Hardware Technologies for Robust Personal Communication Transceivers.
Abstract
The overall goal of this research project is to develop low-power personal communications transceiver hardware technologies, coupled with advanced systems techniques such as antenna diversity, channel coding, and adaptive power control, for achieving robust wireless digital data transmission over multipath fading channels. A frequency hopped, spread spectrum (FH/SS), code division, multiple access (CDMA) technique was chosen over other multiple access schemes because: (a) it provides an inherent immunity to multipath fading and (b) signal processing is performed at the hopping rate, which is much slower than the chip rate encountered either in a direct sequence (1)S) CDMA or time division, multiple access (TDMA) system, thereby potentially resulting in much lower receiver power consumption. The project is organized into four major tasks: (1) System Architecture/Performance Evaluation (Prof. C. Pottie) (2) Receiver Architecture/Signal Processing (Prof. H. Samueli) (3) Analog Systems/Circuits (Prof. A. Abidi) (4) Miniature Antenna Design (Prof. Y. Rahmat-Samii)
Document Details
- Document Type
- Technical Report
- Publication Date
- Jul 01, 1995
- Accession Number
- ADA317615
Entities
People
- Asad A. Abldi
- Gregory J. Pottie
- Henry Samuell
- Ken Gabriel
- Yahya Rahmat-samii
Organizations
- University of California, Los Angeles