Joseph M. Kahn
Joseph M. Kahn
Professor of Electrical Engineering, E. L. Ginzton Laboratory, Stanford University
Подтвержден адрес электронной почты в домене ee.stanford.edu - Главная страница
Название
Процитировано
Процитировано
Год
Wireless infrared communications
JM Kahn, JR Barry
Proceedings of the IEEE 85 (2), 265-298, 1997
34041997
Fading correlation and its effect on the capacity of multielement antenna systems
DS Shiu, GJ Foschini, MJ Gans, JM Kahn
IEEE Transactions on communications 48 (3), 502-513, 2000
31732000
Next century challenges: mobile networking for “Smart Dust”
JM Kahn, RH Katz, KSJ Pister
Proceedings of the 5th annual ACM/IEEE international conference on Mobile …, 1999
29321999
Free-space optical communication through atmospheric turbulence channels
X Zhu, JM Kahn
IEEE Transactions on communications 50 (8), 1293-1300, 2002
16672002
Capacity scaling in MIMO wireless systems under correlated fading
CN Chuah, DNC Tse, JM Kahn, RA Valenzuela
IEEE Transactions on Information theory 48 (3), 637-650, 2002
11812002
Compensation of dispersion and nonlinear impairments using digital backpropagation
E Ip, JM Kahn
Journal of Lightwave Technology 26 (20), 3416-3425, 2008
10872008
Coherent detection in optical fiber systems
E Ip, APT Lau, DJF Barros, JM Kahn
Optics express 16 (2), 753-791, 2008
10542008
Simulation of multipath impulse response for indoor wireless optical channels
JR Barry, JM Kahn, WJ Krause, EA Lee, DG Messerschmitt
IEEE journal on selected areas in communications 11 (3), 367-379, 1993
9741993
Feedforward carrier recovery for coherent optical communications
E Ip, JM Kahn
Journal of Lightwave Technology 25 (9), 2675-2692, 2007
4402007
Emerging challenges: Mobile networking for “smart dust”
JM Kahn, RH Katz, KSJ Pister
Journal of Communications and Networks 2 (3), 188-196, 2000
4172000
Experimental characterization of non-directed indoor infrared channels
JM Kahn, WJ Krause, JB Carruthers
IEEE Transactions on Communications 43 (2/3/4), 1613-1623, 1995
4091995
Modeling of nondirected wireless infrared channels
JB Carruthers, JM Kahn
IEEE transactions on communications 45 (10), 1260-1268, 1997
4071997
Spectral efficiency limits and modulation/detection techniques for DWDM systems
JM Kahn, KP Ho
IEEE Journal of selected topics in quantum electronics 10 (2), 259-272, 2004
3922004
Angle diversity for nondirected wireless infrared communication
JB Carruther, JM Kahn
IEEE Transactions on Communications 48 (6), 960-969, 2000
3782000
Digital equalization of chromatic dispersion and polarization mode dispersion
E Ip, JM Kahn
Journal of Lightwave Technology 25 (8), 2033-2043, 2007
3752007
Multiple-subcarrier modulation for nondirected wireless infrared communication
JB Carruthers, JM Kahn
IEEE Journal on Selected Areas in Communications 14 (3), 538-546, 1996
3381996
Performance bounds for coded free-space optical communications through atmospheric turbulence channels
X Zhu, JM Kahn
IEEE Transactions on communications 51 (8), 1233-1239, 2003
3142003
Differential pulse-position modulation for power-efficient optical communication
D Shiu, JM Kahn
IEEE transactions on communications 47 (8), 1201-1210, 1999
2981999
An autonomous 16 mm/sup 3/solar-powered node for distributed wireless sensor networks
BA Warneke, MD Scott, BS Leibowitz, L Zhou, CL Bellew, JA Chediak, ...
SENSORS, 2002 IEEE 2, 1510-1515, 2002
2842002
Broadband electro-optic frequency comb generation in a lithium niobate microring resonator
M Zhang, B Buscaino, C Wang, A Shams-Ansari, C Reimer, R Zhu, ...
Nature 568 (7752), 373-377, 2019
2652019
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