Frequency synthesis for CMOS-based millimeter-wave communication systems. (IWT493)

In the past few years, the interest in the millimeter-wave spectrum at 30 to 300 GHz has drastically increased. The emergence of low cost high performance CMOS technology and low loss, low cost organic packaging material has opened a new perspective for system designers and service providers because it enables the development of millimeter-wave radio at the same cost structure of radios operating in the gigahertz range or less.

In combination with available ultra-wide bandwidths, this makes the millimeter-wave spectrum more attractive than ever before for supporting a new class of systems and applications ranging from ultra-high speed data transmission, video distribution, portable radar, sensing, detection and imaging of all kinds.

Keywords:Low Power Cmos, Numerical Linear Algebra, Digital Image Processing, Image Reconstruction, Embedded System Design, Displays, Audio Processing, Light Detectors, Micro-Electronics Technology, Sige Bicmos Design, Satellite Image Analysis, Medical Image Analysis, Inverse Problems, Telemedicine, JPEGx, Video Compression, Neural Networks, Mine Detection, Vision, Digital Signal Processing, Electronic System Design, Machine Vision, Micro Electronics, Chip Interconnects (Inter / Intra), Cmos Design, Humanitarian Demining, Speech Processing, Mpegx, Light Emitters, Pattern Recognition, Mm-Wave Technology, Robot Vision, Impedance Tomography, Image Compression, Light Modulators, Medical Image Visualization, Opto-Electronics, Motion Estimation And Tracking, Computer Aided Electronic Design, Multispectral Image Analysis, Electronics, Computer Vision, Image Processing, Industrial Visual Inspection, Image Analysis

Disciplines:Electrical and electronic engineering, Mathematical sciences and statistics, (Bio)medical engineering