Deep Convolutional Neural Network (CNN) for threedimensional (3-D) objects classification using phase-only digital holographic information

Title : Deep Convolutional Neural Network (CNN) for threedimensional (3-D) objects classification using phase-only digital holographic information

Abstract:

A deep CNN-based binary classification of three-dimensional (3-D) objects for phase-only digital holographic information has been presented. The 3-D objects considered for the binary classification task are ‘triangle-square’, ‘circle-square’, ‘square-triangle’, and ‘triangle-circle’. The 3-D object ‘triangle-square’ is considered for the TRUE class and the remaining 3-D objects ‘circle-square’, ‘square-circle’, and ‘triangle-circle’ are considered for the FALSE class. The 3-D object volume ‘triangle-square’ was constructed in such a way that the feature triangle was considered in the first plane and the feature square was considered in the second plane. Each plane is separated by various distances , and respectively. The remaining three 3-D objects were constructed similarly except that the different features were considered in the first and second planes respectively. The digital holograms of 3-D objects have been formed using the two-step phase-shifting digital holography (PSDH) technique and computationally post-processed to obtain phase-only digital holographic data. The phase-only image dataset was prepared by performing a rotation of on each phase image. Then the training of the deep CNN was performed on a phase-only image dataset consisting of 2880 images to produce the results. The results such as the loss and accuracy curves, confusion matrix, Receiver Operating Characteristic (ROC), and precision-recall characteristic are shown for the confirmation of the work. The classification of phase images implies the classification of 3-D objects using deep CNN.

Audience Take Away Notes:

• The Deep CNN based 3-D objects classification for phase-only digital holographic information is presented. The 3-D objects classification using Deep CNN in digital holography has attracted many of the researchers in the world. The classification is a supervised machine learning technique that produces the output as discrete labels. The 3-D objects classification using deep CNN is presented here
• The people who are working in optics are helped by this topic i.e deep CNN based 3-D objects classification for phase-only digital holographic information is presented
• Yes. The deep CNN based 3-D objects classification has been performed using phase-only digital holographic data. Further, the 3-D objects classification performed using deep CNN can be compared to Alex and VGG neural networks
• Yes the deep CNN is very simple deep neural network to perform 3-D objects classification for phase-only digital holographic data. The deep CNN can be replaced by machine learning classifiers namely K-Nearest-Neighbor (KNN), Support Vector Machine (SVM), etc.

Biography:

He is an Assoc.Prof at ATME College of Engineering, Mysore, Karnataka, India. He has served as an Asst. Prof, Guest Lecturer, and lecturer for eight and half years. He has pursued his research in Vellore Institute of Technology (VIT) Chennai and also qualified UGC-NET Exam in Dec 2019. He obtained his master’s degree, M Tech in VLSI Design and Embedded Systems from VTU, Karnataka, India in 2012 and bachelor’s degree, B E in Electronics and Communication Engineering from Visveswaraya Technological University (VTU), Karnataka, India in 2009. He is a member of the Optical Society of America (OSA). His current research interests are in the areas of digital holography, artificial intelligence, and machine learning.)