Laneman:
Exploiting Partial Channel State Information for Secrecy over Wireless Channels. IEEE J. Sel. Areas Commun. 31(9): 1840-1849 (2013) - [j33]Matthieu R. Bloch, J. Nicholas Laneman:
Strong Secrecy From Channel Resolvability. IEEE Trans. Inf. Theory 59(12): 8077-8098 (2013) - [c50]Ebrahim MolavianJazi, J. Nicholas Laneman:
On the second-order coding rate of non-ergodic fading channels. Allerton 2013: 583-587 - [c49]Mostafa Khoshnevisan, J. Nicholas Laneman:
Upper bounds on the capacity of binary intermittent communication. ITA 2013: 1-6 - [c48]Mostafa Khoshnevisan, J. Nicholas Laneman:
Achievable rates for intermittent multi-access communication. ITW 2013: 1-5 - [i14]Ebrahim MolavianJazi, J. Nicholas Laneman:
A Finite-Blocklength Perspective on Gaussian Multi-Access Channels. CoRR abs/1309.2343 (2013) - [i13]Mostafa Khoshnevisan, J. Nicholas Laneman:
Intermittent Communication. CoRR abs/1312.1421 (2013) - 2012
- [j32]Peyman Hesami, J. Nicholas Laneman:
Incremental Use of Multiple Transmitters for Low-Complexity Diversity Transmission in Wireless Systems. IEEE Trans. Commun. 60(9): 2522-2533 (2012) - [j31]Mostafa Khoshnevisan, J. Nicholas Laneman:
Power Allocation in Multi-Antenna Wireless Systems Subject to Simultaneous Power Constraints. IEEE Trans. Commun. 60(12): 3855-3864 (2012) - [j30]Peter Rost, Gerhard P. Fettweis, J. Nicholas Laneman:
Energy- and Cost-Efficient Mobile Communication Using Multi-Cell MIMO and Relaying. IEEE Trans. Wirel. Commun. 11(9): 3377-3387 (2012) - [j29]Michael Dickens, J. Nicholas Laneman, Brian P. Dunn:
Seamless Dynamic Runtime Reconfiguration in a Software-Defined Radio. J. Signal Process. Syst. 69(1): 87-94 (2012) - [c47]Ebrahim MolavianJazi, J. Nicholas Laneman:
A random coding approach to Gaussian multiple access channels with finite blocklength. Allerton Conference 2012: 286-293 - [c46]Mostafa Khoshnevisan, J. Nicholas Laneman:
Intermittent communication and partial divergence. Allerton Conference 2012: 656-662 - [c45]Zhanwei Sun, J. Nicholas Laneman:
Secondary access policies with imperfect sensing in dynamic spectrum access networks. ICC 2012: 1752-1756 - [c44]Glenn Bradford, J. Nicholas Laneman:
Low latency relaying schemes for next-generation cellular networks. ICC 2012: 4294-4299 - [c43]Ebrahim MolavianJazi, J. Nicholas Laneman:
Simpler achievable rate regions for multiaccess with finite blocklength. ISIT 2012: 36-40 - [c42]Mostafa Khoshnevisan, J. Nicholas Laneman:
Achievable rates for intermittent communication. ISIT 2012: 1346-1350 - [c41]Glenn J. Bradford, J. Nicholas Laneman:
Error exponents for block Markov superposition encoding with varying decoding latency. ITW 2012: 237-241 - 2011
- [j28]Zhanwei Sun, Glenn Bradford, J. Nicholas Laneman:
Sequence Detection Algorithms for PHY-Layer Sensing in Dynamic Spectrum Access Networks. IEEE J. Sel. Top. Signal Process. 5(1): 97-109 (2011) - [c40]Peyman Hesami, J. Nicholas Laneman:
Low-complexity incremental use of multiple transmitters in wireless communication systems. Allerton 2011: 1613-1618 - [c39]Utsaw Kumar, Vijay Gupta, J. Nicholas Laneman:
On stability across a Gaussian product channel. CDC/ECC 2011: 3142-3147 - [c38]Peyman Hesami, J. Nicholas Laneman:
Limiting behavior of receive antennae selection. CISS 2011: 1-6 - [c37]Mostafa Khoshnevisan, J. Nicholas Laneman:
Minimum delay communication in energy harvesting systems over fading channels. CISS 2011: 1-5 - [c36]Mostafa Khoshnevisan, J. Nicholas Laneman:
Power Allocation in Wireless Systems Subject to Long-Term and Short-Term Power Constraints. ICC 2011: 1-5 - [c35]Ebrahim MolavianJazi, J. Nicholas Laneman:
Source-channel coding tradeoff in multiple antenna multiple access channels. ISIT 2011: 1688-1692 - [c34]J. Nicholas Laneman, Brian P. Dunn:
Communications overhead as the cost of constraints. ITW 2011: 365-369 - [p1]Eric Hardouin, J. Nicholas Laneman, Alexander Golitschek, Hidetoshi Suzuki, Osvaldo Gonsa:
Relaying. LTE - The UMTS Long Term Evolution (2nd Ed.) 2011: 673-700 - [i12]Matthieu R. Bloch, J. Nicholas Laneman:
Secrecy from Resolvability. CoRR abs/1105.5419 (2011) - 2010
- [j27]Shivaprasad Kotagiri, J. Nicholas Laneman:
Variations on information embedding in multiple access and broadcast channels. IEEE Trans. Inf. Theory 56(5): 2225-2240 (2010) - [j26]Abdellatif Zaidi, Shivaprasad Kotagiri, J. Nicholas Laneman, Luc Vandendorpe:
Cooperative relaying with state available noncausally at the relay. IEEE Trans. Inf. Theory 56(5): 2272-2298 (2010) - [c33]Utsaw Kumar, Vijay Gupta, J. Nicholas Laneman:
Sufficient conditions for stabilizability over Gaussian relay and cascade channels. CDC 2010: 4765-4770 - [c32]Glenn Bradford, J. Nicholas Laneman:
A survey of implementation efforts and experimental design for cooperative communications. ICASSP 2010: 5602-5605
2000 – 2009
- 2009
- [j25]Ioannis Krikidis, Zhanwei Sun, J. Nicholas Laneman, John S. Thompson:
Cognitive legacy networks via cooperative diversity. IEEE Commun. Lett. 13(2): 106-108 (2009) - [j24]Wenyi Zhang, Shivaprasad Kotagiri, J. Nicholas Laneman:
On downlink transmission without transmit channel state information and with outage constraints. IEEE Trans. Inf. Theory 55(9): 4240-4248 (2009) - [j23]Wenyi Zhang, J. Nicholas Laneman:
Errata for "how good is PSK for peak-imited fading channels in the low-SNR regime? ". IEEE Trans. Inf. Theory 55(12): 5848 (2009) - [j22]Ioannis Krikidis, J. Nicholas Laneman, John S. Thompson, Steve McLaughlin:
Protocol design and throughput analysis for multi-user cognitive cooperative systems. IEEE Trans. Wirel. Commun. 8(9): 4740-4751 (2009) - [j21]Wenyi Zhang, J. Nicholas Laneman:
Errata for "Benefits of spatial correlation for multi-antenna non-coherent communication over fading channels at low SNR" [Mar 07 887-896]. IEEE Trans. Wirel. Commun. 8(12): 6143 (2009) - [c31]Ebrahim MolavianJazi, Matthieu R. Bloch, J. Nicholas Laneman:
Arbitrary jamming can preclude secure communication. Allerton 2009: 1069-1075 - [c30]Glenn Bradford, J. Nicholas Laneman:
An experimental framework for the evaluation of cooperative diversity. CISS 2009: 641-645 - [c29]Zhanwei Sun, Ioannis Krikidis, J. Nicholas Laneman, John S. Thompson:
Cognitive Radio Enhancements for Legacy Networks Using Cooperative Diversity. GLOBECOM 2009: 1-6 - [c28]Peter Rost, Gerhard P. Fettweis, J. Nicholas Laneman:
Opportunities, Constraints, and Benefits of Relaying in the Presence of Interference. ICC 2009: 1-5 - [c27]Harold H. Sneessens, Luc Vandendorpe, J. Nicholas Laneman:
Adaptive Compress-and-Forward Relaying in Fading Environments with or without Wyner-Ziv Coding. ICC 2009: 1-5 - [c26]Utsaw Kumar, J. Nicholas Laneman, Vijay Gupta:
Noisy feedback schemes and rate-error tradeoffs from stochastic approximation. ISIT 2009: 1258-1262 - [c25]Abdellatif Zaidi, Luc Vandendorpe, Shivaprasad Kotagiri, J. Nicholas Laneman:
Multiaccess channels with state known to one encoder: Another case of degraded message sets. ISIT 2009: 2376-2380 - [c24]Brian P. Dunn, Matthieu R. Bloch, J. Nicholas Laneman:
Secure bits through queues. ITW 2009: 37-41 - [c23]Ioannis Krikidis, J. Nicholas Laneman, John S. Thompson, Steve McLaughlin:
Stability analysis for cognitive radio with cooperative enhancements. ITW 2009: 286-290 - [c22]Glenn Bradford, Brian P. Dunn, Michael Dickens, Zhanwei Sun, J. Nicholas Laneman:
Demonstration of cooperative diversity using a custom software-defined radio prototype. MobiHoc 2009: 323-324 - [i11]Abdellatif Zaidi, Shivaprasad Kotagiri, J. Nicholas Laneman, Luc Vandendorpe:
Multiaccess Channels with State Known to One Encoder: Another Case of Degraded Message Sets. CoRR abs/0906.1603 (2009) - [i10]Abdellatif Zaidi, Shivaprasad Kotagiri, J. Nicholas Laneman, Luc Vandendorpe:
Cooperative Relaying with State Available Non-Causally at the Relay. CoRR abs/0911.4704 (2009) - 2008
- [j20]Michael Dickens, Brian P. Dunn, J. Nicholas Laneman:
Design and Implementation of a Portable Software Radio. IEEE Commun. Mag. 46(8): 58-66 (2008) - [j19]Shivaprasad Kotagiri, J. Nicholas Laneman:
Multiaccess Channels with State Known to Some Encoders and Independent Messages. EURASIP J. Wirel. Commun. Netw. 2008 (2008) - [j18]Deqiang Chen, Kambiz Azarian, J. Nicholas Laneman:
A Case for Amplify-Forward Relaying in the Block-Fading Multiple-Access Channel. IEEE Trans. Inf. Theory 54(8): 3728-3733 (2008) - [j17]Deqiang Chen, Martin Haenggi, J. Nicholas Laneman:
Distributed spectrum-efficient routing algorithms in wireless networks. IEEE Trans. Wirel. Commun. 7(12-2): 5297-5305 (2008) - [c21]Matthieu R. Bloch, J. Nicholas Laneman:
On the secrecy capacity of arbitrary wiretap channels. Allerton 2008: 818-825 - [c20]Brian P. Dunn, J. Nicholas Laneman:
Basic limits on protocol information in slotted communication networks. ISIT 2008: 2302-2306 - [c19]Abdellatif Zaidi, Shivaprasad Kotagiri, J. Nicholas Laneman, Luc Vandendorpe:
Cooperative relaying with state available at the relay. ITW 2008: 139-143 - [c18]Deqiang Chen, J. Nicholas Laneman:
Joint Power and Bandwidth Allocation in Multihop Wireless Networks. WCNC 2008: 990-995 - [i9]Ozgur Oyman, J. Nicholas Laneman:
Multihop Diversity in Wideband OFDM Systems: The Impact of Spatial Reuse and Frequency Selectivity. CoRR abs/0807.2268 (2008) - 2007
- [j16]Özgür Oyman, J. Nicholas Laneman, Sumeet Sandhu:
Multihop Relaying for Broadband Wireless Mesh Networks: From Theory to Practice. IEEE Commun. Mag. 45(11): 116-122 (2007) - [j15]Tairan Wang, Alfonso Cano, Georgios B. Giannakis, J. Nicholas Laneman:
High-Performance Cooperative Demodulation With Decode-and-Forward Relays. IEEE Trans. Commun. 55(7): 1427-1438 (2007) - [j14]Wenyi Zhang, J. Nicholas Laneman:
How Good Is PSK for Peak-Limited Fading Channels in the Low-SNR Regime?. IEEE Trans. Inf. Theory 53(1): 236-251 (2007) - [j13]Gerhard Kramer, Randall Berry, Abbas El Gamal, Hesham El Gamal, Massimo Franceschetti, Michael Gastpar, J. Nicholas Laneman:
Introduction to the Special Issue on Models, Theory, and Codes for Relaying and Cooperation in Communication Networks [Guest Editorial]. IEEE Trans. Inf. Theory 53(10): 3297-3301 (2007) - [j12]Wenyi Zhang, J. Nicholas Laneman:
Benefits of Spatial Correlation for Multi-Antenna Non-Coherent Communication over Fading Channels at Low SNR. IEEE Trans. Wirel. Commun. 6(3): 887-896 (2007) - [c17]Deqiang Chen, Martin Haenggi, J. Nicholas Laneman:
Distributed Spectrum-Efficient Routing Algorithms in Wireless Networks. CISS 2007: 649-654 - [c16]Wenyi Zhang, Shivaprasad Kotagiri, J. Nicholas Laneman:
Writing on Dirty Paper with Resizing and its Application to Quasi-Static Fading Broadcast Channels. ISIT 2007: 381-385 - [c15]Shivaprasad Kotagiri, J. Nicholas Laneman:
Multiaccess Channels with State Known to One Encoder: A Case of Degraded Message Sets. ISIT 2007: 1566-1570 - [i8]Wenyi Zhang, Shivaprasad Kotagiri, J. Nicholas Laneman:
Writing on Dirty Paper with Resizing and its Application to Quasi-Static Fading Broadcast Channels. CoRR abs/0704.2786 (2007) - [i7]Wenyi Zhang, Shivaprasad Kotagiri, J. Nicholas Laneman:
Outage-Efficient Downlink Transmission Without Transmit Channel State Information. CoRR abs/0711.1573 (2007) - [i6]Shivaprasad Kotagiri, J. Nicholas Laneman:
Variations on Information Embedding in Multiple Access and Broadcast Channels. CoRR abs/0711.2762 (2007) - [i5]Abdellatif Zaidi, Shivaprasad Kotagiri, J. Nicholas Laneman, Luc Vandendorpe:
Cooperative Relaying with State Available at the Relay Only. CoRR abs/0711.4864 (2007) - [i4]Deqiang Chen, Kambiz Azarian, J. Nicholas Laneman:
A Case For Amplify-Forward Relaying in the Block-Fading Multi-Access Channel. CoRR abs/cs/0701053 (2007) - 2006
- [j11]Anna Scaglione, Dennis L. Goeckel, J. Nicholas Laneman:
Cooperative communications in mobile ad hoc networks. IEEE Signal Process. Mag. 23(5): 18-29 (2006) - [j10]Wenyi Zhang, J. Nicholas Laneman:
An induced additive-noise model for memoryless Rayleigh-fading channels. IEEE Trans. Inf. Theory 52(4): 1756-1764 (2006) - [j9]Marcin Sikora, J. Nicholas Laneman, Martin Haenggi, Daniel J. Costello Jr., Thomas E. Fuja:
Bandwidth- and power-efficient routing in linear wireless networks. IEEE Trans. Inf. Theory 52(6): 2624-2633 (2006) - [j8]Deqiang Chen, J. Nicholas Laneman:
Modulation and demodulation for cooperative diversity in wireless systems. IEEE Trans. Wirel. Commun. 5(7): 1785-1794 (2006) - [c14]Deqiang Chen, J. Nicholas Laneman:
The Diversity-Multiplexing Tradeoff for the Multiaccess Relay Channel. CISS 2006: 1324-1328 - [c13]Shivaprasad Kotagiri, J. Nicholas Laneman:
Information Embedding in Degraded Broadcast Channels. ISIT 2006: 494-498 - [c12]Wenyi Zhang, Shivaprasad Kotagiri, J. Nicholas Laneman:
Information Transmission over the Postal Channel with and without Feedback. ISIT 2006: 2749-2753 - [c11]Chris T. K. Ng, J. Nicholas Laneman, Andrea J. Goldsmith:
The Role of SNR in Achieving MIMO Rates in Cooperative Systems. ITW 2006: 288-292 - [i3]Shivaprasad Kotagiri, J. Nicholas Laneman:
Multiple Access Channels with State Information Known at Some Encoders. CoRR abs/cs/0607102 (2006) - 2005
- [j7]J. Nicholas Laneman, Emin Martinian, Gregory W. Wornell, John G. Apostolopoulos:
Source-channel diversity for parallel channels. IEEE Trans. Inf. Theory 51(10): 3518-3539 (2005) - [i2]Wenyi Zhang, J. Nicholas Laneman:
How Good is Phase-Shift Keying for Peak-Limited Rayleigh Fading Channels in the Low-SNR Regime? CoRR abs/cs/0508121 (2005) - 2004
- [j6]J. Nicholas Laneman, David N. C. Tse, Gregory W. Wornell:
Cooperative diversity in wireless networks: Efficient protocols and outage behavior. IEEE Trans. Inf. Theory 50(12): 3062-3080 (2004) - [c10]Deqiang Chen, J. Nicholas Laneman:
Noncoherent demodulation for cooperative diversity in wireless systems. GLOBECOM 2004: 31-35 - [c9]J. Nicholas Laneman, Gerhard Kramer:
Window decoding for the multiaccess channel with generalized feedback. ISIT 2004: 281 - [c8]J. Nicholas Laneman, Emin Martinian, Gregory W. Wornell:
Source-channel diversity approaches for multimedia communication. ISIT 2004: 393 - [c7]Wenyi Zhang, J. Nicholas Laneman:
Benefits of correlated MIMO schemes for wideband communication. ISIT 2004: 414 - [c6]Marcin Sikora, J. Nicholas Laneman, Martin Haenggi, Daniel J. Costello Jr., Thomas E. Fuja:
On the optimum number of hops in linear wireless networks. ITW 2004: 165-169 - [i1]J. Nicholas Laneman, Emin Martinian, Gregory W. Wornell, John G. Apostolopoulos:
Source-Channel Diversity for Parallel Channels. CoRR abs/cs/0412113 (2004) - 2003
- [j5]J. Nicholas Laneman, Gregory W. Wornell:
Distributed space-time-coded protocols for exploiting cooperative diversity in wireless networks. IEEE Trans. Inf. Theory 49(10): 2415-2425 (2003) - [c5]J. Nicholas Laneman:
Limiting analysis of outage probabilities for diversity schemes in fading channels. GLOBECOM 2003: 1242-1246 - [c4]J. Nicholas Laneman, Emin Martinian, Gregory W. Wornell, John G. Apostolopoulos, Susie J. Wee:
Comparing application- and physical-layer approaches to diversity on wireless channels. ICC 2003: 2678-2682 - 2002
- [b1]J. Nicholas Laneman:
Cooperative diversity in wireless networks: algorithms and architectures. Massachusetts Institute of Technology, Cambridge, MA, USA, 2002 - [j4]J. Nicholas Laneman, Carl-Erik W. Sundberg, Christof Faller:
Huffman code based error screening and channel code optimization for error concealment in perceptual audio coding (PAC) algorithms. IEEE Trans. Broadcast. 48(3): 193-206 (2002) - [c3]J. Nicholas Laneman, Gregory W. Wornell:
Distributed space-time coded protocols for exploiting cooperative diversity in wireless networks. GLOBECOM 2002: 77-81 - 2001
- [j3]J. Nicholas Laneman, Carl-Erik W. Sundberg:
Soft selection combining for terrestrial digital audio broadcasting in the FM band. IEEE Trans. Broadcast. 47(2): 103-114 (2001) - [j2]J. Nicholas Laneman, Carl-Erik W. Sundberg:
Reed-Solomon decoding algorithms for digital audio broadcasting in the AM band. IEEE Trans. Broadcast. 47(2): 115-122 (2001) - 2000
- [c2]J. Nicholas Laneman, Gregory W. Wornell:
Energy-efficient antenna sharing and relaying for wireless networks. WCNC 2000: 7-12
1990 – 1999
- 1999
- [j1]Carl-Erik W. Sundberg, Deepen Sinha, David Mansour, Mohammad H. Zarrabizadeh, J. Nicholas Laneman:
Multistream hybrid in band on channel FM systems for digital audio broadcasting. IEEE Trans. Broadcast. 45(4): 410-417 (1999) - 1998
- [c1]J. Nicholas Laneman, Gregory W. Wornell:
Robust equalization for spread-response precoding systems. ICASSP 1998: 3513-3516
Coauthor Index
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last updated on 2024-04-24 23:20 CEST by the dblp team
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