| Cooperative diversity in wireless networks: Efficient protocols and outage behavior JN Laneman, DNC Tse, GW Wornell IEEE Transactions on Information theory 50 (12), 3062-3080, 2004 | 15318 | 2004 |
| Distributed space-time-coded protocols for exploiting cooperative diversity in wireless networks JN Laneman, GW Wornell IEEE Transactions on Information theory 49 (10), 2415-2425, 2003 | 5037 | 2003 |
| Quantization index modulation: A class of provably good methods for digital watermarking and information embedding B Chen, GW Wornell IEEE Transactions on Information theory 47 (4), 1423-1443, 2001 | 2875 | 2001 |
| Secure transmission with multiple antennas—Part II: The MIMOME wiretap channel A Khisti, GW Wornell IEEE Transactions on Information Theory 56 (11), 5515-5532, 2010 | 1763 | 2010 |
| Energy-efficient antenna sharing and relaying for wireless networks JN Laneman, GW Wornell 2000 IEEE Wireless Communications and Networking Conference. Conference …, 2000 | 1176 | 2000 |
| Efficient use of side information in multiple-antenna data transmission over fading channels A Narula, MJ Lopez, MD Trott, GW Wornell IEEE Journal on selected areas in communications 16 (8), 1423-1436, 1998 | 975 | 1998 |
| An efficient protocol for realizing cooperative diversity in wireless networks JN Laneman, GW Wornell, DNC Tse Proceedings. 2001 IEEE International Symposium on Information Theory (IEEE …, 2001 | 956 | 2001 |
| Lattice-reduction-aided detectors for MIMO communication systems H Yao, GW Wornell Global Telecommunications Conference, 2002. GLOBECOM'02. IEEE 1, 424-428, 2002 | 678 | 2002 |
| Signal processing with fractals: a wavelet-based approach G Wornell Prentice Hall Press, 1996 | 663 | 1996 |
| Estimation of fractal signals from noisy measurements using wavelets GW Wornell, AV Oppenheim IEEE Transactions on signal processing 40 (3), 611-623, 1992 | 610 | 1992 |
| System method, and product for information embedding using an ensemble of non-intersecting embedding generators B Chen, GW Wornell US Patent 6,233,347, 2001 | 543 | 2001 |
| Wavelet-based representations for the 1/f family of fractal processes GW Wornell Proceedings of the IEEE 81 (10), 1428-1450, 1993 | 512 | 1993 |
| A Karhunen-Loeve-like expansion for 1/f processes via wavelets GW Wornell IEEE Transactions on Information Theory 36 (4), 859-861, 1990 | 423 | 1990 |
| Fundamental limits of communication with low probability of detection L Wang, GW Wornell, L Zheng IEEE Transactions on Information Theory 62 (6), 3493-3503, 2016 | 374 | 2016 |
| Signal processing in the context of chaotic signals. AV Oppenheim, GW Wornell, SH Isabelle, KM Cuomo icassp 4, 117-120, 1992 | 348 | 1992 |
| Digital watermarking and information embedding using dither modulation B Chen, GW Wornell 1998 IEEE Second Workshop on Multimedia Signal Processing (Cat. No. 98EX175 …, 1998 | 329 | 1998 |
| Quantization index modulation methods for digital watermarking and information embedding of multimedia B Chen, GW Wornell Journal of VLSI signal processing systems for signal, image and video …, 2001 | 308 | 2001 |
| Secure broadcasting over fading channels A Khisti, A Tchamkerten, GW Wornell IEEE transactions on information theory 54 (6), 2453-2469, 2008 | 297 | 2008 |
| Wavelet-based representations for a class of self-similar signals with application to fractal modulation GW Wornell, AV Oppenheim IEEE Transactions on Information Theory 38 (2), 785-800, 1992 | 291 | 1992 |
| Emerging applications of multirate signal processing and wavelets in digital communications GW Wornell Proceedings of the IEEE 84 (4), 586-603, 1996 | 273 | 1996 |
J Nicholas LanemanProfessor of Electrical Engineering, University of Notre Dame在 nd.edu 的电子邮件经过验证
