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我老板现在要招一个博士生，欢迎申请或转载。学校名是EURECOM ，在法国。大家可能很少听到EURECOM这个名字，但是这个学校在信息通信，网络，安全和多媒体方面还是享有声誉的，目前已经有3个FELLOW 了。包奖学金（很可观）职位要求可以看附件或下面，说实话，最好是理论功底强的，GRE不需要，托福是为了拿签证。大家直接跟老板联系。 ============================== PhD Student Position Available in Wireless Communication Networks at EURECOM - Sophia Antipolis, Cote d'Azur France Starting: Early 2012 PhD Fully Funded by Comprehensive Scholarship · Research with emphasis in in multimode communications networks of the future · EURECOM – Sophia Antipolis, French Riviera ( www.eurecom.fr/cm.en.htm ) · Contact Prof. Petros Elia ( elia@eurecom.fr ) ( www.eurecom.fr/people/elia.en.htm ) Description of Research: Interdisciplinary research in the general area of wireless communication networks, · Proposed research combines engineering and mathematics, theory and practice · Topic strongly embraced by both academia and industry Subtopics will potentially include: · Multiuser networks – cooperation and interference management · Complexity of information extraction in wireless communications networks · Stochastic network optimization and resource allocation · Network and MIMO transceiver techniques · Information theoretic analysis · Surveillance networks aspects Expected Qualifications of PhD Candidates: Students with a strong mathematical background, preferably in topics such as analysis, random processes, linear algebra. Salient features of PhD Position and Research Topic: · Studies, salary and benefits fully funded by scholarship · Participation in European networks-of-excellence and research projects · Collaborations with leading research groups · Advanced courses Electrical Engineering and Mathematics · Very competitive salary and benefits package · Fully funded attendance to international conferences Wireless Communication Networks Description of Research: Interdisciplinary research in the general area of wireless communication networks, with emphasis in multimode networks of the future, with subtopics potentially including: · Multiuser networks – cooperation and interference management · Complexity of information extraction in wireless communications networks · Stochastic network optimization and resource allocation · Network and MIMO transceiver techniques · Information theoretic analysis · Surveillance networks aspects Research in the area of wireless communication networks has recently experienced an unprecedented embrace by both industry and academia. Interest has been fueled by advances that promise exponential gains in the error performance of networks with reduced structure, little central oversight, and limited computational capabilities. The research area's utility and challenging nature is demonstrated both by the contributions from a variety of disciplines, such as information theory, discrete mathematics, game theory and finance, as well as from the effort to unify the above and to bring forth the inherent complexities of multi-terminal communication and interaction. In pace with the above challenges, the proposed Thesis will seek to explore the theoretical limitations of network communications, propose novel network communication schemes, novel resource allocation schemes, invent cooperation protocols, and investigate fundamental performance/complexity tradeoffs. The research will seek to provide an in-depth and unifying exposition to the complex nature of analyzing, coding, cooperating, controlling and competing in wireless networks, utilizing the intricacies of multi-terminal network theory and the advanced mathematical structures that support network communication and interactions. Furthermore the proposed research will study advanced telecommunications and resource allocation techniques for opportunistic and cooperative multi-user communications for complex and dynamically changing wireless networks. This is a fascinating area that uses advanced mathematical tools towards analysis and optimization of large-scale networks which can change arbitrarily fast, and in which actions have a strict delay constraint and strict practicality limitations. The proposed Ph.D. Thesis is highly conducive to inter-disciplinary collaboration, it builds on a diverse set of theoretical breakthroughs (• random matrix theory • discrete mathematics • combinatorics • algebraic geometry) and has been strongly embraced by technology (• sensor networks • decentralized/opportunistic networks • network control-communication-cooperation). At the end of the day, the proposed work will aim to provide for theoretical breakthroughs as well as practical solutions to problems in complex wireless networks. The work is a natural continuation of our current research which has been repeatedly awarded at the European and international levels. ==============================

PhD Student Position Available - EURECOM in France