166 BIBLIOGRAPHY [11] <strong>Markus</strong> Muck, Philippe Bernardin, Patrick Labé, Xavier Miet, Dirk Pannicke, and Jens Schönthier. Prototyping of a hybrid 5GHz/60GHz OFDM WLAN system in the framework of IST-BroadWay. In Proceedings of the Mobile IST Summit, Dresden, Germany, June 2005. [12] <strong>Markus</strong> Muck, Xavier Miet, Marc de Courville, and Pierre Duhamel. A Successive Minimum- Mean-Square-Error OFDM-Data-Symbol Cancellation Scheme for Channel Estimation in the Pseudo-Random-Postfix OFDM Context. In Defensive Publication. Patent Database, 2004. [13] David Falconer, Stefan Kaiser, Marc De Courville, Rui Dinis, Jean-Philippe Javaudin, Tad Matsumoto, <strong>Markus</strong> Muck, and Arne Svensson. WWRF Working Group 4 White Paper: Broadband Frequency Domain-Based Air-Interfaces for Future-Generation Wireless Systems. In Wireless World Research Forum, 13th meeting, Jeju Island, Korea, March 2005. [14] Patrick Labbé, <strong>Markus</strong> Muck, Jens Schoenthier, Dirk Pannicke, Konstantinos Ntagkounakis, and Emil Entchev. Final project report, IST-2001-32686 BroadWay project. Technical report, IST- BROADWAY project, IST-2001-32686, available at http://www.ist-broadway.org, 2005. [15] <strong>Markus</strong> Muck, Jens Schoenthier, and Dirk Pannicke. Final BroadWay Base-Band Description and Evaluation, IST-2001-32686 BroadWay project. Technical report, IST-BROADWAY project, IST-2001-32686, available at http://www.ist-broadway.org, 2005. [16] Patrick Labbé, Jérémy Gosteau, <strong>Markus</strong> Muck, and Joerg Pamp. Evaluation and verification of the micro and macro diversity concepts for 60GHz type of applications, Release II, IST-2001- 32686 BroadWay project. Technical report, IST-BROADWAY project, IST-2001-32686, available at http://www.ist-broadway.org, 2005. [17] Jens Schoenthier, <strong>Markus</strong> Muck, Konstantinos Ntagkounakis, and Emil Entchev. Demonstration of key system elements, Release II, IST-2001-32686 BroadWay project. Technical report, IST- BROADWAY project, IST-2001-32686, available at http://www.ist-broadway.org, 2005. [18] <strong>Markus</strong> Muck, Dirk Pannicke, Jens Schoenthier, and Jochen Ertel. Extended Baseband Algorithms Implementation and Test Results Document, IST-2001-32686 BroadWay project. Technical report, IST-BROADWAY project, IST-2001-32686, available at http://www.ist-broadway.org, 2004. [19] <strong>Markus</strong> Muck, Jens Schoenthier, Kai-Uwe Schmidt, and Michael Benedix. Algorithm Enhancement Definition, Release III, IST-2001-32686 BroadWay project. Technical report, IST- BROADWAY project, IST-2001-32686, available at http://www.ist-broadway.org, 2004. [20] <strong>Markus</strong> Muck, Jens Schoenthier, Sven Zeisberg, Veronique Buzenac-Settineri, Sebastien Simoens, Laurent Mazet, and Marc de Courville. BroadWay Baseband Requirements, IST-2001-32686 BroadWay project. Technical report, IST-BROADWAY project, IST-2001-32686, available at http://www.ist-broadway.org, 2005. [21] Auer G., Bogucka H., Bonnet J., Costa E., Falahati S., Falconer D., Galda D., Hamon M.-H., Javaudin J.-P., Kansanen K., Klang G., Langowski A., Lestable T., Li Z., Muck M., Nyström J., Piatyszek A., Richter G., Sternad M., Tujkovic D., Tyczka P., Wesolowski K., Teng Y., and Zimmermann E. Deliberable D2.1: Identification of Radio-Link Technologies. Technical report, IST-WINNER project, IST-2003-507581, available at http://www.ist-winner.org, 2004. [22] Gunther Auer, David Bateman, Jérôme Bonnet, David Falconer, Jean-Philippe Javaudin, <strong>Markus</strong> Muck, Gerd Richter, Andreas Saul, Sandro Sital, Krzysztof Wesolowski, and Janusz Pochmara.
BIBLIOGRAPHY 167 Deliverable D2.2: Feasibility of Multi-Bandwidth Transmissions. Technical report, IST-WINNER project, IST-2003-507581, available at http://www.ist-winner.org, 2004. [23] Gunther Auer, Jérôme Bonnet, Elena Costa, Zbigniew Dlugaszewski, David Falconer, Rainer Grünheid, Marie-Hélène Hamon, Jean-Philippe Javaudin, Kimmo Kansanen, Göran Klang, Chan Tong Lam, Jouko Leinonen, Thierry Lestable, Zexian Li, Benjamin Ng, <strong>Markus</strong> Muck, Stephan Stiglmayr, Maryam Sabbaghian, Yong Teng, Nenad Veselinovic, Krzysztof Wesolowski, and Ernesto Zimmermann. Deliverable D2.3: Assessment of Radio-link technologies. Technical report, IST-WINNER project, IST-2003-507581, available at http://www.ist-winner.org, 2005. [24] Angeliki Alexiou, Gunther Auer, Johan Axnäs, David Bateman, Mats Bengtsson, Ting Chen, Pedro Coronel, Elena Costa, Martin Döttling, Sorour Falahati, David Falconer, Gharavi Leila, Reiner Grünheid, Martin Haardt, Jean-Philippe Javaudin, Niklas Johansson, Volker Jungnickel, Ateet Kapur, Juha Karjalainen, Thanh Tung Kim, Ole Klein, Patrick Labbé, Jouko Leinonen, Thierry Lestable, Zexian Li, Geneviève Mange, Abdelkader Medles, <strong>Markus</strong> Muck, Sebastian Obermanns, Pirjo Pasanen, Adam Piatyszek, Stéphanie Rouquette-Léveil, Thomas Sälzer, Wolfgang Schott, Sandro Sital, Per Skillermark, Anti Sorri, Veljko Stankovic, Mikael Sternad, Kai-Erik Sunell, Tommy Svensson, Yong Teng, Samuli Visuri, Krzysztof Wesolowski, Thorsten Wild, and Ernesto Zimmermann. Deliverable D2.9: Implementation Impact of Candidate Key Technologies. Technical report, IST-WINNER project, IST-2003-507581, available at http://www.ist-winner.org, 2005. [25] Marten Sundberg. Pseudo random postfix (prp) ofdm. Technical report, Ericsson Research and Department of Signals and Systems at Uppsala University, 2005. [26] Yi Ma, Na Yi, and Rahim Tafazolli. Channel Estimation for PRP-OFDM in Slowly Time-Varying Channel: First-Order or Second-Order Statistics ? IEEE Signal Processing Letters, to appear, 2006. [27] <strong>Markus</strong> Muck, Stéphanie Rouquette-Léveil, and Marc de Courville. Reconfigurable Low Density Parity Check (LDPC) Code Interleaving for OFDM. In Submitted to the IST Mobile Wireless and Communication Summit Conference, Greece, June 2006. [28] <strong>Markus</strong> Muck, Stéphanie Rouquette-Léveil, and Marc de Courville. Reconfigurable Low Density Parity Check (LDPC) Code Interleaving for SISO and MIMO OFDM Systems. In Submitted to the IEEE International Workshop on Signal Processing Advances for Wireless Communications (SPAWC), Cannes, France, June 2006. [29] M. de Courville, S. Zeisberg, <strong>Markus</strong> Muck, and J. Schönthier. BroadWay: the Way to Broadband Access at 60GHz. In International Conference on Telecommunications, Beijing, China, June 2002. [30] W. Mohr, L. Hiebinger, J. von Häfen, E. M. Diaz, P. Gelpi, T. Jämsä, G. Malmgren, P. Ojanen, and D. C. Schultz. The WINNER project: Research for new radio interfaces for better mobile services. In Proceedings of the Mobile IST Summit, Lyon, France, June 2004. [31] Sean Coffey and Adrian Stephens and <strong>Markus</strong> Muck and Marc de Courville and Stéphanie Rouquette-Léveil and Jean-Noël Patillon et al. Joint Proposal: High throughput extension to the 802.11 Standard: PHY, IEEE 802.11-05/1102r2. Standard Proposal, IEEE Standards Department, Vancouver, Canada, November 2005.
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Thèse présentée pour obtenir le
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Acknowledgements I would like to st
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Abstract This thesis presents a nov
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Résumé étendu en français La th
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˜sN(k) ˜s0(k) ˜s1(k) ˜sN−1(k)
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Le schéma à l’erreur moyenne qu
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Les séquences sont trouvées en ex
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Absolute Amplitude Absolute Amplitu
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Absolute Amplitude Absolute Amplitu
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˜s( j) 1 × 1 S/P ˜s( j) N × 1 F
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Suppression itérative d’interfé
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Channel coefficients |C| Data bits
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il est démontré comment dériver
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Abbreviations, Definition of Operat
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NOTATIONS 0D×D D × D matrix conta
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GPRP ZF (i) Zero Forcing (ZF) based
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˜p(z) z transformation of time dom
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tr Check node degree of regular LDP
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φconst Constant phase offset ψ(k)
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Contents xxxv 1 General Introductio
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CONTENTS xxxvii 7.3.2 The new itera
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Chapter 1 General Introduction Adva
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1. GENERAL INTRODUCTION 3 how IIS c
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Chapter 2 Orthogonal Frequency Divi
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2.2. FILTER-BANK BASED REPRESENTATI
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2.3. DISCRETE REPRESENTATION OF THE
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2.3. DISCRETE REPRESENTATION OF THE
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2.3. DISCRETE REPRESENTATION OF THE
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2.3. DISCRETE REPRESENTATION OF THE
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2.4. IMPACT OF SYNCHRONIZATION IMPA
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2.5. STRENGTHS AND WEAKNESSES OF OF
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2.6. EXAMPLE OF AN OFDM SYSTEM 21 T
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Chapter 3 Pseudo Random Postfix OFD
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3.2. NOTATIONS AND PRP-OFDM MODULAT
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3.3. ORDER ONE SEMI-BLIND CHANNEL E
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3.3. ORDER ONE SEMI-BLIND CHANNEL E
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3.3. ORDER ONE SEMI-BLIND CHANNEL E
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3.3. ORDER ONE SEMI-BLIND CHANNEL E
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3.4. ORDER ONE SEMI-BLIND CHANNEL E
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3.5. SYMBOL RECOVERY: EQUALIZATION
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3.6. SYMBOL RECOVERY: METRIC DERIVA
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3.7. LOW COMPLEXITY RECEIVER ARCHIT
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3.8. SIMULATION RESULTS 43 dummy PR
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3.8. SIMULATION RESULTS 45 1/MSE [d
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3.8. SIMULATION RESULTS 47 BER 10 0
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3.8. SIMULATION RESULTS 49 3.8.3 Si
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3.8. SIMULATION RESULTS 51 BER 10 0
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3.8. SIMULATION RESULTS 53 BER 10 0
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3.8. SIMULATION RESULTS 55 BER 10 0
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Chapter 4 Pseudo Random Postfix OFD
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4.3. PRP-OFDM POSTFIX DESIGN CONSTR
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4.3. PRP-OFDM POSTFIX DESIGN CONSTR
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4.4. ITERATIVE DERIVATION OF A SUIT
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4.5. EXAMPLE OF POSTFIX DESIGN 65 4
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4.6. CONCLUSION 67 Absolute Amplitu
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4.6. CONCLUSION 69 Absolute Amplitu
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4.6. CONCLUSION 71 Sample nb Amplit
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4.6. CONCLUSION 73 Sample nb Amplit
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Chapter 5 Synchronization Refinemen
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5.3. TIME SYNCHRONIZATION ASPECTS 7
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5.3. TIME SYNCHRONIZATION ASPECTS 7
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5.3. TIME SYNCHRONIZATION ASPECTS 8
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5.4. FREQUENCY OFFSET ESTIMATION 83
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5.5. SIMULTANEOUS PRESENCE OF TIME
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5.7. CONCLUSION 87 intervals are di
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Chapter 6 Pseudo Random Postfix Ort
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6.3. ORDER-ONE MIMO CHANNEL ESTIMAT
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6.3. ORDER-ONE MIMO CHANNEL ESTIMAT
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6.3. ORDER-ONE MIMO CHANNEL ESTIMAT
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6.4. EXAMPLES OF TRANSCEIVER DESIGN
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6.5. SIMULATION RESULTS 99 The D ×
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6.6. CONCLUSION 101 4. QAM-64 appli
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6.6. CONCLUSION 103 BER 10 0 10 −
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Chapter 7 Iterative Interference Su
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7.3. CHANNEL ESTIMATION 107 Let CIS
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7.3. CHANNEL ESTIMATION 109 Theorem
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7.4. SIMULATION RESULTS 111 ∑ a
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7.5. CONCLUSION 113 CIR MSE [dB]
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- Page 217 and 218: BIBLIOGRAPHY 173 Dlugaszewski, Adam
- Page 219 and 220: BIBLIOGRAPHY 175 [134] David Decler