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requisition # e1885205
job title up to 6 months internship at qualcomm r&d centre nuremberg, germany
post date 08/20/2011
division corporate research & development
job area engineering - systems
location germany - nuremberg
job function qualcomm is the world leader in 3g and next-generation mobile technologies. connecting people more closely to information, entertainment and each other, qualcomm ideas and inventions have driven the evolution of wireless communciations, for 25 years.position location, self-organized networks, multi-antenna techniques, and automotive machine-type communications, spectrum engineering, this includes r&d on advanced receivers, interference management.
qualcomms nuremberg research & development center contributes to development of advanced radio and network systems technologies for the further evolution of 3gpp lte/eps standards, and is developing and standardizing solutions to problems in exitsing networks.
skills/experience good knowledge in digital signal processing, basic knowledge of radio channel modeling and ranging algorithms, solid knowledge and experience in matlab and c++.
education requirements msc students with major in communications. the follwoing takss shuold be perfromed:
1)litearture stduy on existing avaialble uwb channel moedls,
in deatil.making wireless devices and services more personal, today, qualcomm technologies are powering the convergence of mobile communications and consumer electronics, affordable and accessible to people everywhere.the impact of multi-path propagation on round-trip time (rtt) based distance measurements shall be studied, further.
responsibilities implementation and simulative evaluation of ultra-wideband (uwb) radio channel models for personal area networks (pan) for various indoor and short-range outdoor environments.
2)setup of a radio-link simulator (using matlab and c++) of an uwb-based communication system, integration of the radio channel models and evaluation of some specified ranging algorithms.
3)evaluation of the impact of various radio conditions/environments on the estimation of round-trip time (rtt) based distance measurements.
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