2026 Tomoyoshi Ito: Engineering and Technology Researcher – H-Index, Publications & Awards

D-Index & Metrics

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Engineering and Technology	48	4584	4414	71	68	386	8609

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Engineering and Technology

4584

4414

386

8609

Engineering and Technology

D-Index

Citations

8609

World Ranking

4584

National Ranking

Overview

Tomoyoshi Ito is affiliated with Chiba University in Japan. The research work spans interdisciplinary areas encompassing engineering, physics and astronomy, and computer science, reflecting a comprehensive approach to advanced optical technologies.

The primary fields of study include:

Engineering
Physics and Astronomy
Computer Science

Within these broad areas, the work focuses significantly on specialized subfields such as:

Media Technology
Atomic and Molecular Physics, and Optics
Computer Vision and Pattern Recognition
Human-Computer Interaction
Biomedical Engineering

Research topics covered highlight the scope of the scientist's investigations:

Advanced Optical Imaging Technologies
Digital Holography and Microscopy
Photorefractive and Nonlinear Optics
Advanced Vision and Imaging
Image Processing Techniques and Applications
Virtual Reality Applications and Impacts
Random lasers and scattering media

Notable recent publications include:

The state-of-the-art in computer generated holography for 3D display (2022) published in Light Advanced Manufacturing
Deep-Learning Computational Holography: A Review (2022) published in Frontiers in Photonics
Single-pixel imaging using a recurrent neural network combined with convolutional layers (2020) published in Optics Express
Single-shot wavelength-multiplexed digital holography for 3D fluorescent microscopy and other imaging modalities (2020) published in Applied Physics Letters
Multiwavelength three-dimensional microscopy with spatially incoherent light, based on computational coherent superposition (2020) published in Optics Letters

Frequent collaborators in the scientific work include:

Tomoyoshi Shimobaba
Takashi Kakue
Fan Wang
Atsushi Shiraki
Hirotaka Nakayama

Regular publication venues encompass:

Proceedings of the International Display Workshops
Optics Express
Applied Optics
IEEE Access
SSRN Electronic Journal

Best Publications

A special-purpose computer for gravitational many-body problems

Daiichiro Sugimoto;Yoshihiro Chikada;Junichiro Makino;Tomoyoshi Ito

500
Citations
Simple and fast calculation algorithm for computer-generated hologram with wavefront recording plane.

Tomoyoshi Shimobaba;Nobuyuki Masuda;Tomoyoshi Ito

308
Citations
Computer generated holography using a graphics processing unit.

Nobuyuki Masuda;Tomoyoshi Ito;Takashi Tanaka;Atsushi Shiraki

261
Citations
Special-purpose computer HORN-5 for a real-time electroholography.

Tomoyoshi Ito;Nobuyuki Masuda;Kotaro Yoshimura;Atsushi Shiraki

220
Citations
Real-time digital holographic microscopy using the graphic processing unit

Tomoyoshi Shimobaba;Yoshikuni Sato;Junya Miura;Mai Takenouchi

219
Citations
Rapid calculation algorithm of Fresnel computer-generated-hologram using look-up table and wavefront-recording plane methods for three-dimensional display.

Tomoyoshi Shimobaba;Hirotaka Nakayama;Nobuyuki Masuda;Tomoyoshi Ito

209
Citations
HORN-6 special-purpose clustered computing system for electroholography

Yasuyuki Ichihashi;Hirotaka Nakayama;Tomoyoshi Ito;Nobuyuki Masuda

195
Citations
Fast calculation of computer-generated-hologram on AMD HD5000 series GPU and OpenCL

Tomoyoshi Shimobaba;Tomoyoshi Ito;Nobuyuki Masuda;Yasuyuki Ichihashi

186
Citations
Constructing oscillation preventing scheme for advection equation by rational function

F. Xiao;T. Yabe;T. Ito

176
Citations
Holographic reconstruction with a 10- mum pixel-pitch reflective liquid-crystal display by use of a light-emitting diode reference light.

Tomoyoshi Ito;Tomoyoshi Shimobaba;Hirokazu Godo;Masahiko Horiuchi

156
Citations
Computational ghost imaging using deep learning

Tomoyoshi Shimobaba;Yutaka Endo;Takashi Nishitsuji;Takayuki Takahashi

154
Citations
Random phase-free computer-generated hologram.

Tomoyoshi Shimobaba;Tomoyoshi Ito

146
Citations
Computational wave optics library for C++: CWO++ library

Tomoyoshi Shimobaba;Jian Tong Weng;Takahiro Sakurai;Naohisa Okada

144
Citations
An efficient computational method suitable for hardware of computer-generated hologram with phase computation by addition

Tomoyoshi Shimobaba;Tomoyoshi Ito

138
Citations
Generation of real-time large computer generated hologram using wavefront recording method

Jiantong Weng;Tomoyoshi Shimobaba;Naohisa Okada;Hirotaka Nakayama

127
Citations
Lensless zoomable holographic projection using scaled Fresnel diffraction

Tomoyoshi Shimobaba;Michal Makowski;Takashi Kakue;Minoru Oikawa

124
Citations
Color electroholography by three colored reference lights simultaneously incident upon one hologram panel.

Tomoyoshi Ito;Koji Okano

119
Citations
Measurements of 3D flow in a micro-pipe via micro digital holographic particle tracking velocimetry

Shin-ichi Satake;Tomoaki Kunugi;Kazuho Sato;Tomoyoshi Ito

116
Citations
High-performance parallel computing for next-generation holographic imaging

Takashige Sugie;Takanori Akamatsu;Takashi Nishitsuji;Ryuji Hirayama

115
Citations
Fast high-resolution computer-generated hologram computation using multiple graphics processing unit cluster system

Naoki Takada;Tomoyoshi Shimobaba;Hirotaka Nakayama;Atsushi Shiraki

114
Citations
A Color Holographic Reconstruction System by Time Division Multiplexing with Reference Lights of Laser

Tomoyoshi Shimobaba;Tomoyoshi Ito;Tomoyoshi Ito

111
Citations