Physical Principles of Radio Communication.- Radiolocation with Multiple Directional Antennas.- Forming the Radio Image with Multiple Antennas.- Radiolocator Design: High-Frequency Front End.- Radiolocator Design: Power Measurement and Digital Data Path.- Application to Wireless Networking: Tracking Sources in Real Time.- Application to Wireless Networking: Adaptive Response.- Engineering Aspects of the Transceiver Design.- Wider Application of Radiolocation in Digital Wireless Communication.- Appendices.
Thisvolumehasitsbeginningsinalaboratoryproject,developmentofaradiolocator for the Wi-Fi network that was growing by leaps and bounds on the campus of Indiana University at that time. What started as a very focused and practical attempt to improve network management, touched in its lifetime upon broader issues of the use of radio spectrum, design of system architectures for the wireless medium, and image formation outside the limits of geometrical optics. Ihaveintendedthisbookmostlyfortheaudienceofengineersandsystemdesi- ers, in the growing ?eld of radio communication among small, portable, ubiquitous devices that have become hybrid platforms for personal communication and p- sonal computing. It is also a book addressed to network professionals, people to whom radio is largely a black box, a medium that they usually rely upon, but s- dom fully understand. In fact, in the course of my work in the ?eld, I have witnessed, to my dismay, a wide disconnect between the networking world and the radio technology that n- working has come to depend upon so heavily. Perhaps, because digital wireless communication is seen as digital ?rst and wireless second, there is often a m- placed emphasis on its information-processingside, with the methodologycentered around the discrete symbol, and with little intuition of the underlying physics. I had it once suggested to me, in apparent seriousness, to use radio cards for intra-system communication within a radiolocator! Wireless communication is radio, plain and simple.
Description of a real-time, single-packet radiolocation methodology
Detailed description of the architecture of two generations of working prototypes
Analysis of extensions and generalizations of this methodology to other applications