- ESTCE, Universitat Jaume I · 12071 - Castellón de la Plana
Research Lines
Computational Imaging
Research Detail
Research Name
Computational imaging
Experts On
Imaging and diffractive optics techniques based on spatial light modulation and computing.
Facilities
3 labs fully equipped for optical imaging, microscopy, holography, and diffractive optics.
We offer
Research projects and training on computational imaging.
Computational Imaging
Computational imaging involves the combined design of optical hardware, electronics, and computer algorithms to create novel imaging systems with unprecedent capabilities.
In our research group we develop new computational imaging techniques based on structured illumination and single-pixel detection, including ghost imaging and compressive sensing. In contrast to a conventional camera, which uses millions of pixels, single-pixel imaging techniques translate spatial sampling into the illumination process using spatial light modulators (SLM) dedicated sensors, and mathematical algorithms to recover the image. In this way, simple but highly specialized detectors can be used that allow high light efficiency.
Besides, it is possible to perform multidimensional operation by measuring multiple physical parameters of the light, such as the time evolution, polarization, and spectral content. The performance of this kind of cameras in turbid media is different from that of the conventional camera, being much more tolerant to the presence of scattering between the object and the detector.
We have proposed relevant ideas and applications in information security, multiespectral imaging, phase imaging, microscopy, diffuse optical imaging, and imaging through scattering media.
We are active in the following research topics:
Single-pixel imaging
Imaging techniques based on dynamic structured light and single-pixel detectors
Optical microscopy
Linear and nonlinear (2 photon) microscopy for industrial and biomedical applications
Multidimensional imaging of light pulses
Spatio-temporal characterization of ultrashort light pulses
Digital holography
Holographic techniques for phase imaging, 3D imaging, and security applications
Diffuse optical imaging
Imaging tissues with spatial-frequency domain diffuse optical imaging
Imaging through scattering media
Optical systems to improve vision through turbid media for biomedical and security applications
Selected Publications
Giga-voxel multidimensional fluorescence imaging combining single-pixel detection and data fusion
Fernando Soldevila Torres, Armin Johannes Maxemilian Lenz, A. Ghezzi, A. Farina, C. D’Andrea, Enrique Tajahuerce. OPTICS LETTERS. Num. 17. Vol. 46. pp. 4312-4315. 2021.
Roadmap on digital holography
Bahram Javidi, Artur Carnicer, Arun Anand, George Barbastathis, Wen Chen, Pietro Ferraro, J. W. Goodman, Ryoichi Horisaki, Kedar Khare, Malgorzata Kujawinska, Rainer A. Leitgeb, Pierre Marquet, Takanori Nomura, Aydogan Ozcan, YongKeun Park, Giancarlo Pedrini, Pascal Picart, Joseph Rosen, Genaro Saavedra, Natan T. Shaked, Adrian Stern, Enrique Tajahuerce, Lei Tian, Gordon Wetzstein, Masahiro Yamaguchi. OPTICS EXPRESS. Num. 22. Vol. 29. pp. 35078-35118. 2021.
Multi-Physical Parameter Cross-Sectional Imaging of Quantitative Phase and Fluorescence by Integrated Multimodal Microscopy
Sudheesh K Rajput, Osamu Matoba, Manoj Kumar, Xiangyu Quan, Yasuhiro Awatsuji, Yosuke Tamada, Enrique Tajahuerce. IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS. Num. 4. Vol. 27. pp. 1-9. 2021.
Imaging the optical properties of turbid media with single-pixel detection based on the Kubelka–Munk model
Armin Johannes Maxemilian Lenz, Pedro Javier Clemente Pesudo, Vicent Climent Jordà, Jesús Lancis Sáez, Enrique Tajahuerce. OPTICS LETTERS. Num. 19. Vol. 44. pp. 4797-4800. 2019.
Single-pixel imaging of the retina through scattering media
Rahul Dutta, Silvestre Manzanera, Adrián Gambín Regadera, Esther Irles Antón, Enrique Tajahuerce, Jesús Lancis Sáez, Pablo Artal. BIOMEDICAL OPTICS EXPRESS. Num. 8. Vol. 10. pp. 4159-4167. 2019.
Fast compressive Raman bio-imaging via matrix completion
Fernando Soldevila Torres, Jonathan Dong, Enrique Ataulfo Tajahuerce Romera, Sylvain Gigan, Hilton B. de Aguiar. OPTICA. Num. 3. Vol. 6. pp. 341-346. 2019
Relevant Projects
2-Dimensional perovskite memristors for smart vision of surface neuromorphic computing
MFA/2022/055, Generalitat Valenciana, 01/09/2022 – 29/06/2025.
Smart control of light beams (SLAB)
PROMETEO/2020/029, Generalitat Valenciana, 01/01/2020-31/12/2024.
Advanced imaging techniques using structured light projection and integrated detection: application in biological media
Universitat Jaume I, 01/01/2022-31/12/2024.
Intelligent control of light beams for life science applications (BRIGHT)
PID2019-110927RB-I00, Agencia Estatal de Investigación (AEI), 01/07/2020-30/06/2023.
Dynamic spatio-temporal modulation of light by phononic architectures (DYNAMO)
101046489, European Union, 01/03/2022-28/02/2026.
Computational Imaging as a training network for smart biomedical devices (CONcISE)
GA 101072354, European Union, 01/02/2023-31/01/2027.
On-going collaborations
Prof. Bahram Javidi at Group of Multidimensional Optical Sensing & Imaging Systems (MOSIS), University of Connecticut, USA.
Prof. Osamu Matoba, Department of Computer and Systems Engineering en Kobe University, Kobe, Japan.
Prof. Yasushiro Awasuji, at Faculty of Electrical Engineering and Electronics, Kioto Instute of Technology, Japan.
Prof. Andrea Farina, at CUSBO (Center for Ultrafast Science and Biomedical Optics), Politecnio de Milano, Italia.
Prof. Bahram Javidi at Group of Multidimensional Optical Sensing & Imaging Systems (MOSIS), University of Connecticut, USA.
Prof. Pablo Artal, at Laboratorio de óptica de Murcia, Spain.
Dr. Eduardo Peters de la Universidad de los Andes Facultad de Ingeniería y Ciencias Aplicadas de la Universidad de los Andes, Santiago de Chile.
Dr. María Araiza Esquivel from Universidad Autónoma de Zacatecas, México.