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A Deep-Learning Based Prediction of Pancreatic Adenocarcinoma with Electronic Health Records from the State of Maine

Year: 2020 Volume: 14 Issue: 11 370 - 377 Pages

• Authors:
• Xiaodong Li
• Peng Gao
• Chao-Jung Huang
• Shiying Hao
• Xuefeng B. Ling
• Yongxia Han
• Yaqi Zhang
• Le Zheng
• Chengyin Ye
• Modi Liu
• Minjie Xia
• Changlin Fu
• Bo Jin
• Karl G. Sylvester
• Eric Widen

Abstract: Predicting the risk of Pancreatic Adenocarcinoma (PA) in advance can benefit the quality of care and potentially reduce population mortality and morbidity. The aim of this study was to develop and prospectively validate a risk prediction model to identify patients at risk of new incident PA as early as 3 months before the onset of PA in a statewide, general population in Maine. The PA prediction model was developed using Deep Neural Networks, a deep learning algorithm, with a 2-year electronic-health-record (EHR) cohort. Prospective results showed that our model identified 54.35% of all inpatient episodes of PA, and 91.20% of all PA that required subsequent chemoradiotherapy, with a lead-time of up to 3 months and a true alert of 67.62%. The risk assessment tool has attained an improved discriminative ability. It can be immediately deployed to the health system to provide automatic early warnings to adults at risk of PA. It has potential to identify personalized risk factors to facilitate customized PA interventions.

• Keywords:
• Cancer prediction
• deep learning
• electronic health records
• pancreatic adenocarcinoma.

Automatic Product Identification Based on Deep-Learning Theory in an Assembly Line

Year: 2020 Volume: 14 Issue: 10 1052 - 1059 Pages

• Authors:
• Fidel Lòpez Saca
• Carlos Avilés-Cruz
• Miguel Magos-Rivera
• José Antonio Lara-Chávez

Abstract: Automated object recognition and identification systems are widely used throughout the world, particularly in assembly lines, where they perform quality control and automatic part selection tasks. This article presents the design and implementation of an object recognition system in an assembly line. The proposed shapes-color recognition system is based on deep learning theory in a specially designed convolutional network architecture. The used methodology involve stages such as: image capturing, color filtering, location of object mass centers, horizontal and vertical object boundaries, and object clipping. Once the objects are cut out, they are sent to a convolutional neural network, which automatically identifies the type of figure. The identification system works in real-time. The implementation was done on a Raspberry Pi 3 system and on a Jetson-Nano device. The proposal is used in an assembly course of bachelor’s degree in industrial engineering. The results presented include studying the efficiency of the recognition and processing time.

• Keywords:
• Deep-learning
• image classification
• image identification
• industrial engineering.

Classification of Computer Generated Images from Photographic Images Using Convolutional Neural Networks

Year: 2018 Volume: 12 Issue: 10 823 - 827 Pages

• Authors:
• Chaitanya Chawla
• Divya Panwar
• Gurneesh Singh Anand
• M. P. S Bhatia

Abstract: This paper presents a deep-learning mechanism for classifying computer generated images and photographic images. The proposed method accounts for a convolutional layer capable of automatically learning correlation between neighbouring pixels. In the current form, Convolutional Neural Network (CNN) will learn features based on an image's content instead of the structural features of the image. The layer is particularly designed to subdue an image's content and robustly learn the sensor pattern noise features (usually inherited from image processing in a camera) as well as the statistical properties of images. The paper was assessed on latest natural and computer generated images, and it was concluded that it performs better than the current state of the art methods.

• Keywords:
• Image forensics
• computer graphics
• classification
• deep learning
• convolutional neural networks.