IEICE Technical Committee Submission System
Conference Schedule
Online Proceedings
[Sign in]
Tech. Rep. Archives
    [Japanese] / [English] 
( Committee/Place/Topics  ) --Press->
 
( Paper Keywords:  /  Column:Title Auth. Affi. Abst. Keyword ) --Press->

All Technical Committee Conferences  (Searched in: All Years)

Search Results: Conference Papers
 Conference Papers (Available on Advance Programs)  (Sort by: Date Descending)
 Results 1 - 18 of 18  /   
Committee Date Time Place Paper Title / Authors Abstract Paper #
QIT
(2nd)
2023-12-18
14:30
Okinawa OIST
(Primary: On-site, Secondary: Online)
Advantage of Quantum Machine Learning from General Computational Advantages
Hayata Yamasaki, Natsuto Isogai, Mio Murao (UTokyo)
Demonstrating the existence of general learning problems where machine learning using quantum computers exhibits rigorou... [more]
QIT
(2nd)
2023-12-18
15:15
Okinawa OIST
(Primary: On-site, Secondary: Online)
Optimal protocols for universal adjointation of isometry operations -- Protocol design by quantum supersupermaps --
Satoshi Yoshida (UTokyo), Akihito Soeda (NII), Mio Murao (UTokyo)
We consider a universal transformation of isometry operations to unify universal transformations of quantum states and u... [more]
QIT
(2nd)
2023-12-17
17:30
Okinawa OIST
(Primary: On-site, Secondary: Online)
[Poster Presentation] An entanglement-efficient distributed implementation for multiple global controlled-unitary gates and its application for quantum circuits.
Kosuke Matsui (Tokyo Univ.), Jun-Yi Wu (Tamkang Univ./NCTS), Akihito Soeda (NII/SOKENDAI), Mio Murao (Tokyo Univ.)
 [more]
QIT
(2nd)
2022-12-09
16:45
Kanagawa Keio Univ.
(Primary: On-site, Secondary: Online)
Universal decoding of a single qubit information: deterministic and exact protocol
Satoshi Yoshida (UTokyo), Akihito Soeda (NII), Mio Murao (UTokyo)
In this work, we report a deterministic and exact protocol to reverse any unknown qubit-encoding isometry operation. We ... [more]
QIT
(2nd)
2021-11-30
10:10
Online Online Comparison of unknown unitary channels
Yutaka Hashimoto, Akihito Soeda, Mio Murao (UTokyo)
 [more]
QIT
(2nd)
2021-11-30
12:10
Online Online Universal construction of decoders from unknown encoders
Satoshi Yoshida, Akihito Soeda, Mio Murao (Univ. Tokyo)
This work considers transformations of encoding operations of quantum information that are given as black box isometry o... [more]
QIT
(2nd)
2020-12-10
13:00
Online Online [Poster Presentation] Efficient decoding of stabilizer code by local operations and classical communication
Koki Shiraishi (The Univ. of Tokyo), Hayata Yamasaki (IQOQI Vienna), Mio Murao (The Univ. of Tokyo)
We present protocols to decode one-qubit quantum information encoded in a multiple qubit state according to a stabilizer... [more]
QIT
(2nd)
2016-11-25
16:30
Ibaraki KEK Kobayashi-hall Higher-order quantum information processing by Grover search and digitalized quantum annealing
Shojun Nakayama (NII), Akihito Soeda, Mio Murao (UTokyo)
The input and output of quantum information processing may be represented by a quantum gate, in which case, the correspo... [more]
QIT
(2nd)
2015-11-25
11:50
Kanagawa NTT Atsugi R&D center No error-free implementation of quantum controlled-gates is possible without prior knowledge of the target gate
Akihito Soeda (U Tokyo), Shojun Nakyama (NII), Mio Murao (U Tokyo)
 [more]
QIT
(2nd)
2015-11-24
13:40
Kanagawa NTT Atsugi R&D center [Poster Presentation] Distributed Construction of Multipartite Entangled States over Quantum Networks
Hayata Yamasaki, Akihito Soeda, Mio Murao (Univ. Tokyo)
 [more]
QIT
(2nd)
2013-11-18
10:20
Tokyo Waseda Univ. Translating measurement-based quantum computation with gflow into quantum circuit
Jisho Miyazaki, Michal Hajdusek, Mio Murao (Univ. Tokyo)
Flow and gflow are ordering relations on a graph that guarantee deterministic implementations of a unitary by measuremen... [more]
QIT
(2nd)
2013-11-18
10:40
Tokyo Waseda Univ. Parallelized adiabatic gate teleportation
Kosuke Nakago, Michal Hajdusek, Shojun Nakayama, Mio Murao (Tokyo Univ.)
We study adiabatic gate teleportation (AGT), a model of quantum computation recently proposed by D. Bacon and S. T. Fla... [more]
QIT
(2nd)
2013-11-18
- 2013-11-19
Tokyo Waseda Univ. [Poster Presentation] Operational Meaning of Entanglement Entropy in Anyonic Systems
Kohtaro Kato, Fabian Furrer, Mio Murao (Tokyo Univ.)
We present an information theoretical approach to entanglement in pure bipartite anyonic systems by introducing a proper... [more]
QIT
(2nd)
2013-05-28
10:20
Hokkaido Hokkaido Univ. Measurement-Based Quantum Computation on Symmetry Breaking Thermal States
Keisuke Fujii (Osaka Univ. (Kyoto Univ.)), Yoshifumi Nakata (Univ. Tokyo (Univ. Hannover)), Masayuki Ohzeki (Kyoto Univ.), Mio Murao (Univ. Tokyo)
 [more]
QIT
(2nd)
2012-11-27
16:00
Kanagawa Keio Univ. Hiyoshi Campus Direct evaluation of pure graph state entanglement
Michal Hajdusek, Mio Murao (University of Tokyo)
We address the question of quantifying entanglement in pure graph states. We show that three measures of multipartite en... [more]
QIT
(2nd)
2012-05-21
10:20
Fukui Fukui Univ. Universal construction of controlled-unitary gates using dynamical decoupling
Shojun Nakayama (UT), Akihito Soeda (NUS), Mio Murao (UT)
 [more]
QIT
(2nd)
2012-05-21
17:20
Fukui Fukui Univ. Phase-random states and their approximate generation
Yoshifumi Nakata, Peter S. Turner, Mio Murao (Univ. Tokyo)
Motivated by studies of typical properties of quantum states in statistical mechanics, we introduce phase-random states,... [more]
QIT
(2nd)
2011-11-21
14:40
Osaka Osaka Univ. Engr. Sci. Sigma Hall (Toyonaka) [Poster Presentation] Adaptive quantum state estimation based on A-optimality criterion
Takanori Sugiyama, Peter S. Turner, Mio Murao (Univ. of Tokyo)
As opposed to quantum tomography which is an estimation method where the measurement bases are fi xed, adaptive quantum ... [more]
 Results 1 - 18 of 18  /   
Choose a download format for default settings. [NEW !!]
Text format pLaTeX format CSV format BibTeX format


[Return to Top Page]

[Return to IEICE Web Page]


The Institute of Electronics, Information and Communication Engineers (IEICE), Japan