FR3.R2.1

Nobody Expects a Differential Equation: Minimum Energy-Per-Bit for the Gaussian Relay Channel with Rank-1 Linear Relaying

Oliver Kosut, Arizona State University, United States; Michelle Effros, California Institute of Technology, United States; Michael Langberg, University of Buffalo, United States
Session:
Network Information Theory 2
Track:
7: Network Information Theory
Location:
Ypsilon I-II-III
Presentation Time:
Fri, 12 Jul, 14:35 - 14:55
Session Chair:
Michael Gastpar, EPFL
Presentation
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Discussion
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Session FR3.R2
FR3.R2.1: Nobody Expects a Differential Equation: Minimum Energy-Per-Bit for the Gaussian Relay Channel with Rank-1 Linear Relaying
Oliver Kosut, Arizona State University, United States; Michelle Effros, California Institute of Technology, United States; Michael Langberg, University of Buffalo, United States
FR3.R2.2: Sliding Secure Symmetric Multilevel Diversity Coding
Tao Guo, Southeast University, China; Laigang Guo, Beijing Normal University, China; Yinfei Xu, Southeast University, China; Congduan Li, Sun Yat-sen University, China; Shi Jin, Southeast University, China; Raymond W. Yeung, The Chinese University of Hong Kong, Hong Kong SAR of China
FR3.R2.3: Universal Source Encryption under Side-Channel Attacks
Yasutada Oohama, Bagus Santoso, University of Electro-Communications, Japan
FR3.R2.4: Simultaneous Computation and Communication over MAC
Matthias Frey, The University of Melbourne, Australia; Igor Bjelaković, Fraunhofer Heinrich Hertz Institute, Germany; Michael Gastpar, École Polytechnique Fédérale de Lausanne, Switzerland; Jingge Zhu, The University of Melbourne, Australia
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