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ORCIDYutaka Jitsumatsu
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2020 – today
- 2023
[j5]Tania Sultana, Sho Kurosaki, Yutaka Jitsumatsu, Shigehide Kuhara, Jun'ichi Takeuchi:
Brain Tumor Classification using Under-Sampled k-Space Data: A Deep Learning Approach. IEICE Trans. Inf. Syst. 106(11): 1831-1841 (2023)- [c34]Yutaka Jitsumatsu:
Computation of Marton's Error Exponent for Discrete Memoryless Sources. ISIT 2023: 1372-1377 - [i6]Yutaka Jitsumatsu:
Computing the optimal error exponential function for fixed-length lossy coding in discrete memoryless sources. CoRR abs/2304.11558 (2023) - [i5]Yutaka Jitsumatsu:
Computation of the optimal error exponent function for fixed-length lossy source coding in discrete memoryless sources. CoRR abs/2312.03784 (2023) - [i4]Yutaka Jitsumatsu:
2D Sinc Interpolation-Based Fractional Delay and Doppler Estimation Using Time and Frequency Shifted Gaussian Pulses. CoRR abs/2312.04969 (2023) - 2022
- [i3]Yutaka Jitsumatsu, Yasutada Oohama:
A Family of Algorithms for Computing Information-Theoretic Forms of Strong Converse Exponents in Channel Coding and Lossy Source Coding. CoRR abs/2205.06027 (2022) - 2021
- [j4]Yutaka Jitsumatsu, Ukyo Michiwaki, Yasutada Oohama:
Conditional Information Leakage Given Eavesdropper's Received Signals in Wiretap Channels. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 104-A(1): 295-304 (2021) - 2020
- [j3]Yutaka Jitsumatsu
, Yasutada Oohama:
A New Iterative Algorithm for Computing the Correct Decoding Probability Exponent of Discrete Memoryless Channels. IEEE Trans. Inf. Theory 66(3): 1585-1606 (2020)
2010 – 2019
- 2019
- [i2]Yutaka Jitsumatsu, Ukyo Michiwaki, Yasutada Oohama:
The Conditional Information Leakage Given Eavesdropper's Received Signals in Wiretap Channels. CoRR abs/1901.06442 (2019) - 2018
- [j2]Dongshin Yang, Yutaka Jitsumatsu:
Super Resolution Channel Estimation by Using Spread Spectrum Signal and Atomic Norm Minimization. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 101-A(12): 2141-2148 (2018) - [c33]Dongshin Yang, Yutaka Jitsumatsu:
Super Resolution Channel Estimation with Spread Spectrum Signal and Atomic Norm Minimization. ISITA 2018: 144-148 - [c32]Ukyo Michiwaki, Yutaka Jitsumatsu:
A new proof of an inequality between two secrecy exponents. ISITA 2018: 747-751 - 2017
- [c31]Yutaka Jitsumatsu:
Computation of the random coding secrecy exponent for a constant composition ensemble. ISIT 2017: 1713-1717 - 2016
- [c30]Yutaka Jitsumatsu, Yasutada Oohama:
Computing the optimal exponent of correct decoding for discrete memoryless sources. ISIT 2016: 1531-1535 - [i1]Yutaka Jitsumatsu, Yasutada Oohama:
An Iterative Algorithm for Computing the Optimal Exponent of Correct Decoding Probability for Rates below the Rate Distortion Function. CoRR abs/1601.06094 (2016) - 2015
- [c29]Yasutada Oohama, Yutaka Jitsumatsu:
A new iterative algorithm for computing the optimal exponent of correct decoding for discrete memoryless channels. ISIT 2015: 924-928 - [c28]Shuntaro Ito, Dongshin Yang, Yutaka Jitsumatsu:
Estimation of Multi-Path Channels by Using the Annihilating Filter Method. VTC Fall 2015: 1-5 - 2014
- [c27]Yutaka Jitsumatsu, Tohru Kohda:
Digital Phase Updating Loop and Delay-Doppler Space Division Multiplexing for Higher Order MPSK. MACOM 2014: 1-15 - [c26]Yutaka Jitsumatsu, Masahiro Hashiguchi, Tatsuro Higuchi:
Optimal Sign Patterns for a Generalized Schmidl-Cox Method. SETA 2014: 269-279 - [c25]Tohru Kohda, Yutaka Jitsumatsu, Kazuyuki Aihara:
Phase-tuned layers with multiple 2D SS codes realize 16PSK communication. WCNC 2014: 457-462 - [c24]Tatsuro Higuchi, Yutaka Jitsumatsu:
Design criteria of preamble sequence for multipath fading channels with Doppler shift. WPMC 2014: 152-157 - 2013
- [c23]Takaki Makino, Yukiko Iwata, Yutaka Jitsumatsu, Masao Hotta, Hao San, Kazuyuki Aihara:
Rigorous analysis of quantization error of an A/D converter based on β-map. ISCAS 2013: 369-372 - [c22]Yutaka Jitsumatsu, Tohru Kohda, Kazuyuki Aihara:
Spread spectrum-based cooperative and individual time-frequency synchronization. ISWCS 2013: 1-5 - [c21]Tohru Kohda, Yutaka Jitsumatsu, Kazuyuki Aihara:
Recovering noncoherent MPSK signal with unknown delay and Doppler using its ambiguity function. ITST 2013: 255-260 - [c20]Tohru Kohda, Yutaka Jitsumatsu, Kazuyuki Aihara:
Signals that can be easily time-frequency synchronized from their ambiguity function. ITW 2013: 1-5 - [c19]Yutaka Jitsumatsu, Tohru Kohda, Kazuyuki Aihara:
Delay-Doppler Space Division-Based Multiple-Access Solves Multiple-Target Detection. MACOM 2013: 39-53 - [c18]Tohru Kohda, Yutaka Jitsumatsu, Kazuyuki Aihara:
Gabor Division/Spread Spectrum System Is Separable in Time and Frequency Synchronization. VTC Fall 2013: 1-5 - [c17]Tohru Kohda, Yutaka Jitsumatsu, Kazuyuki Aihara:
PLL-free receiver for Gabor division/spread spectrum system. WiMob 2013: 645-652 - 2012
- [c16]Tohru Kohda, Yutaka Jitsumatsu, Kazuyuki Aihara:
Frequency-division spread-spectrum makes frequency synchronisation easy. GLOBECOM 2012: 3952-3958 - [c15]Tohru Kohda, Yutaka Jitsumatsu, Kazuyuki Aihara:
Frequency synchronisation using SS technique. ISWCS 2012: 855-859 - [c14]Yutaka Jitsumatsu, Tohru Kohda, Kazuyuki Aihara:
Welch Bound for Bandlimited and Timelimited Signals. SETA 2012: 269-278 - 2011
- [c13]Tohru Kohda, Yutaka Jitsumatsu, Kazuyuki Aihara:
2D Markovian SS codes flatten time-frequency distribution of signals in asynchronous Gabor division CDMA systems. ICASSP 2011: 3140-3143 - 2010
- [c12]Mohamed Saber, Yutaka Jitsumatsu, Muhammad Tahir Abbas Khan:
Design and implementation of low power digital phase-locked loop. ISITA 2010: 928-933
2000 – 2009
- 2008
- [c11]Yutaka Jitsumatsu, Tohru Kohda:
Quasi-Orthogonal Multi-Carrier CDMA. GLOBECOM 2008: 1157-1161 - [c10]Yutaka Jitsumatsu, Tohru Kohda:
Prolate spheroidal wave functions induce Gaussian chip waveforms. ISIT 2008: 1363-1367 - 2007
- [c9]Yutaka Jitsumatsu, Tohru Kohda:
Welch Bound for FIR Lowpass Filtered Sequences. ISIT 2007: 2506-2509 - 2006
- [c8]Yutaka Jitsumatsu, Tahir Abbas Khan, Tohru Kohda:
Gaussian Chip Waveform Together with Markovian Spreading Codes Improve BER Performance in Chip-Asynchronous CDMA Systems. GLOBECOM 2006 - [c7]Yutaka Jitsumatsu, Tohru Kohda:
Gaussian chip shaping enhances the superiority of Markovian codes in DS/CDMA systems. ISCAS 2006 - [c6]Yutaka Jitsumatsu, Tohru Kohda:
A lower bound on the mean squared correlations for band-limited asynchronous DS/CDMA systems. ISIT 2006: 1524-1528 - [c5]Yutaka Jitsumatsu, Tohru Kohda:
Chip-Asynchronous Version of Welch Bound: Gaussian Pulse Improves BER Performance. SETA 2006: 351-363 - 2005
- [j1]Tahir Abbas Khan, Nobuoki Eshima, Yutaka Jitsumatsu, Tohru Kohda:
Code Acquisition in DS/CDMA Systems by Employing a Detector Based on a posteriori Probability Calculation. IEICE Trans. Commun. 88-B(10): 4047-4055 (2005) - [c4]Yutaka Jitsumatsu, Tohru Kohda:
Design of code-matched receiver for DS/CDMA communications. ISCAS (2) 2005: 884-887 - [c3]Tohru Abbas Khan, Nobuoki Eshima, Yutaka Jitsumatsu, Tohru Kohda:
A novel code acquisition algorithm and its application to Markov spreading codes. ISCAS (3) 2005: 2056-2059 - 2004
- [c2]Nobuoki Eshima, Yutaka Jitsumatsu, Tohru Kohda:
Markovian SS codes imply inversion-free code acquisition in asynchronous DS/CDMA systems. ISCAS (4) 2004: 617-620 - 2003
- [c1]Tohru Kohda, Yutaka Jitsumatsu, Tahir Abbas Khan:
Spread-spectrum Markovian-code acquisition in asynchronous DS/CDMA systems. ISCAS (3) 2003: 750-753
Coauthor Index
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