Impulse radio (IR) UWB technology is widely considered as physical layer for future power-efficient and low-complexity short-range data transmission systems. By eliminating channel estimation at the receiver, variants of IR-UWB such as differential transmitted reference (DTR) IR-UWB have enabled further reductions of detection complexity. However, unless advanced receiver techniques such as multiple-symbol differential detection are employed, the complexity reduction comes at the cost of a dramatically reduced power efficiency. The proposed project is concerned with the enhancement of the powerefficiency- vs.-complexity tradeoff for DTR IR-UWB systems.Since for the combination of demodulation and channel decoding, soft-output multiple- symbol detector are of major importance, the first part of the project will investigate sphere-decoder-type algorithms generating soft output tailored to the specific situation of DTR IR-UWB systems. The quality of the soft output as well as the required complexity will be of interest. In the second part of the project, the up-link in an IR-UWB multiuser scenario is studied with focus on joint receivers for this multiple-access scheme.In particular, algorithms for jointly performing multiple-symbol and multi-user detector are to be designed. In addition, the extension of the receiver to also treat narrow-band interferer will be investigated. Receiver concepts with manageable complexity, as well as fundamental limits from information theory for the exchange of power and bandwidth efficiency will be assessed.

DFG Programme Priority Programmes

Subproject of SPP 1202:  Ultra-Wideband Radio Technologies for Communications, Localisation and Sensor Applications (UkoLoS)

International Connection Canada

Participating Person Professor Dr.-Ing. Johannes Huber