J
James N. Murdock
Researcher at University of Texas at Austin
Publications - 14
Citations - 3627
James N. Murdock is an academic researcher from University of Texas at Austin. The author has contributed to research in topics: Antenna (radio) & Wireless. The author has an hindex of 11, co-authored 14 publications receiving 3379 citations.
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Journal ArticleDOI
State of the Art in 60-GHz Integrated Circuits and Systems for Wireless Communications
TL;DR: An overview of the technological advances in millimeter-wave circuit components, antennas, and propagation that will soon allow 60-GHz transceivers to provide multigigabit per second (multi-Gb/s) wireless communication data transfers in the consumer marketplace is presented.
Journal ArticleDOI
Broadband Millimeter-Wave Propagation Measurements and Models Using Adaptive-Beam Antennas for Outdoor Urban Cellular Communications
Theodore S. Rappaport,Felix Gutierrez,Eshar Ben-Dor,James N. Murdock,Yijun Qiao,Jonathan I. Tamir +5 more
TL;DR: Measurements and models that may be used to design future fifth-generation millimeter-wave cellular networks are provided and insight into antenna beam steering algorithms for these systems are given.
Proceedings ArticleDOI
38 GHz and 60 GHz angle-dependent propagation for cellular & peer-to-peer wireless communications
TL;DR: This work presents urban cellular and peer-to-peer RF wideband channel measurements using a broadband sliding correlator channel sounder and steerable antennas at carrier frequencies of 38 GHz and 60 GHz, and presents measurements showing the propagation time delay spread and path loss as a function of separation distance and antenna pointing angles for many types of real-world environments.
Journal ArticleDOI
60 GHz Wireless: Up Close and Personal
TL;DR: Several ongoing challenges are surveyed, including the design of cost-efficient and low-loss on-chip and in-package antennas and antenna arrays, the characterization of CMOS processes at millimeter-wave frequencies, the discovery of efficient modulation techniques that are suitable for the unique hardware impairments and frequency selective channel characteristics at millimeters-wavefrequency.