Institute for Mathematical Sciences

Beyond I.I.D. in Information Theory

(24 - 28 Jul 2017)

Visitor List

Mine Alsan
National University of Singapore, Singapore
Anurag Anshu
National University of Singapore, Singapore

Quantum message compression with application to quantum state redistribution

(PDF)

Stefan Baeuml
NTT Basic Research Laboratories, Japan
Debabrota Basu
National University of Singapore, Singapore
Tiago Batalhao
SUTD, Singapore
Salman Beigi
Institute for Research in Fundamental Sciences (IPM), Iran

Phi-entropic measures of correlation

(PDF)

Selma Belhadj Amor
National University of Singapore, Singapore
Mario Berta
California Institute of Technology, USA

A meta-converse for private communication over quantum channels

(PDF)

Naresh Boddu
National University of Singapore, Singapore
Ning Cai
ShanghaiTech University, China

Secure network coding

(PDF)

Hao-Chung Cheng
National Taiwan University, Taiwan
University of Technology Sydney, Australia

Quantum sphere-packing bounds and moderate deviation analysis for classical-quantum channels

(PDF)

Christopher Thomas Chubb
University of Sydney, Australia

Moderate deviation analysis for classical communication over quantum channels

(PDF)

Siddhartha Das
Louisiana State University, USA

Quantum reading capacity: general definition and bounds

(PDF)

Nilanjana Datta
University of Cambridge, UK
Tommaso Demarie
Singapore University of Technology and Design, Singapore
Demosthenes Ellinas
Technical University of Crete , Greece
Philippe Faist
California Institute of Technology, USA

Fundamental work cost in implementations of quantum processes

(PDF)

Omar Fawzi
École Normale Supérieure de Lyon, France
Ray Ganardi
Nanyang Technological University, Singapore
Michal Hajdusek
National University of Singapore, Singapore

Self-guaranteed measurement-based quantum computation

(PDF)

Guangyue Han
The University of Hong Kong, Hong Kong

Recent results on input-constrained erasure channels

(PDF)

Eric Hanson
Cambridge University, UK
Masahito Hayashi
Nagoya University, Japan and National University of Singapore, Singapore
Christoph Hirche
Universitat Autonoma de Barcelona, Spain

Bounds on information combining with quantum side information

(PDF)

Min-Hsiu Hsieh
University of Technology Sydney, Australia
Martin Idel
TNG Technology Consulting, Germany

Operational measures for squeezing

(PDF)

Raban Iten
ETH Zurich, Switzerland

Pretty good measures in quantum information theory

(PDF)

Kosuke Ito
Nagoya University, Japan

Optimal performance of generalized heat engines with finite-size baths of arbitrary multiple conserved quantities beyond I.I.D. scaling

(PDF)

Michael Jabbour
Université libre de Bruxelles, Belgium

Fock-majorization relation in passive bosonic channels

(PDF)

Rahul Jain
National University of Singapore, Singapore
Zhu Jing
National University of Singapore, Singapore
Victoria Kostina
California Institute of Technology, USA

Information-theoretic tradeoffs in control

(PDF)

Oliver Kosut
Arizona State University, USA

Finite blocklength bounds for adversarial channels

(PDF 1, PDF 2)

Mladen Kovacevic
National University of Singapore, Singapore
Srijita Kundu
National University of Singapore, Singapore
Ludovico Lami
Universitat Autònoma de Barcelona, Spain

Approximate reversal of quantum gaussian dynamics

(PDF)

Dariusz Lasecki
University of Waterloo, Poland
Felix Leditzky
University of Colorado, Boulder, USA

Upper bounds on the distillable entanglement under one-way and two-way LOCC

(PDF)

Si-Hyeon Lee
Pohang University of Science and Technology, Korea

Covert communication with channel-state information at the transmitter

(PDF)

Soojoon Lee
Kyung Hee University, Korea
Yonghae Lee
Kyung Hee University, Korea
Christian Majenz
University of Copenhagen, Denmark

Deconstruction and conditional erasure of quantum correlations

(PDF)

Atul Mantri
Singapore University of Technology and Design, Singapore
Chandra Nair
The Chinese University of Hong Kong, Hong Kong

Two instances where current single-letter expressions are sub-optimal

(PDF)

Baris Nakiboglu
Kai Lin Ong
Universiti Sains Malaysia, Malaysia
Narayanan Rengaswamy
Duke University, USA
Matteo Rosati
Scuola Normale Superiore di Pisa, Italy
Cambyse Rouzé
University of Cambridge, UK

Finite blocklength and moderate deviation analysis of hypothesis testing of correlated quantum states and application to classical-quantum channels with memory

(PDF)

Valerio Scarani
National University of Singapore, Singapore
Alexander Streltsov
University of Gdańsk, Poland

Entanglement and coherence in quantum state merging

(PDF)

Vincent Y. F. Tan
National University of Singapore, Singapore
Ying Zhe Ernest Tan
ETH Zurich, Switzerland
Hal Tasaki
Gakushuin University, Japan

Thermodynamics, statistical mechanics, and quantum mechanics

(PDF)

Marco Tomamichel
University of Technology Sydney, Australia

Renyi divergences as weighted non-commutative vector valued Lp-spaces

(PDF 1, PDF 2)

Lan Truong
National University of Singapore, Singapore
Gonzalo Vazquez Vilar
Universidad Carlos III de Madrid, Spain

Binary hypothesis testing and sphere-packing bounds

(PDF)

Tomas Vyskocil
Rutgers University, USA
Xin Wang
University of Technology Sydney, Australia

Semidefinite programming strong converse bounds for quantum channel capacities

(PDF)

Shun Watanabe
Tokyo University of Agriculture and Technology, Japan

Neyman-Pearson test and Hoeffding test

(PDF)

Mark Wilde
Louisiana State University, USA
Andreas Winter
Universitat Autònoma de Barcelona, Spain

Information efficiency of local data hiding in quantum systems

(PDF)

Hirosuke Yamamoto
The University of Tokyo, Japan

AIFV codes and their extended codes

(PDF)

Yuxiang Yang
The University of Hong Kong, Hong Kong

Compression of identically prepared quantum states

(PDF)

Jiajie Zeng
National University of Singapore, Singapore
Kejia Zhang
Heilongjiang University, China
Zhichao Zhang
National University of Singapore, Singapore
Lin Zhou
National University of Singapore, Singapore
Yuqian Zhou
National University of Singapore, Singapore
Quntao Zhuang
Massachusetts Institute of Technology, USA

The additive classical capacity of quantum channels assisted by noisy entanglement

(PDF)