国際会議 (international conferences)

  1. Takanori Nomura, “Lensless photography with a random mask,” 2022 Fio LS, FTu6D.4 (2022) . [invited]
  2. Junki Toda and Takanori Nomura, “Reduction of Memory Usage by a Point Spread Function Undersampling in Lensless Photography with a Random Amplitude Mask,” ODF’22 Technical Digest, P-Oth-44 (2022).
  3. Masamitsu Sugimoto, Naru Yoneda, Yusuke Saita, and Takanori Nomura, “Comparison of Different Scanning Manners in Optical Scanning Holography Based on Compressive Sensing,” ODF’22 Technical Digest, P-Oth-43 (2022).
  4. Yusuke Saita, "Single pixel holography technique without mechanical scanning and its improvement,” The 2021 International Conference on Optical Instrument and Technology (OIT2021), OIT100-100 (2022). [invited]
  5. Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Experimental Verification of Common-path Off-axis Signle-pixel Holographic Imaging,” IWH2021 Technical Digest, 12-A02 (2022). [Best Paper Award]
  6. Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Evaluation of Axial Resolution in Holographic Data Storage Based on Compressive Sensing,” ODF'20 in 2021 (2021). [Student Poster Award]
  7. Takanori Nomura, “Are you happy with quantitative phase imaging?,” Proceeding book of The 10th Japan-Korea Workshopon Digital Holography & Information Photonics (DHIP2020), 14-15 (2020). [plenary]
  8. Takanori Nomura, Naru Yoneda, and Yusuke Saita, "Single-Shot Phase Imaging Techniques Based on Parallel Optical Information Processing,” Optics & Photonics Taiwan International Conference (OPTIC) (2020). [invited]
  9. Yuta Takahashi, Yusuke Saita, Naru Yoneda, and Takanori Nomura, “Transport of Intensity Phase Data-Page Acquisition with Polarization Directed Flat Lens in Coaxial Holographic Data Storage,” ISOM ’20 Technical Digest, 69-70 (2020).
  10. Yusuke Saita, Naru Yoneda,Aoto Matsumoto, and Takanori Nomura, “Phase data acquisition and multiplexing techniques for in-line holographic data storage based on computer-generated holograms,”  ISOM ’20 Technical Digest, 65-66 (2020). [invited]
  11. Naru Yoneda, Yusuke Saita, and Takanori Nomura, “Evaluation of Spatial Resolution in Motionless Optical Scanning Holography,”  ISOM ’20 Technical Digest, 63-64 (2020). [Student Award]
  12. Kenya Kawano and Takanori Nomura, “Twin-Image Reduction of Low-Coherence In-Line Digital Holography Using a Diffuser,”  ISOM ’20 Technical Digest, 59-60 (2020).
  13. Aoi Onishi, Naru Yoneda, Yusuke Saita, and Takanori Nomura, “Single Shot Phase Imaging Based on Higher Order Transport-of-IntensityEquation Using a Computer-Generated Hologram,”  ISOM ’20 Technical Digest, 53-54 (2020).
  14. Naru Yoneda, Yusuke Saita, and Takanori Nomura, “Imaging through scattering media by motionless optical scanning holography” OSJ-OSA-OSK Joint Symposia on Optics Program, 15aAJ5 (2020). [General Chair Award of OSJ-OSA-OSK joint symposia]
  15. Daiki Shimoyama, Yusuke Saita, and Takanori Nomura, “Compressive spectral imaging with a blazed grating to improve the signal-to-noise ratio” OSJ-OSA-OSK Joint Symposia on Optics Program, 14pBJ4 (2020).
  16. Takanori Nomura, Naru Yoneda, and Yusuke Saita, "Coaxial holographic memory to increase recording capacity using computer-generated hologram,” International Conference on Optoelectronic and Microelectronic Technology and Application 2020 (OMTA2020) (2020). [invited]
  17. Ying Sun and Takanori Nomura "Simultaneous measurement of two parameters of the spherical lens by low-coherence interferometry,” Proc. SPIE 11548, Optical Design and Testing X, 1154815 (2020).
  18. Takanori Nomura, Koshi Komuro, Shunsuke Kakei, Naru Yoneda, Yusuke Saita, "ETransport of intensity phase imaging under a low signal-to-noise ratio condition,” Proc. SPIE 11548, Optical Design and Testing X, 1154802 (2020). [invited]
  19. Naru Yoneda, Shunsuke Kakei,  Koshi Komuro, Aoi Onishi, Yusuke Saita, and Takanori Nomura, "Experimental Evaluation of Single-shot Higher-order Transport-of-intensity Quantitative Phase Imaging Based on Deep Learning,”  OSA-JSAP Joint Symposia, 9p-Z10-5 (2020).
  20. Takanori Nomura, Koshi Komuro, Naru Yoneda, Shunsuke Kakei, Aoi Onishi, Yusuke Saita, “Phase imaging based on Scan-less transport of intensity equation,”  in SPIE Three-Dimensional Imaging, Visualization, and Display 2020, 11402-17 (2020). [invited]
  21. Yusuke Saita, Naru Yoneda, and Takanori Nomura, "Computer-generated-hologram-based holographic data storage using transport of intensity equation,”  Technical Digest of The 9th Korea-Japan Workshop on Digital Holography and Information Photonics, 30 (2019). [invited]
  22. Koshi Komuro, Takanori Nomura, and George Barbastathis, “Phase retrieval for computational ghost imaging by deep learning,” Joint Symposia on Optics Technical Digest, 2pAJ4 (2019).
  23. Naru Yoneda, Yusuke Saita, and Takanori Nomura, “Holographic Data Storage Based on Compressive Sensing," IWH2019 Technical Digest,  6-a-8 (2019). [Best Student Paper Award]
  24. Hiroaki Goi, Koshi Komuro, and Takanori Nomura, “Deep-Learning-Generated Binary Hologram," ISOM ’19 Technical Digest, We-K-03 (2019). [Student Award]
  25. Shunsuke Kakei, Koshi Komuro, and Takanori Nomura, “Transport-of-Intensity Phase Imaging Using Deep Learning," ISOM ’19 Technical Digest, We-K-02 (2019).
  26. Yusuke Saita, Hiromi Minamitani, and Takanori Nomura, “Complex Amplitude Modulation Using a Spatial Light Modulator for Three-Dimensional Holographic Display," ISOM ’19 Technical Digest, Tu-J-15 (2019).
  27. Aoto Matsumoto, Yusuke Saita, Naru Yoneda, and Takanori Nomura, “Correlation-Based Multiplexing in Holographic Data Storage Based on a Computer Generated Hologram," ISOM ’19 Technical Digest, Tu-J-11 (2019).
  28. Koshi Komuro, Takafumi Ito, and Takanori Nomura, “Single-Pixel Transport-of-Intensity Phase Imaging," ISOM ’19 Technical Digest, Tu-J-09 (2019).
  29. Shota Sakamaki, Naru Yoneda, and Takanori Nomura, “Single-Shot In-Line Phase-Shifting Incoherent Digital Holography with a Randomly Placed Dual Checkerboard Phase Grating," ISOM ’19 Technical Digest, Tu-J-05 (2019).
  30. Daichi Kishiwaki and Takanori Nomura, “Parallel Phase-Shifting Digital Holography by Use of the Talbot Effect with a Binary Phase Grating," ISOM ’19 Technical Digest, Tu-G-05 (2019).
  31. Naru Yoneda, Yusuke Saita, and Takanori Nomura, “Complex Amplitude Data Page Reconstruction in Holographic Data Storage Based on a Fourier- Fringe-Analytic Hologram," ISOM ’19 Technical Digest, Mo-B-03 (2019).
  32. Takanori Nomura, Naru Yoneda and Yusuke Saita, “Computer-generated-hologram-based holographc data storage,” Applied Optics and Photonics, China 2019 (AOPC2019). [invited]
  33. Koshi Komuro, Yusuke Saita, Yosuke Tamada, and Takanori Nomura, "Numerical evaluation of transport-of-intensity phase imaging with oblique illumination for refractive index tomography," in Digital Holography and Three-Dimensional Imaging 2019, OSA Technical Digest (Optical Society of America, 2019), Th3A.37 (2019).
  34. Koshi Komuro, Aoi Onishi, Daichi Kishiwaki, and Takanori Nomura, "Experimental Verification of Single-Shot Transport-of-Intensity Phase Imaging with a Glass Plate,” Technical Digest on Information Photonics 2019 in Yokohama, IP-4-03 (2019).
  35. Naru Yoneda, Yusuke Saita, and Takanori Nomura, "Lateral shift multiplexing in binary computer-generated-hologram-based holographic data storage,” Technical Digest on Information Photonics 2019 in Yokohama, IP-3-2 (2019).
  36. Takanori Nomura, “Phase imaging in-line digital holography with random phase modulation," in SPIE Three-Dimensional Imaging, Visualization, and Display 2019, 10997-21 (2019). [invited]
  37. Naru Yoneda, Yusuke Saita, Koshi Komuro, and Takanori Nomura, "Single Shot Higher Order Transport-of-Intensity Phase Imaging Using a Computer-Generated Hologram,” Technical Digest of The 8th Japan-Korea Workshop on Digital Holography and Information Photonics, 60 (2018). 
  38. Kenichi Nisaka and Takanori Nomura, "Single-shot Fourier Phase Microscopy Using Designed Phase Mask,” Technical Digest of The 8th Japan-Korea Workshop on Digital Holography and Information Photonics, 57 (2018). 
  39. Takanori Nomura, "Phase Imaging by In-Line Digital Holography with a Diffuser,” Technical Digest of The 8th Japan-Korea Workshop on Digital Holography and Information Photonics, 39 (2018). [invited]
  40. Yusuke Saita, Momosuke Hirohashi, and Takanori Nomura, "Shack-Hartmann wavefront sensing based on pattern correlations and adaptive spot search,” Technical Digest of The 8th Japan-Korea Workshop on Digital Holography and Information Photonics, 18 (2018). [invited]
  41. Naru Yoneda, Yusuke Saita, Koshi Komuro, Teruyoshi Nobukawa, and Takanori Nomura, "Computer-generated-hologram-based holographic data storage using a transport of intensity equation,” Annual Joint Symposia on Optics, 30pAJ7 (2018).
  42. Koshi Komuro, Alexandre Goy, Takanori Nomura, and George Barbastathis, "Deep-learning-based phase retrieval for pure phase objects in computational ghost imaging,” Annual Joint Symposia on Optics, 30pAJ5 (2018).
  43. Koshi Komuro, Kazusa Oe, Yosuke Tamada, and Takanori Nomura, “Numerical autofocusing based on adaptive sharpness evaluation for complex amplitude imaging," ISOM ’18 Technical Digest, We-L-04 (2018). [Student Award]
  44. Naru Yoneda, Yusuke Saita, and Takanori Nomura, “Holographic data storage based on a binary computer-generated hologram," ISOM ’18 Technical Digest, Tu-H-03 (2018).
  45. Koshi Komuro, Yuya Yamazaki, and Takanori Nomura, “Transport of intensity phase imaging for pure phase objects in computational ghost imaging,” in SPIE/COS Photonics Asia 2018  10816-16 (2018).
  46. Yusuke Saita and Takanori Nomura, “Large dynamic range wavefront sensing using Shack-Hartmann wavefront sensor based on pattern correlations,” in SPIE/COS Photonics Asia 2018  10815-13 (2018). [invited]
  47. Yusuke Saita, Masahiro Karaike, and Takanori Nomura, “Three-dimensional shift multiplexed recording in coaxial holographic data storage with virtual varifocal lens,” OSA-JSAP Joint Symposiua, 19p-221B-3 (2018).
  48. Takanori Nomura, “Random phase modulation for three-dimensional sensing and imaging,” in SPIE Three-Dimensional Imaging, Visualization, and Display 2018, 10666-19 (2018). [invited]
  49. Takanori Nomura and Takuya Matsuda, “Incoherent holography without depth of field,” Proceedings of The 7th Korea-Japan Workshop on Digital Holography and Information Photonics (DHIP2017), Inv22a-3 (2017). [invited]
  50. Yusuke Saita and Takanori Nomura, “Improvement in Phase Pattern Design for Holographic Shack-Hartmann Wavefront Sensor with High Sensitivity,” Proceedings of The 7th Korea-Japan Workshop on Digital Holography and Information Photonics (DHIP2017), p20-38 (2017).
  51. Kazusa Oe and Takanori Nomura, "Experimental demonstration of twin-image reduction method using a diffuser for in-line digital holography,” International Workshop on Holography and Related Technologies 2017, P4 (2017).
  52. Takanori Nomura, "Computational Optical Sensing and Imaging Based on Information Photonics,” International Workshop on Holography and Related Technologies 2017, 23a1 (2017). [invited]
  53. Yusuke Saita, Masahiro Karaike, and Takanori Nomura, "Simultaneous Recording and Reading of Multiple Data Pages for Coaxial Holographic Data Storage Using Computer-Generated Hologram,” International Workshop on Holography and Related Technologies 2017, 22p7 (2017).
  54. Aina Ikezaki and Takanori Nomura, “Iterative reconstruction method for refractive index tomography based on the transport of intensity equation,” OSJ-OSA Joint Symposia on Nanophononics and Digital Photonics Technical Digest 31pOD5 (2017). [Best Student Presentation Award]
  55. Takanori Nomura and Kenichi Nisaka, “Single-shot in-line digital holography without twin-image using diffused illumination,” OSJ-OSA Joint Symposia on Nanophononics and Digital Photonics Technical Digest 31aOD3 (2017).
  56. Takuya Matsuda and Takanori Nomura, “Investigation of effect of optical elements on the image quality in incoherent Fourier digital holography using a rotational shearing interferometer,” OSJ-OSA Joint Symposia on Nanophononics and Digital Photonics Technical Digest 31aOD2 (2017).
  57. Takanori Nomura, “Single-shot in-line digital holography without twin image,” OIT2017 Technical Digest, OIT100-78 (2017).  [invited]
  58. Koshi Komuro, Yuya Yamazaki, and Takanori Nomura, "Phase retrieval in computational ghost imaging by transport intensity equation,” IONS Okinawa 2017 Technical Digest (2017).
  59. Koshi Komuro and Takanori Nomura, "Effect of size of calculation area in phase object mapping algorithm based on local variance evaluation," ISOM ’17 Technical Digest, Tu-J-02 (2017).
  60. Naru Yoneda, Yusuke Saita, Koshi Komuro, Teruyoshi Nobukawa, and Takanori Nomura, "Reconstruction of phase data page using transport of intensity equation for computer-generated-hologram-based holographic data storage," ISOM ’17 Technical Digest, Tu-J-05 (2017).
  61. Aina Ikezaki and Takanori Nomura, "Phase-unwrapping-free refractive index tomography based on the transport of intensity equation," ISOM ’17 Technical Digest, Tu-J-08 (2017).
  62. Takuya Matsuda and Takanori Nomura, "Experimental investigation of depth of field and magnification change of reconstructed image in incoherent holography using rotational shearing interferometer," ISOM ’17 Technical Digest, Tu-J-10 (2017).
  63. Yuya Yamazaki and Takanori Nomura, "Computational ghost imaging with designed low spatial frequency mask," ISOM ’17 Technical Digest, Tu-J-15 (2017).
  64. Koshi Komuro, Yuya Yamazaki, and Takanori Nomura, “Phase retrieval in computational ghost imaging by transport intensity equation,” The 24th Congress of the International Commision for Optics (ICO-24), P4-03 (2017).
  65. Takanori Nomura and Teruyoshi Nobukawa, “Holographic data storage with the help of digital holography,” Applied Optics and Photonics, China 2017 (AOPC2017), Invited Talks, 80. [invited]
  66. Koshi Komuro and Takanori Nomura, "Phase Object Mapping Based on a Complex Amplitude Measurement by Transport of Intensity Equation,” OSA Digital Holography & 3-D Imaging 2017 (DH2017), W4A.3 (2017)
  67. Takanori Nomura, “Shack-Hartmann wavefront sensor with large dynamic range,” The 6th Conference on Advances in Optoelectronics and Micro/nano-optics (2017). [invited]
  68. Koshi Komuro and Takanori Nomura, "Optimization of Polynomial Order Based on Residuals of Interpolation in Higher-Order Transport of Intensity Phase Imaging,” Technical Digest on Information Photonics 2017 in Yokohama, IP-19PM2-5 (2017).
  69. Takanori Nomura and Kaho Watanabe, “Spatially Incoherent Fourier digital holography,” in SPIE Three-Dimensional Imaging, Visualization, and Display 2017, 10219-3 (2017). [invited]
  70. Takanori Nomura, “Multi-exposure Generalized Phase-shifting Digital Holography,” Proceedings of The Sixth Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2016), Inv21-a3 (2016). [invited]
  71. Yusuke Saita, Ayami Ito, and Takanori Nomura, "Dynamic Range Improvement in Shack-HartmannWavefront Sensing Using Alternately Sorting Method,” Proceedings of The Sixth Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2016), P20-36 (2016).
  72. Kaho Watanabe and Takanori Nomura, "Incoherent Fourier Digital Holography Using Two Rotational Shearing Interferometers for Three-step Phase-shifting Method,” Proceedings of The Sixth Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2016), P20-22 (2016).
  73. Koshi Komuro and Takanori Nomura, "Object plane detection and phase imaging by transport of intensity equation with autofocus technique,” Proceedings of The Sixth Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2016), P20-03 (2016).
  74. Teruyoshi Nobukawa and Takanori Nomura, “Shift multiplexed recording in holographic data storage based on a computer-generated hologram with a conical wave,” in International Workshop on Holography and Related Technologies (IWH2016), Poster 43 (2016).
  75. Takanori Nomura and Kaho Watanabe, “Incoherent Fourier digital holography,” in International Workshop on Holography and Related Technologies (IWH2016), Invited Speaker 14 (2016). [invited]
  76. Takanori Nomura and Teruyoshi Nobukawa, “Holographic Data Storage by Use of Computer Generated Hologram,” Asia Communications and Photonics Conference (ACP) 2016 & The 9th International Photonics and OptoElectronics Meeting, ATH2J.2 (2016). [invited]
  77. Teruyoshi Nobukawa and Takanori Nomura, “Inverse encoding in double-phase hologram generated by a phase-only spatial light modulator", OPJ-OSA Joint Symposia, 31aOD9 (2016).
  78. Yusuke Saita and Takanori Nomura, “Numerical Evaluation of Spatial Resolution Characteristics in Wavefront Measurement Using Holographic Shack-Hartmann Wavefront Sensors,” ISOM ’16 Technical Digest, Tu-J-22 (2016).
  79. Koshi Komuro and Takanori Nomura, “Application of Autofocusing to Numerical Propagation-Based Transport of Intensity Phase Imaging for Dynamic Phase Objects,” ISOM ’16 Technical Digest, Tu-J-20 (2016).
  80. Keita Fujiwara and Takanori Nomura, “Effect of Coherency in Particles Measurement by Using Low-Coherence In-Line Digital Holography with Phase-Only Correlation,” ISOM ’16 Technical Digest, Tu-J-19 (2016).
  81. Takahiro Kitazawa and Takanori Nomura, “Refractive Index Tomography Combined Optical Coherence Tomography and Tomographic Reconstruction Method,” ISOM ’16 Technical Digest, Tu-J-17 (2016).
  82. Masahiro Karaike, Teruyoshi Nobukawa, and Takanori Nomura, “Evaluation of Depth Selectivity in Multilayer Recording Coaxial Holographic Memory with Varifocal Kinoform Lens,” ISOM ’16 Technical Digest, Tu-J-11 (2016).
  83. Teruyoshi Nobukawa and Takanori Nomura, “Recording Multilevel Phase Data in a Holographic Data Storage System Based on Digital Holography,” ISOM ’16 Technical Digest, Mo-B-02 (2016) [The Program Chair Award].
  84. Teruyoshi Nobukawa, Takashi Fukuda, and Takanori Nomura, "Numerical Evaluation of Inter-Pixel Crosstalk with Various Sizes of Apertures in Polarization Holographic Data Storage Using a Polarization-Encoded Data Page,” International Workshop on Photonics Polymer for Innovation, P-23 (2016).
  85. Teruyoshi Nobukawa and Takanori Nomura, “Numerical evaluation of shift multiplexing using a spherical wave in a holographic memory based on a computer-generated hologram," SPIE Optics + Photonics 2016, Holgoraphic Data Storage 2016, 9959-11 (2016).
  86. Teruyoshi Nobukawa, Takashi Fukuda, and Takanori Nomura, “Numerical Evaluation of Interpixel Crosstalk in Polarization Holographic Data Storage,” The 8th International Conference on Information Optics and Photonics (2016).
  87. Takanori Nomura, “Generalized phase-shifting digital holography: from monochromatic to RGB color,” The 8th International Conference on Information Optics and Photonics (2016). [invited]
  88. Takanori Nomura, Takaaki Kawakami, and Kazuma Shinomura, “Generalized phase-shifting color digital holography,” SPIE Three-Dimensional Imaging, Visualization, and Display 2016, 9687-17 (2016). [invited]
  89. Kaho Watanabe and Takanori Nomura, “Incoherent holography by a Michelson type interferometer with a lens for a radial shear,” SPIE Three-Dimensional Imaging, Visualization, and Display 2016, 9687-38 (2016).
  90. Teruyoshi. Nobukawa, Xiao Lin, An'an Wu, Jingliang Zang, Yong Huang, Takanori Nomura, and Xioadi Tan, "Multiplexed multilevel computer- generated hologram for generating a vector wave ,” 10th International Conference on Optics-photonics Design & Fabrication, 1S2-10 (2016).
  91. Teruyoshi Nobukawa and Takanori Nomura, "Holographic storage system based on digital holography for recording a phase data page in a compact optical setup,” SPIE Photonics West, Practical Holography XXX: Materials and Applications, 9771-14 (2016).
  92. Koshi Komuro and Takanori Nomura, “Quantitative Phase Retrieval using Transport of Intensity Equation with Multiple Bandpass Filters,” in International Workshop on Holography and Related Technologies (IWH2015), We5-P17 (2015).
  93. Takanori Nomura, Toshiyuki Morimoto, and Teruyoshi Nobukawa, “Angular Multiplexing Holographic Memory with the Help of Computer-generated Hologram,” in International Workshop on Holography and Related Technologies (IWH2015), We1-2 (2015). [invited]
  94. Teruyoshi Nobukawa and Takanori Nomura, “Experimental Demonstration of Super-resolution Holographic Data Storage,” in International Workshop on Holography and Related Technologies (IWH2015), Tu3-3 (2015).
  95. Hironobu Shinto, Yusuke Saita, and Takanori Nomura, “Expansion of dynamic range in Shack-Hartmann wavefront sensor using dual microlens array,” Biophotonics Japan, 9792-48 (2015).
  96. Toshiyuki Morimoto, Teruyoshi Nobukawa, and Takanori Nomura, “Angular Multiplexing Using Holographically- Generated Pagedata and Reference Beams for Holographic Memory,” ISOM ’15 Technical Digest,  Tu-I-22 (2015).
  97. Kaho Watanabe and Takanori Nomura, “Incoherent holography to obtain depth information by a rotational shearing interferometer,”  SPIE Optics + Photonics 2015,Optics and Photonics for Information Processing IX, 9598-7 (2015).
  98. Takanori Nomura, Takahiko Fukuoka, and Yutaka Mori, “Image quality improvement of digital holography by use of various rectangle apertures,”  SPIE Optics + Photonics 2015,Optics and Photonics for Information Processing IX, 9598-5 (2015).
  99. Teruyoshi Nobukawa and Takanori Nomura, “Numerical evaluation of multilayer holographic data storage with a varifocal lens generated with a spatial light modulator,” SPIE Optics + Photonics 2015, Holgoraphic Data Storage 2015, 9587-2 (2015).
  100. Kaho Watanabe and Takanori Nomura, “Reconstruction of incoherent Fresnel-like hologram by a rotational shearing interferometer,”  Proc. SPIE 9659, International Conference on Photonics Solutions 2015, 96590D (2015). [Best Oral Presentation Award]
  101. Takanori Nomura and Masatoshi Imbe, “Generalized phase-shifting digital holography for single-exposure,” The 2nd International Conference on Photonics Solutions (ICPS2015) C2-1", Proc. SPIE 9659, International Conference on Photonics Solutions 2015, 965906 (2015). [invited]
  102. Teruyoshi Nobukawa and Takanori Nomura, “Recording a Phase Data Page in Super-Resolution Holographic Data Storage for High Light Efficiency,” The 14th Workshop on Information Optics (WIO2015) Th-P3 (2015).
  103. Yusuke Saita, Hironobu Shinto, and Takanori Nomura, “Wavefront Measurement with Large Dynamic Range Using Holographic Shack-Hartmann Wavefront Sensor,” The 14th Workshop on Information Optics (WIO2015) Th-P2 (2015).
  104. Kaho Watanabe and Takanori Nomura, “Recording Spatially Incoherent Hologram Using Rotational Shearing Interferometer with a Lens for the Parallel Shear,” The 14th Workshop on Information Optics (WIO2015) Th-P1 (2015). [Best Student Poster Award for WIO2015]
  105. Takanori Nomura and Masatoshi Imbe, “Single-Exposure Generalized Phase-shifting Digital Holography,” The 14th Workshop on Information Optics (WIO2015) M3-1 (2015). [invited]
  106. Takanori Nomura and Toshitaka Kobata, “Mueller matrix imaging by use of digital holography,” Proc. SPIE 9618, The 2015 International Conference on Optical Instrument and Technology (OIT2015),  961809 (2015). [invited]
  107. Takahiko Fukuoka, Yutaka Mori, and Takanori Nomura, “Speckle Reduction in Digital Holography Using Rectangular Mask,” The Fourth Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2014), P11 (2014).
  108. Toshitaka Kobata and Takanori Nomura, “Digital Holographic Mueller Matrix Imaging,” The Fourth Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2014), P11 (2014).
  109. Kaho Watanabe and Takanori Nomura, “Self-interference Incoherent Holography by a Dual Channel Rotational Shearing Interferometer,” The Fourth Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2014), P10 (2014).
  110. Teruyoshi Nobukawa and Takanori Nomura, “Complex Wavefront Coding for High Light Efficiency in Super-Resolution Holographic Data Storage,” The Fourth Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2014), P03 (2014).
  111. Takanori Nomura, “Three-Dimensional Shape Measurement by Low-Coherent Digital Holography,” in The Fourth Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP2014), TuA5 (2014). [invited]
  112. Yusuke Saita and Takanori Nomura, “Phase Gradient Coding and its Detection Method for Holographic Data Storage,” in International Symposium on Optical Memory (ISOM2014), Tu-E-03 (2014).
  113. Teruyoshi Nobukawa and Takanori Nomura, “Shift Multiplexing with Uncorrelated Computer-Generated Reference Patterns in Coaxial Holographic Storage,” in International Symposium on Optical Memory (ISOM2014), Tu-E-03 (2014). [The Best Student Paper Award]
  114. Takanori Nomura and Yusuke Saita, “Coaxial Holographic Memory with Spatially Modulated Lightwaves,” in International Symposium on Optical Memory (ISOM2014), Tu-E-01 (2014). [invited]
  115. Masatoshi Imbe and Takanori Nomura, “Effect of spatial frequency bandwidth of reference wave on quality of reconstructed image in single-exposure generalized phase-shifting digital holography,” in International Workshop on Holography and Related Technologies (IWH2014), 17a03 (2014).
  116. Yutaka Mori and Takanori Nomura, “Fast hologram generation by spherical wave synthesis with adaptive aperture,” in International Workshop on Holography and Related Technologies (IWH2014), 16p02 (2014).
  117. Kaho Watanabe and Takanori Nomura, “Recording spatially incoherent Fourier hologram using a rotational shearing interferometer,” in International Workshop on Holography and Related Technologies (IWH2014), 16c03 (2014).
  118. Takanori Nomura and Yuji Tanaka, “Application of single-shot three-dimensional shape measurement by low-coherent digital holography to millimeter-height object,” in International Workshop on Holography and Related Technologies (IWH2014), 16c02 (2014).
  119. Teruyoshi Nobukawa and Takanori Nomura, “Complex amplitude-modulated data page recording in coaxial holographic data storage with phase-shifting digital holography,” in Digital Holography and Three-Dimensional Imaging, OSA Technical Digest (CD) (Optical Society of America, 2014), paper JTu4A.11  (2014).
  120. Kaho Watanabe and Takanori Nomura, “Refractive Index & Physical Thickness Distributions Measurement and Consideration of Dependence of Measurement Accuracy on Scanning Interval Using Low-Coherence Digital Holography,” Proceedings of the 2013 IEEE/SICE International Symposium on System Integration, pp. 586-591 (2013). 
  121. Yuji Tanaka and Takanori Nomura, “Single-Shot Three-Dimensional Shape Measurement by Low-Coherence Digital Light-in-Flight Holography,” Third Korea-Japan Workshop on Digital Holography and Information Photonics (DHIP2013) Technical Digest, P_001 (2013).
  122. Takanori Nomura, “Digital Holographic Tomography Using Lightwave Back Propagation,” Third Korea-Japan Workshop on Digital Holography and Information Photonics (DHIP2013) Technical Digest, Mon_4_013 (2013). [invited]
  123. Takanori Nomura and Takahiro Kitazawa, “Digital holographic tomography using a light back propagation method and its application for refractive index measurement,” Proc. SPIE 8855, Optics and Photonics for Information Processing VII, 885506 (September 26, 2013). 
  124. Yusuke SAITA, Tomohiro IWAMOTO, and Takanori NOMURA, “Design and Verification of Input Phase Mask Suitable for Page Data for Coaxial Holographic Memory,” International Symposium on Optical Memory 2013 Technical Digest, 120-121 (2013).
  125. Teruyoshi NOBUKAWA and Takanori NOMURA, “Coaxial Holographic Memory with Designed Multi-Level Reference Pattern on the Basis of Nyquist Aperture for Improvement of Light-Utilization Efficiency and Signal to Noise Ratio,” International Symposium on Optical Memory 2013 Technical Digest, 124-125 (2013).
  126. Masatoshi Imbe, Daireann Neylon, Tomi Pitkaaho, Takanori Nomura, and Thomas J. Naughton, ”Automated reconstruction and noise reduction of three-dimensional objects encoded in digital holograms,” Technical Digest of Photonics Ireland (2013). 
  127. Takanori NOMURA, “Coaxial holographic memory using spatial light modulated lightwaves,” The Second Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP 2012) (2012). [invited]
  128. Masatoshi IMBE and Takanori NOMURA, “Dynamic recording and reconstruction in single-exposure generalized phase-shifting digital holography,” The Second Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP 2012) (2012). [Outstanding Poster Award]
  129. Yutaka MORI and Takanori NOMURA, “Synthesis from low-coherence digital holograms for three-dimensional imaging,” The Second Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP 2012) (2012).
  130. Takahiro KITAZAWA and Takanori NOMURA, “Refractive index measurement of internal defects by digital holographic tomography using reconstruction calculation method with lightwave propagation,” The Second Japan-Korea Workshop on Digital Holography and Information Photonics (DHIP 2012) (2012).
  131. Takanori NOMURA, “”Improvement of Reconstruction Image Quality in Digital Holography Using Multiple Wavelengths or Superposition of Holograms,” International Workshop on Holography and related technologies (IWH2012) (2012). [invited]
  132. Masatoshi IMBE and Takanori NOMURA, “Selecting Direction of Calculation in Single-Exposure Phase-Shifting Digital Holography Using a Random-Phase Encoded Reference Wave,” International Workshop on Holography and related technologies (IWH2012) (2012).
  133. Kaho WATANABE and Takanori NOMURA, “Measurement of Refractive Index Distribution by Virtual Datum Plane Using Low-Coherence Digital Holography,” International Workshop on Holography and related technologies (IWH2012) (2012).
  134. Teruyoshi NOBUKAWA and Takanori NOMURA, “Numerical Evaluation of Shift Multiplexing in Coaxial Holographic Memory Using Spatial Phase-Modulated Lightwave,” International Symposium on Optical Memory 2012 (2012).
  135. Takanori NOMURA and Masatoshi IMBE, “Single-exposure generalized phase-shifting digital holography,” Proceedings of the International Seminar Optics and Photonics (Issyk-Kul, Kyrgyzstan), pp. 87-89. (2012). [invited]
  136. Yutaka MORI and Takanori NOMURA, “Adjustment of the Reconstruction Distance on the Three-Dimensional Display Using Digital Holography,” Optics and Photonics International Congress 2012, Laser Display Conference ’12 (2012).
  137. Yutaka MORI and Takanori NOMURA, "Optical Reconstruction of Digital Hologram Using Spatial Light Modulator for Binocular Stereopsis," in Digital Holography and Three-Dimensional Imaging, OSA Technical Digest (CD) (Optical Society of America, 2011), paper DTuC7. 
  138. Masatoshi IMBE and Takanori NOMURA, "Single-Exposure Phase-Shifting Digital Holography Using Random Phase Reference Wave," in Digital Holography and Three-Dimensional Imaging, OSA Technical Digest (CD) (Optical Society of America, 2011), paper DWC10. 
  139. Takanori NOMURA, “Single shot phase-shifting digital holography using a conventional camera,” An ICO International Conference, IP2011. [invited]
  140. Takanori NOMURA, “Random phase-encoding phase-shifting digital holography, " International Workshop on Holographic Memory and Display (IWHM&D2010) (2010). [invited]
  141. Yusuke SAITA, Takanori NOMURA, Eiji NITANAI, and Takuhisa NUMATA, "Design of Reference Pattern and Input Phase Mask for Coaxial Holographic Memory, " Technical Digest of International Symposium on Optical Memory 2010, 146-147 (2010). 
  142. Takanori NOMURA and Yutaka MORI, "Digital Holographic Binocular Stereopsis, " Technical Digest of 2010 OSA Optics & Photonics Congress, Digital Holography and Three-Dimensional Imaging, DWB-5 (2010). 
  143. Takanori NOMURA, Kohei Yoshino, Eiji NITANAI, and Takuhisa NUMATA, "Profilometry and Reflectmetry Using Low-Coherent Digital Holography, " Technical Digest of 2010 OSA Optics & Photonics Congress, Digital Holography and Three-Dimensional Imaging, JMA-25 (2010).
  144. Takanori NOMURA and Bahram Javidi, “Polarization Imaging of a 3D object by use of digital holography and its application,” Three-Dimensional Imaging, Visualization, and Display 2010, Proc. SPIE Vol. 7690-0A-1-7 (2010). 
  145. Takanori NOMURA, “Wave-Splitting Phase-Shifting Digital Holography and its Application,” CD-ROM on The Optical Society of Korea 20th Anniversary Special Meeting, W1C-III1-2 (2009).
  146. Hiroyuki SUZUKI, Takanori NOMURA, Eiji NITANAI, and Takuhisa NUMATA, “Dynamic Recording of a Digital Hologram with Single Exposure by a Wave-Splitting Phase-Shifting Method,” Technical Digest of Eighth Japan-Finland Joint Symposium on Optics in Engineering, pp. 113-114 (2009).
  147. Takanori NOMURA, “Improvement of Viewing-Zone Angle and Image Quality of Digital Holograms,” Journal of Physics: Conference Series 206, 012029 (2010) (The 2009 Euro American Workshop on Information Optics). [invited]
  148. Takanori NOMURA, Yusuke TERANISHI, Eiji NITANAI, and Takuhisa NUMATA, "Quasi-Cylindrical Digital Hologram by Superposition of Digital Holograms Recorded on Concyclic Positions, " Technical Digest of 2009 OSA Optics & Photonics Congress, Digital Holography and Three-Dimensional Imaging, DWB-33 (2009). 
  149. Yusuke Teranishi, Takanori Nomura, Eiji Nitanai, and Takuhisa Numata, "Synthetic digital hologram for any viewing-zone angle using recorded digital holograms from whole directions," Post-deadline Papers Technical Digest of International Topical Meeting on Information Photonics 2008, pp. 1-2 (2008).
  150. Yuki Tanohata, Takanori Nomura, Eiji Nitanai, and Takuhisa Numata, "Determination of a Fringe Peak of an Interferogram by Low-Coherent Interferometry, " Technical Digest of International Topical Meeting on Information Photonics 2008, pp. 98-99 (2008).
  151. Yasuto Suzuki,Takanori Nomura, Eiji Nitanai, and Takuhisa Numata, "Characteristics of shift multiplexed recording of the holographic memory system with certification function, " Technical Digest of International Topical Meeting on Information Photonics 2008, pp. 64-65 (2008).
  152. Takanori Nomura, Eiji Nitanai, and Takuhisa Numata, "Wave-splitting phase-shifting digital holography by use of a retarder array," 2007 IEEE LEOS Annual Meeting Conference Proceedings, pp. 82-83 (2007).
  153. Takanori Nomura, Bahram Javidi, Shinji Murata, Eiji Nitanai, and Takuhisa Numata, "Polarimetric Imaging of a Three-dimensional Object by Use of Digital Holography," (invited) Sixth Euro American Workshop on Information Optics at Grand Hotel Reykjavik, Iceland, AIP Conference Proceedings 949, pp. 107-113 (2007).
  154. Takanori Nomura, Mitsukiyo Okamura, Eiji Nitanai, and Takuhisa Numata, "Speckle Removal in Digital Holography using Multiple Wavelengths/Distances from an Object," 2006 IEEE LEOS Annual Meeting Conference Proceedings, pp. 74-75 (2006).
  155. Takanori Nomura, Bahram Javidi, Shinji Murata, Eiji Nitanai, and Takuhisa Numata, "One-shot digital holography by use of polarization," SPIE's 48th Annual Meeting, Proc. Soc. Photo-Opt. Instrum. Eng. 6311, 631110I (2006). [invited]
  156. Takanori Nomura, Eiji Nitanai, and Takuhisa Numata, "Design of an input phase mask of the optical encryption system and its application to certification," Fifth International WorkShop on Information Optics, Toledo, AIP Conference Proceedings 860, pp. 481-488 (2006) .
  157. Takanori Nomura, Shinji Murata, Eiji Nitanai, and Takuhisa Numata," Quasi one-shot phase-shifting digital holography," 2005 Optics East, Proc. Soc. Photo-Opt. Instrum. Eng. 6016, 60160L (2005). [invited]
  158. Cuong Manh Do, Seung-Hyun Hong, Takanori Nomura, and Bahram Javidi, "Multiwavelengths holgoraphic image fusion using 2D discrete wavelet transform," 2005 Optics East, Proc. Soc. Photo-Opt. Instrum. Eng. 6016, 60160Z (2005).
  159. Takanori Nomura and Bahram Javidi, "Optical encryption based on the input phase mask designed for the space bandwidth of the optical system," SPIE's 47th Annual Meeting, Proc. Soc. Photo-Opt. Instrum. Eng. 5908,(invited) (2005).
  160. Takanori Nomura, Takaaki Fujita, Eiji Nitanai, Takuhisa Numata, and Bahram Javidi, "Optical encryption using an input phase mask designed for the space bandwidth of the optical system," 2004 IEEE LEOS Annual Meeting Conference Proceedings, pp. 344-345 (2004).
  161. Takanori Nomura, Kaoru Uota, and Yoshiharu Morimoto, "Multiple 3D object data recording onto a digital hologram based on a hybrid optical encryption," Technical Digest of ICO '04 , pp. 449-450 (2004).
  162. Isao Takahashi, Takanori Nomura, Yoshiharu Morimoto, Satoru Yoneyama, and Motoharu Fujigaki, "Deformation measurement by digital holographic interferometry," Optomechatronic System IV, Photonics Technologies for Robotics, Automation, and Manufacturing, Photonics East, Proc. Soc. Photo-Opt. Instrum. Eng. 5264, pp. 206-213 (2003).
  163. Takanori Nomura, Kaoru Uota, and Yoshiharu Morimoto, "Hybrid optical encryption of a three-dimensional object," OSA Annual Meeting Conference Program, p. 95 (2003).
  164. Kaoru Uota, Takanori Nomura, and Yoshiharu Morimoto, "Securing information based on random phase modulation of an object wave," OSA Annual Meeting Conference Program, p. 77 (2002).
  165. Atsushi Okazaki, Takanori Nomura, and Yoshiharu Morimoto, "Fast multiple alignment using optical encoding of amino acid," OSA Annual Meeting Conference Program, p. 76 (2002).
  166. Takanori Nomura, Shunji Mikan, Yoshiharu Morimoto, and Bahram Javidi, "Optical Image Encryption Using an Optimally Designed Encryption Key," International Workshop on Optical Display and Information Processing, pp. 33-42 (2002). [invited]
  167. Takanori Nomura, Shunji Mikan, Yoshiharu Morimoto, and Bahram Javidi, "Secure Optical Data Storage with A Random Phase Key Code Based on A Joint Transform Correlator Architecture," SPIE's 47th Annual Meeting, Proc. Soc. Photo-Opt. Instrum. Eng. 4789, pp. 275-282 (2002).
  168. Shunji Mikan, Takanori Nomura, Bahram Javidi, and Yoshiharu Morimoto, "Optical Image Encryption Using an Optimally Designed Encryption Key," OSA Annual Meeting Conference Program, pp. 76 (2001).
  169. Takanori Nomura, Atsushi Okazaki, Masashi Kameda, Yoshiharu Morimoto, and Bahram Javidi, "Digital Holographic Data Reconstruction with Data Compression," SPIE's 46th Annual Meeting, Proc. Soc. Photo-Opt.Instrum. Eng. 4471, pp. 235-242 (2001).
  170. Takanori Nomura, Bahram Javidi, Shunji Mikan, and Yoshiharu Morimoto, "Optical Image Encryption Using an Optimally Designed Encryption Key," Technical Digest of CLEO/Pacific Rim 2001, II, pp. 492-493 (2001).
  171. Takanori Nomura and Yoshiharu Morimoto, "On-Axis Joint Transform Correlator by Use of a Phase Modulation of a Convex Lens," OSA Annual Meeting Conference Program, pp. 87, (2000).
  172. Takanori Nomura and Bahram Javidi, "Programmable Optical Security Systems using Computer Generated Holography," SPIE's 45th Annual Meeting, Proc. Soc. Photo-Opt. Instrum. Eng. 4113, pp. 156-164(2000). [invited]
  173. Takanori Nomura and Bahram Javidi, "Securing Information Using a Digital Holographic Technique," Optics in Computing, OC 2000, Proc. Soc. Photo-Opt. Instrm. Eng. 4089, pp. 619-624 (2000).
  174. Takanori Nomura and Bahram Javidi, "High-Speed Optical Encryption Using Binary Encoding Algorithms," 1999 IEEE LEOS Annual Meeting Conference Proceedings, pp. 192-193 (1999).
  175. Bahram Javidi, Takanori Nomura, and Osamu Matoba, "Polarization Multiplexing for Information Security System," 1999 IEEE LEOS Annual Meeting Conference Proceedings, pp. 190-191 (1999).
  176. Bahram Javidi and Takanori Nomura, "Polarization Encoding for Optical Security System," SPIE's 44th Annual Meeting, Proc. Soc. Photo-Opt. Instrum. Eng. 3804, pp. 196-203 (1999).
  177. Takanori Nomura and Bahram Javidi, "Optical Encryption Using Joint Transform Correlator Architecture for Robust Alignment," SPIE's 44th Annual Meeting, Proc. Soc. Photo-Opt. Instrum. Eng. 3804, pp. 180-187 (1999).
  178. Takanori Nomura, "Phase-encoded joint transform correlator as an optical encryption decoder," SPIE's 43rd Annual Meeting, Proc. Soc. Photo-Opt. Instrum. Eng. 3466, pp. 246-252 (1998).
  179. Takanori Nomura, "Application of Phase-Encoded Joint Transform Correlator to Optical Encryption Decoder," Optics in Computing OC 1998, Proc. Soc. Photo-Opt. Instrum. Eng. 3490, pp. 191-194 (1998).
  180. Takanori Nomura, Motoharu Fujigaki, and Yoshiharu Morimoto, "Diffraction Grating Using a Colloidal Liquid of Magnetic Particles and Its Characteristics," in17th Congress of the International Commission for Optics: Optics for Science and New Technology, Joon-Sung Chang, Jai-Hyung Lee, Soo-Young Lee, Chang-Hee Nam, Editors, Proc. Soc. Photo-Opt. Instrum. Eng. 2778, pp. 487-488 (1996).
  181. Takanori Nomura and Masaya Tamaru, "Layered Blind Deconvolution Using Subband Filter Banks," 1996 International Topical Meeting on Optical Computing, Technical Digest 1., pp. 196-197 (1996).
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