Publications

     SCI/SCIE Papers

  • S. Park, Y. Kim, and I. Moon, “Automated phase reconstruction and super-resolution with deep learning in digital holography,” Optics & Laser Technology 176, 111030, 2024 (corresponding author, IF=5.0, JCR= 18/100 in 2022)
  • A. Rehman, H. An, S. Park, and I. Moon, “Automated classification of elliptical cancer cells with stain-free holographic imaging and self-supervised learning,” Optics & Laser Technology 174, 110646, 2024 (corresponding author, IF=5.0, JCR= 18/100 in 2022)
  • O. Jeong and I. Moon, “Adaptive transfer learning-based cryptanalysis on double random phase encoding,” Optics & Laser Technology 168, 109916, 2024 (corresponding author, IF=5.0, JCR= 18/100 in 2022)
  • E. Yang, K. Shankar, S. Kumar, C. Seo, and I. Moon, “Equilibrium Optimization Algorithm with Deep Learning Enabled Prostate Cancer Detection on MRI Images,” Biomedicines 11, 3200, 2023 (corresponding author, IF=6.801, JCR= 33/276 in 2020)
  • S. Park, H. Kim, and I. Moon, “Automated Classical Cipher Emulation Attacks via Unified Unsupervised Generative Adversarial Networks,” Cryptography 7, 35, 2023 (corresponding author, IF=1.6 in 2022)
  • S. Park, Y. Kim, and I. Moon, “Fast automated quantitative phase reconstruction in digital holography with unsupervised deep learning,” Optics and Lasers in Engineering 167, 107624, 2023 (corresponding author, IF=4.836, JCR= 13/99 in 2020)
  • K. Jaferzadeh, B. Rappaz, Y. Kim, B. Kim, and I. Moon, “Automated Dual-Mode Cell Monitoring To Simultaneously Explore Calcium Dynamics and Contraction-Relaxation Kinetics within Drug-Treated Stem Cell-Derived Cardiomyocytes,” ACS Sensors 8, 2533-2542, 2023 (corresponding author, IF=8.9, JCR= 4/86 in 2022)
  • K. Jaferzadeh, S. Son, A. Rehman, S. Park, and I. Moon, “Automated Stain-Free Holographic Image-Based Phenotypic Classification of Elliptical Cancer Cells,” Advanced Photonics Research, 4, 2200043, 2023 (corresponding author, IF=3.7 in 2022)
  • A. Martin, E. Ahmadzadeh, and I. Moon, “Privacy-Preserving Image Captioning with Deep Learning and Double Random Phase Encoding,” Mathematics 10, 2859, 2022 (corresponding author, IF=2.4, JCR= 23/330 in 2022)
  • E. Kim, S Park, S Hwang, I Moon, and B Javidi, “Deep Learning-Based Phenotypic Assessment of Red Cell Storage Lesions for Safe Transfusions,” IEEE Journal of Biomedical and Health Informatics 26, 1318-1328, 2022 (corresponding author, IF=7.7, JCR= 4/55 in 2022)
  • E. Ahamadzadeh, K. Jaferzadeh, S. Park, S. Son, and I Moon, “Automated analysis of human cardiomyocytes dynamics with holographic image-based tracking for cardiotoxicity screening,” Biosensors and Bioelectronics 195, 113570, 2022 (corresponding author, IF=12.6, JCR= 2/86 in 2022)
  • E. Ahmadzadeh, H. Kim, O. Jeong, N. Kim, and I. Moon, “A Deep Bidirectional LSTM-GRU Network Model for Automated Ciphertext Classification,” IEEE Access 10, 3228-3237, 2022 (corresponding author, IF=3.745, JCR= 35/156 in 2019)
  • F. Yi, O. Jeong, I. Moon, and B. Javidi, “Deep learning integral imaging for three-dimensional visualization, object detection, and segmentation,” Optics and Lasers in Engineering 146, 106695, 2021 (corresponding author, IF=4.836, JCR= 13/99 in 2020)
  • S. Park, Y. Kim, and I. Moon, “Automated phase unwrapping in digital holography with deep learning,” Biomedical Optics Express 12, 7064-7081, 2021 (corresponding author, IF=3.910, JCR= 12/79 in 2018)
  • F. Yi, O. Jeong, and I. Moon, “Privacy-Preserving Image Classification With Deep Learning and Double Random Phase Encoding,” IEEE Access 9, 136126-136134, 2021 (corresponding author, IF=4.098, JCR= 23/155 in 2018)
  • I. Moon, Y. Kim, S. Gholami, and O. Jeong, “Double random phase encoding schemes with perfect forward secrecy for robust image cryptography,” OSA Continuum 4, 2245-2259, 2021 (first and corresponding author, IF=1.6 in 2022)
  • E. Ahmadzadeh, H. Kim, O. Jeong, and I. Moon, “A Novel Dynamic Attack on Classical Ciphers Using an Attention-Based LSTM Encoder-Decoder Model,” IEEE Access 9, 60960-60970, 2021 (corresponding author, IF=4.098, JCR= 23/155 in 2018)
  • F. Yi, S. Park, and I. Moon, “High-throughput label-free cell detection and counting from diffraction patterns with deep fully convolutional neural networks,” Journal of Biomedical Optics 26, 036001, 2021 (corresponding author, IF=2.785, JCR= 29/97 in 2019)
  • I. Moon, K. Jaferzadeh, Y. Kim, and B. Javidi, “Noise-free quantitative phase imaging in Gabor holography with conditional generative adversarial network,” Optics Express 28, 26284-26301, 2020 (first and corresponding author, IF=3.669, JCR= 19/97 in 2019)
  • E. Ahmadzadeh, K. Jaferzadeh, S. Shin, and I. Moon, “Automated single cardiomyocyte characterization by nucleus extraction from dynamic holographic images using a fully convolutional neural network,” Biomedical Optics Express, 11, 1501-1516, 2020 (corresponding author, IF=3.910, JCR= 12/79 in 2018)
  • K. Jaferzadeh, B. Rappaz, K. Fabien, B. Kim, I. Moon, P. Marquet, and G. Turcatti, “Marker-Free Automatic Quantification of Drug-Treated Cardiomyocytes with Digital Holographic Imaging,” ACS Photonics, 7, 105-113, 2020 (corresponding author, IF=7.143, JCR= 6/95 in 2018)
  • K. Jaferzadeh, M. Sim, N. Kim, and I. Moon, “Quantitative analysis of three-dimensional morphology and membrane dynamics of red blood cells during temperature elevation,” Scientific Reports, 9, 1-9, 2019 (corresponding author, IF=4.259, JCR= 10/64 in 2016)
  • S. Gholami, K. Jaferzadeh, S. Shin, and I. Moon, “Efficient compression schemes for double random phase-encoded data for image authentication,” Current Optics and Photonics, 3, 1-11, 2019 (corresponding author, IF=0.637, JCR=84/94 in 2017)
  • Y. Kim, M. Sim, I. Moon, and B. Javidi, “Secure Random Phase Key Exchange Schemes for Image Cryptography,” IEEE Internet of Things Journal, 6, 10855-10861, 2019 (corresponding author, IF=9.515, JCR= 3/155 in 2018)
  • K. Jaferzadeh, S. Hwang, I. Moon, and B. Javidi, “No-search focus prediction at the single cell level in digital holographic imaging with deep convolutional neural network,” Biomedical Optics Express, 10, 4276-4289, 2019 (corresponding author, IF=3.910, JCR= 12/79 in 2018)
  • Y. Kim, M. Sim, and I. Moon, “Secure storage and retrieval schemes for multiple encrypted digital holograms with orthogonal phase encoding multiplexing,” Optics Express, 27, 22147-22160, 2019 (corresponding author, IF=3.307, JCR=17/92 in 2016)
  • S. Gholami, K. Jaferzadeh, S. Shin, and I. Moon, “An efficient image-based verification scheme by fusion of double random phase encoding and dynamic chaotic map,” Multimedia Tools and Applications, 1-18, 2019 (corresponding author, IF=2.101, JCR=40/107 in 2018)
  • L. Akter, I. Moon, and G. Kwon, “Double random phase encoding with a Poisson-multinomial distribution for efficient colorful image authentication,” Multimedia Tools and Applications, 78, 14613-14632, 2019 (IF=2.101, JCR=40/107 in 2018)
  • I. Moon, E. Ahmadzadeh, K. Jaferzadeh, and N. Kim, “Automated quantification study of human cardiomyocyte synchronization using holographic imaging,” Biomedical Optics Express 10, 610-621, 2019 (first and corresponding author, IF=3.910, JCR= 12/79 in 2018)
  • I. Moon, K. Jaferzadeh, E. Ahmadzadeh, and B. Javidi, “Automated quantitative analysis of multiple cardiomyocytes at the single‐cell level with three‐dimensional holographic imaging informatics,” Journal of Biophotonics, 11, e201800116, 2018 (first and corresponding author, IF=4.328, JCR=11/92 in 2016)
  • K. Jaferzadeh, I. Moon, M. Bardyn, M. Prudent, J. Tissot, B. Rappaz, B. Javidi, G. Turcatti, and P. Marquet, “Quantification of stored red blood cell fluctuations by time-lapse holographic cell imaging,” Biomedical Optics Express, 9, 4714-4729, 2018 (corresponding author, IF=3.482, JCR=15/94 in 2017)
  • Y. Kim, J. Song, I. Moon, and Y. Lee, “Interference-based multiple-image encryption using binary phase masks,” Optics and Lasers in Engineering, 107, 281-287, 2018 (corresponding author, IF=3.388, JCR=17/94 in 2017)
  • J. Lee, N. Sultana, F. Yi, and I. Moon, “Avalanche and Bit Independence Properties of Photon-counting Double Random Phase Encoding in Gyrator Domain,” Current Optics and Photonics, 2, 368-377, 2018 (corresponding author, IF=0.637, JCR=84/94 in 2017)
  • F Yi, Y Kim, and I Moon, “Secure Image-Authentication Schemes with Hidden Double Random-Phase Encoding,” IEEE Access, 6, 70113-70121, 2018 (corresponding author, IF=3.557, JCR=24/148 in 2017)
  • F. Yi, I. Moon, and B. Javidi, “Automated red blood cells extraction from holographic images using fully convolutional neural networks,” Biomedical Optics Express, 8, 4466-4479, 2017 (corresponding author, IF=3.648, JCR=9/87 in 2014)
  • K. Jaferzadeh, I. Moon, and S. Gholami, “Enhancing fractal image compression speed using local features for reducing search space,” Pattern Analysis and Applications, 20, 1119-1128, 2017 (IF=1.352, JCR=84/133 in 2016)
  • A. Anand, I. Moon, and B. Javidi, “Automated disease identification with 3-D optical imaging: a medical diagnostic tool,” Proceedings of the IEEE, 105, 924-946, 2017 (co-corresponding author, IF=9.237, JCR=5/262 in 2016)
  • M. Bardyn, B. Rappaz, K. Jaferzadeh, D. Crettaz, J. Tissot, I. Moon, G. Turcatti, N. Lion, and M. Prudent, “Red blood cells ageing markers: a multi-parametric analysis,” Blood Transfusion, 15, 239, 2017 (IF=2.372, JCR=39/68 in 2014)
  • F. Yi, Y. Jeoung, and I. Moon, “Three-dimensional image authentication scheme using sparse phase information in double random phase encoded integral imaging,” Applied Optics, 56, 4381-4387, 2017 (corresponding author, IF=1.784, JCR=36/87 in 2014)
  • E. Ahmadzadeh, K. Jaferzadeh, J. Lee, and I. Moon, “Automated three-dimensional morphology-based clustering of human erythrocytes with regular shapes: stomatocytes, discocytes, and echinocytes,” Journal of Biomedical Optics, 22, 076015, 2017 (corresponding author, IF=2.859, JCR=13/87 in 2014)
  • I. Moon, F. Yi, and B. Rappaz, “Automated tracking of temporal displacements of a red blood cell obtained by time-lapse digital holographic microscopy,” Applied Optics, 55, A86-A94, 2016 (first and corresponding author, IF=1.784, JCR=36/87 in 2014)
  • F. Yi, J. Lee, and I. Moon, “Three-dimensional integral imaging by using unknown sensor array position calibration with a closed-form solution,” Optical Engineering, 55, 023104, 2016 (corresponding author, IF=0.958, JCR=55/83 in 2013)
  • J. Song, I. Moon, and Y. Lee, “Optical Encryption of a Binary Image by Phase Modulation of the Wavefront,” Journal of the Optical Society of Korea, 20, 358-362, 2016 (IF=1.179, JCR=55/87 in 2014)
  • I. Moon, F. Yi, M. Han, and J. Lee, “Efficient asymmetric image authentication schemes based on photon counting-double random phase encoding and RSA algorithms,” Applied Optics, 55, 4328-4335, 2016 (first author, IF=1.784, JCR=36/87 in 2014)
  • F. Yi, I. Moon, and B. Javidi, “Cell morphology-based classification of red blood cells using holographic imaging informatics,” Biomedical Optics Express, 7, 2385-2399, 2016 (corresponding author, IF=3.497, JCR=7/83 in 2013)
  • K. Jaferzadeh, S. Gholami, and I. Moon, “Lossless and lossy compression of quantitative phase images of red blood cells obtained by digital holographic imaging,” Applied Optics 55, 10409-10416, 2016 (corresponding author, IF=1.784, JCR=36/87 in 2014)
  • K. Jaferzadeh and I. Moon, “Human red blood cell recognition enhancement with three-dimensional morphological features obtained by digital holographic imaging,” Journal of Biomedical Optics, 21, 126015, 2016 (corresponding author, IF=2.859, JCR=13/87 in 2014)
  • F. Yi, I. Moon, and Y. Lee, “Three-dimensional counting of morphologically normal human red blood cells via digital holographic microscopy,” Journal of Biomedical Optics, 20, 016005, 2015 (corresponding author, IF=2.859, JCR=13/87 in 2014)
  • B. Rappaz, I. Moon, Y. Faliu, B. Javidi, P. Marquet, and G. Turcatti, “Automated multi-parameter measurement of cardiomyocytes dynamics with digital holographic microscopy,” Optics Express, 23, 13333-13347, 2015 (corresponding author, IF=3.546, JCR=5/80 in 2012)
  • M. Afrakhteh, I. Moon, and J. Lee, “Double phase modular steganography with the help of error images,” Multimedia Tools and Applications, 4833-4847, 2015 (IF=1.346, JCR=52/138 in 2014)
  • P. Carmona, F. Pla, A. Stern, I. Moon, and B. Javidi, “Three-dimensional imaging with multiple degrees of freedom using data fusion,” Proceedings of the IEEE, 103, 1654-1671, 2015 (IF=6.911, JCR=2/243 in 2012)
  • K. Jaferzadeh and I. Moon, “Quantitative investigation of red blood cell three-dimensional geometric and chemical changes in the storage lesion using digital holographic microscopy,” Journal of Biomedical Optics, 20, 2015 (corresponding author, IF=2.859, JCR=13/87 in 2014)
  • I. Moon, F. Yi, Y. Lee, and B. Javidi, “Avalanche and bit independence characteristics of double random phase encoding in the Fourier and Fresnel domains,” Journal of the Optical Society of America A, 31, 1104-1111, 2014 (first author, IF=1.665, JCR=30/80 in 2012)
  • J. Song, I. Moon, and Y. Lee, “Holography optical memory recorded with error correcting bits,” Journal of Optics, 16, 065403, 2014 (IF=2.010, JCR=23/83 in 2013)
  • F. Yi, J. Lee, and I. Moon, “Simultaneous reconstruction of multiple depth images without off-focus points in integral imaging using a graphics processing unit,” Applied Optics, 53, 2777-2786, 2014 (corresponding author, IF=1.748, JCR=27/79 in 2011)
  • F. Yi, I. Moon, and Y. Lee, “A Multispectral Photon-Counting Double Random Phase Encoding Scheme for Image Authentication,” Sensors, 14, 8877-8894, 2014 (corresponding author, IF=2.048, JCR=10/57 in 2013)
  • J. Lee, F. Yi, Saifullah, and I. Moon, “Graphics processing unit–accelerated double random phase encoding for fast image encryption,” Optical Engineering, 53, 112308, 2014 (corresponding author, IF=0.958, JCR=55/83 in 2013)
  • I. Moon, F. Yi, Y. Lee, B. Javidi, D. Boss, and P. Marquet, “Automated quantitative analysis of 3D morphology and mean corpuscular hemoglobin in human red blood cells stored in different periods,” Optics Express, 21, 30947-30957, 2013 (first and corresponding author, IF=3.753, JCR=5/78 in 2010)
  • F. Yi, I. Moon, and Y. Lee, “Extraction of target specimens from bioholographic images using interactive graph cuts,” Journal of Biomedical Optics, 18, 126015, 2013 (corresponding author, IF=3.188, JCR=8/78 in 2010)
  • D. Son, E. Cho, I. Moon, Z. Ghassemlooy, S. Kim, and C. Lee, “Simultaneous transmission of audio and video signals using visible light communications,” EURASIP Journal on Wireless Communications and Networking, 1, 250, 2013 (IF=0.873, JCR=143/245 in 2011)
  • I. Moon, A. Anand, M. Cruz, and B. Javidi, “Identification of Malaria-Infected Red Blood Cells Via Digital Shearing Interferometry and Statistical Inference,” IEEE Photonics Journal, 5, 6900207, 2013 (first and corresponding author, IF=2.344, JCR=12/78 in 2010)
  • K. Sharma and I. Moon, “Improved scale-invariant feature transform feature-matching technique-based object tracking in video sequences via a neural network and Kinect sensor,” Journal of Electronic Imaging, 22, 033017, 2013 (corresponding author, IF=1.061, JCR=11/23 in 2012)
  • F. Yi, I. Moon, B. Javidi, D. Boss and P. Marquet, “Automated segmentation of multiple red blood cells with digital holographic microscopy,” Journal of Biomedical Optics, 18, 026006, 2013 (corresponding author, IF=3.188, JCR=8/78 in 2010)
  • I. Moon, I. Muniraj and B. Javidi, “3D Visualization at Low Light Levels Using Multispectral Photon Counting Integral Imaging,” Journal of Display Technology, 9, 51-55, 2013 (first and corresponding author, IF=2.280, JCR=15/79 in 2011)
  • I. Moon, B. Javidi, F. Yi, D. Boss and P. Marquet, “Automated statistical quantification of three-dimensional morphology and mean corpuscular hemoglobin of multiple red blood cells,” Optics Express, 20, 10295-10309, 2012 (first and corresponding author, IF=3.753, JCR=5/78 in 2010)
  • F. Yi and I. Moon, “Automatic calculation of tree diameter from stereoscopic image pairs using digital image processing,” Applied Optics, 51, 4120-4128, 2012 (corresponding author, IF=1.748, JCR=27/79 in 2011)
  • F. Yi, C. Lee and I. Moon, “Statistical Analysis of 3D Volume of Red Blood Cells with Different Shapes via Digital Holographic Microscopy,” Journal of the Optical Society of Korea 16, 115-120, 2012 (corresponding author, IF=1.278, JCR=27/70 in 2009)
  • C. Lee, I. Moon and B. Javidi, “Photon-counting three-dimensional integral imaging with compression of elemental images,” Journal of the Optical Society of America A, 29, 854-860, 2012 (corresponding author, IF=1.936, JCR=18/78 in 2010)
  • K. Sharma, I. Moon and S. Kim, “Depth estimation of features in video frames with improved feature matching technique using Kinect sensor,” Optical Engineering, 51, 107002, 2012 (corresponding author, IF=0.959, JCR=51/79 in 2011)
  • F. Yi, I. Moon, J. Lee and B. Javidi, “Fast 3D Computational Integral Imaging Using Graphics Processing Unit,” Journal of Display Technology, 8, 714-722, 2012 (corresponding author, IF=2.280, JCR=15/79 in 2011)
  • K. Sharma, I. Moon, and S. Kim. “Extraction of visual landmarks using improved feature matching technique for stereo vision applications,” IETE Technical Review 29, 473-481, 2012 (corresponding author, IF=0.724, JCR=50/79 in 2011)
  • D. Son, E. Cho, I. Moon, Y. Park, C. Lee, “Development of an illumination measurement device for color distribution based on a CIE 1931 XYZ sensor,” Journal of the Optical Society of Korea, 15, 44-51, 2011 (IF=1.278, JCR=27/70 in 2009)
  • M. Cho, M. Daneshpanah, I. Moon and Javidi, “Three-Dimensional optical sensing and visualization using integral imaging,” Proceedings of the IEEE, 99, 556-575, 2011 (IF=5.151, JCR=4/247 in 2010)
  • J. Lee, I. Moon, H. Liu and F. Yi, “3D Holographic Image Recognition by Using Graphic Processing Unit,” Journal of the Optical Society of Korea, 15, 264-271, 2011 (corresponding author, IF=1.278, JCR=27/70 in 2009)
  • B. Javidi, M. Daneshpanah and I. Moon, “Three-Dimensional Holographic Imaging for Identification of Biological Micro/Nanoorganisms,” IEEE Photonics Journal, 2, 256-259, 2010 (IF=2.344, JCR=12/78 in 2010)
  • I. Moon, F. Yi and B. Javidi, “Automated three-dimensional microbial sensing and recognition using digital holography and statistical sampling,” Sensors, 10, 8437-8451, 2010 (first and corresponding author, IF=1.870, JCR=11/56 in 2008)
  • C. Lee and I. Moon, “Comparisons of Object Recognition Performance with 3D Photon Counting & Gray Scale Images,” Journal of the Optical Society of Korea, 14, 388-394, 2010 (corresponding author, IF=1.278, JCR=27/70 in 2009)
  • I. Moon and B. Javidi, “Three-dimensional recognition of photon-starved events using computational integral imaging and statistical sampling,” Optics Letters, 34, 731-733, 2009 (first and corresponding author, IF=3.711, JCR=1/61 in 2007)
  • I. Moon and B. Javidi, “Three-dimensional speckle-noise reduction by using coherent integral imaging,” Optics Letters, 34, 1246-1248, 2009 (first author, IF=3.711, JCR=1/61 in 2007)
  • I. Moon, M. Daneshpanah, B. Javidi and A. Stern, “Automated three-dimensional identification and tracking of micro/nanobiological organisms by computational holographic microscopy,” Proceedings of the IEEE, 97, 990-1010, 2009 (first author, IF=4.613, JCR=5/229 in 2008)
  • I. Moon and B. Javidi, “Three dimensional imaging and recognition using truncated photon counting model and parametric maximum likelihood estimator,” Optics Express, 17, 15709-15715, 2009 (first and corresponding author, IF=4.009, JCR=1/56 in 2006)
  • I. Moon and B. Javidi, “3D visualization and identification of biological microorganisms using partially temporal incoherent light in-line computational holographic imaging,” IEEE Transactions on Medical Imaging, 27, 1782-1790, 2008 (first author, IF=3.939, JCR=3/83 in 2005)
  • I. Moon and B. Javidi, “Three-dimensional visualization of objects in scattering medium by use of computational integral imaging,” Optics Express, 16, 13080-13089, 2008 (first author, IF=4.009, JCR=1/56 in 2006)
  • I. Moon and B. Javidi, “3D identification of stem cells by computational holographic imaging,” Journal of the Royal Society Interface, 4, 305-313, 2007 (first author, IF=2.984, JCR=4/50 in 2006)
  • B. Javidi, I. Moon and S. Yeom, “Three-dimensional identification of biological microorganism using integral imaging,” Optics Express, 14, 12096-12108, 2006 (IF=3.797, JCR=4/54 in 2004)
  • I. Moon and B. Javidi, “Volumetric 3D recognition of biological microorganisms using multivariate statistical method and digital holography,” Journal of Biomedical Optics, 11, 064004, 2006 (first author, IF=3.557, JCR=4/55 in 2005)
  • B. Javidi, S. Yeom, I. Moon and M. Daneshpanah, “Real-time automated 3D sensing, detection, and recognition of dynamic biological microorganic events,” Optics Express, 14, 3806-3829, 2006 (IF=3.797, JCR=4/54 in 2004)
  • S. Yeom, I. Moon, and B. Javidi, “Real-time 3D sensing, visualization and recognition of dynamic biological micro-organisms,” Proceedings of the IEEE, 94, 550-566, 2006 (IF=3.887, JCR=3/208 in 2005)
  • I. Moon and B. Javidi, “Shape-tolerant three-dimensional recognition of microorganisms using digital holography,” Optics Express, 13, 9612-9622, 2005 (first author, IF=3.797, JCR=4/54 in 2004)
  • B. Javidi, I. Moon, S. Yeom, and E. Carapezza, “Three-dimensional imaging and recognition of microorganism using single-exposure on-line (SEOL) digital holography,” Optics Express, 13, 4492-4506, 2005 (IF=3.797, JCR=4/54 in 2004)

     International Conference Papers

  • I. Moon, “Deep learning in digital holography for biomedical applications,” SPIE Defense & Commercial Sensing, 2024 (Invited)
  • O. Jeong and I. Moon, “Deep Learning-based Cryptanalysis on Double Random Phase Encoding,” Optica Imaging Congress, 2023 (Invited)
  • I. Moon and K. Jaferzadeh, “Automated digital holographic image reconstruction with deep convolutional neural networks,” SPIE Defense & Commercial Sensing, 2020 (Invited)
  • I. Moon and Y. Kim, “Secret key sharing schemes in optical cryptosystems based on double random phase encoding,” SPIE Defense & Commercial Sensing, 2020
  • B. Javidi, T. O’Connor, A. Anand, I. Moon, and A. Markman, “Automated cell identification with 3D optical imaging,” SPIE Optical Metrology International Symposium, 2019 (Invited)
  • I. Moon and K. Jaferzadeh, “Marker-free automatic quantification of red blood cell fluctuations with different storage periods by holographic imaging,” SPIE Defense & Commercial Sensing, 2019 (Invited)
  • I. Moon, “Automated quantitative analysis of cardiomyocytes dynamics at single‐cell level with label-free holographic imaging,” Optics & Photonics International Congress, 2019 (Invited)
  • I. Moon and K. Jaferzadeh, “Automated quantification of cardiomyocytes beating profile with time-lapse digital holographic microscopy,” SPIE Defense & Commercial Sensing, 2018 (Invited)
  • I. Moon and K. Jaferzadeh, “Holographic Red Blood Cell Image Analysis,” 17th Workshop on Information Optics, 2018 (Invited)
  • F. Yi, Y. Jeoung, R. Geng, and I. Moon, “Image Authentication Based on Least Significant Bit Hiding and Double Random Phase Encoding Technique,” International Conference on Cloud Computing and Security, 2017
  • B. Javidi, I. Moon, and A. Anand, “Automated disease identification with 3D optical imaging,” 16th Workshop on Information Optics (WIO), 2017
  • N Sultana and I Moon, “Avalanche effect and bit independence behaviors of double random phase encoding schemes,” SPIE Commercial+ Scientific Sensing and Imaging, 2016
  • B. Javidi, A. Anand, I. Moon, E. Watanabe, and A. Stern, “Automated Disease Identification using computational 3D Optical Sensing and Imaging Systems,” OSA Computational Optical Sensing and Imaging, 2016
  • I. Moon, “Color image authentication scheme via multispectral photon-counting double random phase encoding,” SPIE Sensing Technology+ Applications, 2015
  • F. Yi and I. Moon. “Parallel reconstruction of multiple depth slice images with focused parts in integral imaging via graphics processing unit,” SPIE Sensing Technology+ Applications, 2015
  • I. Moon and F. Yi. “Automated counting of morphologically normal red blood cells by using digital holographic microscopy and statistical methods,” SPIE Optical Engineering+ Applications, 2015
  • I. Moon, “Multispectral photon counting integral imaging system for color visualization of photon limited 3D scenes,” SPIE Sensing Technology+ Applications, 2014
  • F. Yi and I. Moon, “Three-dimensional object recognition via integral imaging and scale invariant feature transform,” SPIE Sensing Technology+ Applications, 2014
  • T. Nasrin, F. Yi, S. Das, and I. Moon, “Partially occluded object reconstruction using multiple Kinect sensors,” SPIE Sensing Technology+ Applications, 2014
  • I. Moon, S. Das, M. Han, and J. We, “Lossless Compression of Elemental Images in Photon Counting Three-dimensional Integral Imaging,” OSA Signal Recovery and Synthesis, 2014
  • I. Moon, “Automated analysis of 3D morphology of human red blood cells via off-axis digital holographic microscopy,” SPIE Defense, Security, and Sensing, 2013
  • B. Javidi, M. Cho, I. Moon, A. Anand, M. Martinez-Corral, A. Stern, and Z. Zalevsky, “3D imaging and visualization: an overview of recent advances,” IEEE 12th Workshop on Information Optics (WIO), 2013
  • F. Yi and I. Moon, “Extended k-means algorithm,” IEEE 5th International Conference on Intelligent Human-Machine Systems and Cybernetics, 2013
  • I. Moon and F. Yi, “Bio-holographic image segmentation by using interactive graph-cut,” SPIE Optical Engineering+ Applications, 2012
  • F. Yi and I. Moon, “Image segmentation: A survey of graph-cut methods,” IEEE International Conference on Systems and Informatics (ICSAI), 2012
  • I. Moon, “Three-dimensional speckle-noise reduction by using computational integral imaging and statistical point estimator,” SPIE Defense, Security, and Sensing, 2011
  • I. Moon, “Three-dimensional (3D) visualization and recognition using truncated photon counting model and integral imaging,” SPIE Defense, Security, and Sensing, 2010
  • B. Javidi, M. DaneshPanah, I. Moon, S. Bagheri, and A. Anand, “3-D Identification and Tracking of Biological Microorganisms Using Computational Microscopy,” in Digital Holography and Three-Dimensional Imaging, OSA Technical Digest, 2010
  • I. Moon and Bahram Javidi, “Three-dimensional visualization and recognition of biological microorganisms by use of partially temporal incoherent light in-line digital holographic microscopy,” SPIE Defense, Security, and Sensing, 2009
  • I. Moon and B. Javidi, “Three-dimensional visualization of scattered events by use of coherent integral imaging,” SPIE Defense, Security, and Sensing, 2009
  • I. Moon and B. Javidi, “Three-dimensional sensing, imaging, and recognition of objects having a small number of photons,” SPIE Defense, Security, and Sensing, 2009
  • B. Javidi, M. Daneshpanah, I. Moon, M. Corral, G. Saavedra, and R. Martinez, “Three Dimensional Sensing, Visualization, and Display,” IEEE 3DTV Conference: The True Vision-Capture, Transmission and Display of 3D Video, 2008
  • I. Moon and B. Javidi, “Real time automated three dimensional recognition of micro/nano biological organisms,” Optics East in Boston, 2007
  • B. Javidi, I. Moon, and M. Daneshpanah, “Real-time automated 3D identification of biological microorganisms,” Information Optics Workshop 2007 (Best Paper Award)
  • B. Javidi, I. Moon, and M. Daneshpanah, “Real-time automated 3D sensing, imaging, and monitoring of dynamic microscopic biological events,” SPIE Proceedings in Orlando, 2007
  • I. Moon and B. Javidi, “Real-time automated identification of biological microorganisms using coherent 3D optical imaging,” OSA Conference in Vancouver, BC, Canada, 2007
  • B. Javidi, I. Moon and M. Daneshpanah, “3D imaging, visualization, and recognition of biological microorganisms,” Optics East in Boston, 2006 (Keynote Address)
  • B. Javidi, I. Moon and S. Yeom, “3D imaging and visualization of biological microorganisms,” IEEE LEOS 19th Annual Meeting 2006, Montreal (Canada)
  • B. Javidi, I. Moon and S. Yeom, “Real-time automated 3D visualization and recognition of biological microorganisms,” SPIE Proceedings in San Diego, 2006 (Keynote Address)
  • B. Javidi, S. Yeom, and I. Moon, “Three-dimensional imaging and recognition of microorganisms using computational holography,” SPIE Proceedings in Orlando, 2006 (Keynote Address)
  • B. Javidi, I. Moon, and S. Yeom, “Real time automated 3D imaging and monitoring of dynamic microscopic biological events,” 5th International Workshop on Information Optics 2006, Toledo (Spain)

     US Patents

  • United States Patent, Patent No: US 10,241,469 B2, “MORPHOLOGICAL CELL PARAMETER-BASED RED BLOOD CELL TEST METHOD AND DIGITAL HOLOGRAPHIC MICROSCOPE USED THEREIN” (2019)
  • United States Patent, Patent No: US 10, 296,779 B2, “METHOD OF MEASURING RED BLOOD CELL MEMBRANE FLUCTUATIONS BASED ON DYNAMIC CELL PARAMETERS AND DIGITAL HOLOGRAPHIC MICROSCOPE USED THEREIN” (2019)
  • United States Patent, Patent No: US 9,232,211 B2, “SYSTEM AND METHODS FOR THREE-DIMENSIONAL IMAGING OF OBJECTS IN A SCATTERING MEDIUM” (Jan. 5, 2016)
  • United States Patent, Patent No: US 7,616,320 B2, “METHOD AND APPARATUS FOR RECOGNITION OF MICROORGANISMS USING HOLOGRAPHIC MICROSCOPY” (Nov. 10, 2009)