Machine Vision Inspection Systems, Machine Learning-Based Approaches. Группа авторов

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Machine Vision Inspection Systems, Machine Learning-Based Approaches - Группа авторов


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target="_blank" rel="nofollow" href="#u94812ece-2cfd-55a9-bcb3-c1a7aa7fa331">Chapter 4 studied about brain tumor diagnosis process on digital images using a convolutional neural network (CNN) as a part of the deep learning model. To classification of brain tumors, eight different CNN models were tested on magnetic resonance imaging (MRI). Additionally, the detailed discussion on machine learning algorithms and deep learning techniques is presented.

      Chapter 5 focused on optical character recognition. In this chapter, the detailed study was presented on handwritten identification and classification techniques and their applications. Furthermore, this chapter discussed their limitations along with an overview of the precision rate of Artificial Neural Network-based approaches.

      Chapter 6 presented an automated process of detection of defects on wood or metal surface. Generally, monitoring the quality of raw material plays a crucial role in the production of a quality product. Therefore, this chapter developed the classification model using the multiclass support vector machine to identify the defected present into the wood.

      Chapter 7 focused computational linguistics towards text recognition and synthesis, speech recognition and synthesis, and conversion between text to speech and vice versa. This chapter branches out towards a text- to-speech system (TTS) which is used for conversion of natural language text into speech distinguishing itself from other systems that render symbolic linguistic representations like phonetic transcriptions into speech. This chapter mainly deals with an intelligible text-to-speech program that allows a visually impaired or a person with a reading disability to familiarize a language.

      Chapter 9 focused on communication for hearing impaired people. Since most members of this community use sign language, it is extremely valuable to develop automatized traductors between this language and other spoken languages. This chapter reports the recognition of Mexican sign-language static-alphabet from 3D data acquired from leap motion and MS Kinect 1 sensors. The novelty of this research is the use of six 3D affine moments invariants for sign language recognition.

      Chapter 10 presented the solar cooker precise for scientific design. The human interference methods of traditional are exceeding trust for thermal applications and the environment cannot adapt to the variable source. In this chapter, the novel solar cooker has been discussed and based adaptive control through an online Sequential Extreme Learning Machine (OSELM).

      Chapter 11 discussed the uses and applications of X-ray images. In this chapter, a detailed study was conducted on radio-diagnosis, nuclear medicine, and radiotherapy remain strong pillars for inspection, diagnosis, and treatment delivery systems. Also, discussed recent advances in artificial intelligence using radiography such as computed tomography.

      Chapter 12 addressed the detection and analysis of breast illnesses in mammography images. This chapter presented the use of overlay convolutional neural networks that allow characteristic extraction from the mammography scans which is thereafter fed into a recurrent neural community. Also, this chapter would in actuality assist in tumor localization in case of breast cancers.

      Chapter 13 focused on compression of medical images like MRI, ultrasound, and medical-related scans. Generally, voluminous data is embedded in medically produced images from various procedures and it produces images that need more storage space, managing which is difficult. Therefore, this chapter discussed compression of medical images and also techniques to classify the compressed images which are useful in telemedicine.

       Muthukumaran Malarvel

       Soumya Ranjan Nayak

       Prasant Kumar Pattnaik

       Surya Narayan Panda

       November 2020

      1

      Machine Learning-Based Virus Type Classification Using Transmission Electron Microscopy Virus Images

       Kalyan Kumar Jena1*, Sourav Kumar Bhoi1, Soumya Ranjan Nayak2 and Chittaranjan Mallick3

       1Department of Computer Science and Engineering, Parala Maharaja Engineering College, Berhampur, India

       2Amity School of Engineering and Technology, Amity University Uttar Pradesh, Noida, India

       3Department of Mathematics, Parala Maharaja Engineering College, Berhampur, India

       Abstract

      Viruses are the submicroscopic infectious agents having the capability of replication itself inside the living cells of human body. Different dangerous infectious viruses greatly affect the human society along with plants, animals and microorganisms. It is very difficult for the survival of human society due to these viruses. In this chapter, Machine Learning (ML)-based approach is used to analyze several transmission electron microscopy virus images (TEMVIs). In this work, several TEMVIs such as Ebola virus (EV), Entero virus (ENV), Lassa virus (LV), severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Zika virus (ZV), etc. are analyzed. The ML-based approach mainly focuses on the classification techniques such as Logistic Regression (LR), Neural Network (NN), k-Nearest Neighbors (kNN) and Naive Bayes (NB) for the processing of TEMVIs. The performance of these techniques is analyzed using classification accuracy (CA) parameter. The simulation of this work is carried out using Orange3-3.24.1.

      Keywords: ML, TEMVIs, Classification Techniques, LR, NN, kNN, NB

      ML [1–34] plays an important role in the today’s era for the researchers and scientists to carry out their research work. ML is considered as one of the most important application of artificial intelligence. Systems can be learned and improved from experience in automatic manner without any explicit programming by using ML mechanism. The main focus of ML is to develop computer programs that can access data as well as use it for learning purpose. ML techniques can be mainly classified as unsupervised learning techniques and supervised


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