Your search keyword '"OPTICAL pattern recognition"' showing total 1,453 results

1. Colorimetric Sensor Array for Simultaneous Assay of Catecholamine Neurotransmitters Using Various-Sized Citrate-Capped Gold Nanoparticles.

Author

Mohseni, Naimeh and Bahram, Morteza

Abstract

AbstractDriven by the need to in situ monitoring of the endogenous substances in biological matrices, a simple, rapid and sensitive optical nanoarray system has been designed for determination and visual discrimination of four important catecholamine neurotransmitters: dopamine (DA), epinephrine (EP), norepinephrine (NE) and levodopa (LD). To fabricate this platform, spherical citrate-capped gold nanoparticles (AuNPs) in the size range of 13–42 nm have been employed as sensing elements. For each catecholamine different responses toward the AuNPs was obtained indicating unique aggregation kinetics. When the sensor array exposed to different catecholamines (CAs), both the color and UV–Vis absorbance spectra changed due to the interaction of analytes and AuNPs, creating a unique fingerprint-like pattern for each analyte which can be visually detected by naked eye. To analyze response profiles, we employed unsupervised chemometric algorithms including hierarchical cluster analysis (HCA) and principal component analysis (PCA) and satisfactory class separations were achieved. Furthermore, the sensitive RGB based color difference patterns were generated providing easily monitored visual output. Based on this sensor array, the set of four catecholamine neurotransmitters have been correctly identified and classified in the spiked real urine samples. The target analytes have been well distinguished at low concentrations of 0.3 − 4 μM DA, 0.8 − 10 μM EP, 0.8 − 8 μM NE, and 0.3 − 10 μM LD using the proposed “chemical nose” strategy. We believe that the established optical sensor array can be potentially employed as an efficient discrimination tool for diagnostic and therapeutic applications in the future. [ABSTRACT FROM AUTHOR]

Published

2024

2. Optical pattern recognition image preprocessing based on hybrid cluster intelligent algorithm.

Author

Liu, Manjun

Subjects

*OPTICAL pattern recognition, *PARTICLE swarm optimization, *IMAGE recognition (Computer vision), *ANT algorithms, *ALGORITHMS

Abstract

Traditional preprocessing methods have problems of low stability and poor universality. To solve these problems, this article conducted effective research on parameter tuning of image preprocessing methods based on the Ant Colony Particle Swarm Optimization (ACPSO) algorithm. This article used peak signal-to-noise ratio (PSNR) and structural similarity index measure (SSIM) as fitness functions. The particle dimension is defined as 2, which represents the size of the median filter and the size of the histogram equalization window. After the iteration, the results of ant colony algorithm and particle swarm optimization (PSO) algorithm were compared, and the parameter with the highest fitness function value was selected as the final preprocessing parameter. The image was preprocessed using the determined optimal parameters. The results showed that the average PSNR and SSIM values of the ACPSO preprocessed images were 5.58 and 0.08 higher than those of traditional preprocessing methods, and the subjective visual evaluation score was also higher. The Otsu's binarization method was used for segmentation. The method of feature extraction using Histogram of Orientated Gradients (HOG) and Local Binary Patterns (LBP), as well as the recognition model using Convolutional Neural Networks (CNN) and Support Vector Machines (SVM), was more stable than traditional preprocessing methods. On the other two datasets, the recognition results of ACPSO preprocessed images performed better and showed better universality compared to traditional preprocessing methods. ACPSO algorithm, as a hybrid swarm intelligence algorithm, can effectively play an effective role in optical pattern recognition image preprocessing, solving the problems of low stability and poor universality of traditional preprocessing methods. [ABSTRACT FROM AUTHOR]

Published

2024

3. Machine Learning and Image Interpretation.

Author

Caelli, Terry and Bischof, Walter F.

Subjects

Image processing -- Digital techniques, Machine learning, Optical pattern recognition

Abstract

Summary: In this groundbreaking new volume, computer researchers discuss the development of technologies and specific systems that can interpret data with respect to domain knowledge.

Published

2013

4. 4f‐Less Terahertz Optical Pattern Recognition Enabled by Complex Amplitude Modulating Metasurface Through Laser Direct Writing.

Author

Wang, Zongyuan, Hu, Bin, Liu, Jingyu, Wang, Guocui, Liu, Weiguang, Xiong, Chenjie, Huang, Jianzhou, Liu, Juan, and Zhang, Yan

Subjects

*OPTICAL pattern recognition, *IMAGING systems, *LASERS

Abstract

Optical pattern recognition (OPR) has the advantage of single intensity detection ability for low‐cost terahertz (THz) systems of imaging or security checks. However, conventional 4f‐system‐based OPR is limited by the paraxial approximation and bulky device volumes for THz applications. Here, a full‐diffraction‐based 4f‐less OPR method is proposed using a single complex‐amplitude‐modulating metasurface, which is valid for systems with large Fresnel numbers. Moreover, a laser‐induced graphene technique is applied for processing the device. A 15 mm × 15 mm metasurface can be fabricated by one‐step laser writing in 34 s, indicating the potential of the proposed method in developing THz OPR systems with miniaturization, fast fabrication, and low‐cost. [ABSTRACT FROM AUTHOR]

Published

2023

5. Identifying coal mining subsidence impacts by soil moisture based on optical trapezoid model in Google Earth Engine.

Author

He, Tingting, Chen, Wenqi, Xiao, Wu, Guo, Jiwang, Chen, Hang, and Deng, Xinyu

Subjects

MINE subsidences, COAL mining, SOIL moisture, TRAPEZOIDS, GROUNDWATER, OPTICAL pattern recognition, GEOGRAPHIC boundaries

Abstract

Many coal mining areas overlapped with agricultural land in the world. However, surface subsidence and waterlogging brought on by coal mining inexorably harm the agricultural land. Soil moisture can reflect the variation of mining impact significantly according to the geographic features of the high underground water table, which shows significant spatial gradient variation within the subsidence basin. Previous studies have used site survey and unmanned aerial vehicle (UAV), which are not applicable to large‐scale assessments of the ecological impacts and defining the scale of impacts. Here, we used the Google Earth Engine (GEE) platform and an optical trapezoid model (OPTRAM) to estimate the soil moisture distribution around 50 mining subsidence waterbody samples in eastern China. Based on the spatial variation in soil moisture, the impact boundary of coal mining was determined using buffer analysis and trend fitting. The results showed that: (1) The OPTRAM can well reflect the soil moisture distribution which shows a good correlation between estimated and measured values, with R = 0.83 and RMSE = 0.054. (2) The spatial trend fitting of soil moisture is suitable for evaluating mining impact, and the impact distances are in the range of 96–762 m, 80% of which are located at 128–436 m. We also find that 28% of subsidence waterbody buffer basins were heavily influenced by human activities, and the coal mining impact boundaries cannot be effectively identified. The study provides a new idea to quantify the ecological and agricultural impact boundary of coal mining, which could be applied to other similar regions across the globe. [ABSTRACT FROM AUTHOR]

Published

2023

6. Music DH 2021: A Directory of Digital Scholarship in Music.

Author

Urberg, Michelle

Subjects

DIGITAL music, SCHOLARLY method, DATA modeling, DIRECTORIES, OPTICAL pattern recognition, MUSICAL notation, BALLAD (Literary form)

Abstract

The freestanding CSV file also has the advantage of being easily transportable by end-users who prefer to engage with Music DH as a spreadsheet instead of a website. (hereafter Music DH) (https://rutgersdh.github.io/musicdh/) represents the work of a collaborative project of the Digital Humanities Interest Group of the Music Library Association. The tools built into Minicomp/Wax helped the Music DH team process image data (specifically, a screenshot of each catalogue item) and assign metadata to those images in a standard way. An item-access statement has been manually added outside of the metadata block coming from the CSV to each of the four records with restricted content (in the website html it is denoted as [Access is limited, restricted or paywalled]). [Extracted from the article]

Published

2023

7. An Approach to License Plate Recognition in Real Time Using Multi-stage Computational Intelligence Classifier.

Author

Kekez, Michał

Subjects

*OPTICAL character recognition, *OPTICAL pattern recognition, *IMAGE recognition (Computer vision), *RANDOM forest algorithms, *DECISION trees

Abstract

Automatic car license plate recognition (LPR) is widely used nowadays. It involves plate localization in the image, character segmentation and optical character recognition. In this paper, a set of descriptors of image segments (characters) was proposed as well as a technique of multi-stage classification of letters and digits using cascade of neural network and several parallel Random Forest or classification tree or rule list classifiers. The proposed solution was applied to automated recognition of number plates which are composed of capital Latin letters and Arabic numerals. The paper presents an analysis of the accuracy of the obtained classifiers. The time needed to build the classifier and the time needed to classify characters using it are also presented. [ABSTRACT FROM AUTHOR]

Published

2023

8. YOĞUN BAKIM ÜNİTELERİNDE KAPASİTE DEĞERLENDİRMESİ VE PLANLAMASI: 3. BASAMAK HASTANELER İÇİN SİMÜLASYON MODELLEMESİ.

Author

DURMUŞ, Alkan, ÖZDEMİR, Ali, and GÖKMEN, Necati

Subjects

*INTENSIVE care units, *MEDICAL care wait times, *CAPACITY requirements planning, *RESOURCE allocation, *MEDICAL care, *OPTICAL pattern recognition

Abstract

Health systems are human based systems comprising a high number of stakeholders who interact with each other in complex ways. Due to the stochastic nature of health systems and the complex dynamics and interactions of their inputs, processes and outputs; providers of health services require tools tat allow them to comprehend the said complexity and improve system performance. Intensive care units (ICUs) may fall short in treating patients due to insufficient capacity and patients may be transferred to other hospitals under certain circumstances, and waiting times can get longer. Efficient use and management of a scarce resource such as the ICU is of critical importance for trouble-free operation of a hospital. Capacity planning, in other words, determination of optical bed configuration based on current knowledge of future demand and capacity, is very difficult due to high uncertainty in both bed capacity and demand. The paper at hand proposes a simulation model to allow an easier decision-making process in the planning of bed capacity in ICU. The study focuses on improving the capacity planning of a level III university hospital in Turkey that specializes in education and research. The objective of the study is to determine optimal bed requirement by matching the resources of the ICU with demand. We provide forecasts of ICU capacity by evaluating the simulation models based on patient waiting times and bed quantity. Considered in the context of the vital importance of intensive care units and the uncertainties in their management, it is thought that the use of simulation modeling in the making of capacity decisions can prove useful for decision makers in assessing their resource allocation strategies under different regional and hospital conditions. [ABSTRACT FROM AUTHOR]

Published

2023

9. Using Phase-Sensitive Optical Time Domain Reflectometers to Develop an Alignment-Free End-to-End Multitarget Recognition Model.

Author

Yang, Nachuan, Zhao, Yongjun, Wang, Fuqiang, and Chen, Jinyang

Subjects

PATTERN recognition systems, CONVOLUTIONAL neural networks, REFLECTOMETER, OPTICAL pattern recognition

Abstract

This pattern recognition method can effectively identify vibration signals collected by a phase-sensitive optical time-domain reflectometer (Φ-OTDR) and improve the accuracy of alarms. An alignment-free end-to-end multi-vibration event detection method based on Φ-OTDR is proposed, effectively detecting different vibration events in different frequency bands. The pulse accumulation and pulse cancellers determine the location of vibration events. The local differential detection method demodulates the vibration event time-domain variation signals. After the extraction of the signal time-frequency features by sliding window, the convolution neural network (CNN) further extracts the signal features. It analyzes the temporal relationship of each group of signal features using a bidirectional long short-term memory network (Bi-LSTM). Finally, the connectionist temporal classification (CTC) is used to label the unsegmented sequence data to achieve single detection of multiple vibration targets. Experiments show that using this method to process the collected 8563 data, containing 5 different frequency bands of multi-vibration acoustic sensing signal, the system F1 score is 99.49% with a single detection time of 2.2 ms. The highest frequency response is 1 kHz. It is available to quickly and efficiently identify multiple vibration signals when a single demodulated acoustic sensing signal contains multiple vibration events. [ABSTRACT FROM AUTHOR]

Published

2023

10. A non-destructive analytical study of cultural heritage object from Late Antiquity: gold framework and gemstone inlays.

Author

Hanus, Radek, Sobek, Kamil, Souček, Kamil, Staš, Lubomír, Georgiou, Lucie, and Selucká, Alena

Subjects

*GEMS & precious stones, *COMPUTED tomography, *CULTURAL property, *MINES & mineral resources, *STONE, *OPTICAL pattern recognition

Abstract

Recently found historical jewellery (Czech Republic) was subjected to detailed analyses to determine the gem inlays and the gold framework in which they are embedded. Such find fits into European jewellery archaeological artefacts containing similar stones from around the fifth century CE. The gemstones were analysed with optical microscopy and Raman micro-spectroscopy to determine their mineralogical characteristics and to find out typical structural-chemical differences based on which their provenance can be found. The results of this measurement discovered two main types of minerals from the garnet group, almandine and pyrope, where pyropes have been identified as Bohemian garnets thanks to the typical photoluminescence (PL) of chromium and vanadium impurities. The craftsmanship and processing of the goldsmith work were studied using X-ray computed tomography. Such a technique is an excellent contribution for detecting and visualising the internal parts hidden behind the placement of the stones. For this reason, 3D visualisation was used to describe and better understand all preserved parts. According to this object's very high cultural and historical value, the chosen methods are suitable for non-destructive study while proving to be essential to deepen our knowledge in archaeometric investigations focused on jewellery from Late Antiquity (with possible application to the jewellery from other periods). Based on the findings presented in this study, it is one of the world's oldest documented items using Bohemian garnets in jewellery. These findings underscore the tremendous economic and political importance of Bohemian garnet mineral resources altogether, with a second completely different type of garnet believed to have originated in distant India or Sri Lanka that was used in jewellery across Europe in Late Antiquity. [ABSTRACT FROM AUTHOR]

Published

2023

11. Motion Capture Systems and Their Use in Educational Research: Insights from a Systematic Literature Review.

Author

Reuter, Anna Sophia and Schindler, Maike

Subjects

MOTION capture (Human mechanics), EDUCATION research, LEARNING, RESEARCH questions, SECONDARY education, OPTICAL pattern recognition

Abstract

Motion capture is gaining significance in educational research. Different motion capture systems (MCSs) are used in educational research for different purposes and in different ways, which creates a diversity that is difficult to monitor. The aim of this article is to provide an overview of MCSs and their uses in educational research addressing primary and secondary school education. We conducted a systematic review focusing on the types of MCSs and the concrete systems being used, looking at how they are used, the purposes of their use, the aims and the research questions under investigation, the subjects/topics addressed in the studies, the locations/places of use, the potential benefits of using MCSs perceived by the researchers, and the underlying theories of movement. Based on n = 20 studies focusing on primary and secondary school education identified in our database search, we found that these studies mainly used optical MCSs. Furthermore, we identified three main purposes of their use: to directly support the learning process of students, as analysis tools, or for developing tutoring systems that support students in their learning. This paper gives insights into the use of MCSs in educational research and provides a springboard for further research using MCSs in educational research. [ABSTRACT FROM AUTHOR]

Published

2023

12. Optical cross-correlation analog computing based on dielectric metasurface at mid-infrared wavelengths.

Author

Yang, Xu, Wang, Di, Ren, He, Zhou, Shuai, Wang, Zhile, and Chen, Shouqian

Subjects

*OPTICAL computing, *PATTERN recognition systems, *FOURIER integrals, *SPATIAL filters, *DIELECTRICS, *FRESNEL diffraction, *METAHEURISTIC algorithms, *OPTICAL pattern recognition

Abstract

Compared to inefficient, energy-intensive digital computing, optical analog computing has significant advantages in terms of computational speed and power consumption. Traditional optical analog computing is typically based on Fourier lenses and spatial frequency filters, which are bulky and difficult to integrate. These disadvantages can be overcome by replacing Fourier lenses and spatial frequency filters in traditional optical analog computing via a metasurface. We showcase a real-time compact optical cross-correlation analog computing based on a dielectric metasurface. An extra phase profile is introduced in the metasurface to approximate the Fresnel diffraction integral as the Fourier transform to realize a more compact scheme. The optical cross-correlation analog computing is derived by directly modulating the impinging optical field. A reference circular pattern of a circular target is highlighted recognized and identified by the operation. The recognition accuracy was analyzed by comparing the recognition peaks with the shifted center of the circle, showing that the operation is affected by the side flap of the other circle pattern in the background. Optical analog computing with a compact and powerful kernel may find potential solutions for bio-detection, pattern recognition, information retrieval, and electron tomography. • Analog computing can increase computational speed and decrease power consumption. • Metasurface is an alternative to space optics components to reduce size or volume. • A scheme for ultracompact optical cross-correlation analog computing is proposed. • The recognition of a circular target is achieved in theory and simulation. [ABSTRACT FROM AUTHOR]

Published

2024

13. Weak surface defect detection for production-line plastic bottles with multi-view imaging system and LFF YOLO.

Author

Wu, Heng, Zeng, Lingxiang, Chen, Meiyun, Wang, Tao, He, Chunhua, Xiao, Huapan, and Luo, Shaojuan

Subjects

*OPTICAL pattern recognition, *GLASS bottles, *IMAGING systems, *PLASTIC bottles, *SURFACE defects

Abstract

• A weak surface defect detection method is proposed for production-line plastic bottles. • A multi-view imaging system is designed to capture surface images of plastic bottles. • A lightweight feature fusion YOLO network is developed. • The proposed method has wide potential applications. • The proposed method can accurately and quickly detect defects. The automatic optical detection (AOD) technique has been extensively applied in industrial manufacturing fields. However, in the manufacturing field of plastic bottles (PBs), the current AOD approaches often encounter the issues of 360-degree image acquisition, detection accuracy, and detection speed limitation due to the restriction of the imaging system, detection algorithm, and computational power. To address these issues, we propose a surface defect detection (SDD) method to identify weak and small defects in the production-line PBs. We design a multi-view imaging system containing four imaging units and four relative illumination devices to acquire the surface images of production-line PBs with a 360-degree angle of view. We develop a lightweight feature fusion (LFF) YOLO network to detect weak and small defects in the PB images. An experimental system is built to validate the proposed method. The practical experiment results illustrate that the proposed method realizes the detection of weak and small defects for the PBs with high accuracy and speed and performs better than the comparison state-of-the-art methods. The proposed method has wide applications in the three-dimensional object SDD, such as glass bottles, automobile parts, and so on. [ABSTRACT FROM AUTHOR]

Published

2024

14. Retraction Note: Optical pattern recognition image preprocessing based on hybrid cluster intelligent algorithm.

Author

Liu, Manjun

Subjects

*OPTICAL pattern recognition, *QUANTUM electronics, *IMAGE recognition (Computer vision), *PUBLISHING, *ALGORITHMS

Abstract

The article titled "Retraction Note: Optical pattern recognition image preprocessing based on hybrid cluster intelligent algorithm" has been retracted by the publisher due to concerns about the peer-review process, inappropriate references, and the article's alignment with the journal's scope. The publisher, in consultation with the Editors-in-Chief, no longer has confidence in the results and conclusions of the article. It is important to note that the author disagrees with this retraction. Springer Nature, the publisher, remains neutral regarding jurisdictional claims and institutional affiliations. [Extracted from the article]

Published

2024

15. 基于脉冲喷射技术的硫系玻璃光纤制备方法探索.

Author

郭永昶, 李　粲, 冯少尉, 陶海征, 王　会, and 李建强

Subjects

OPTICAL glass, CHALCOGENIDE glass, MOLTEN glass, GLASS fibers, GLASS-ceramics, INFRARED imaging, CHEMICAL senses, OPTICAL pattern recognition

Abstract

Copyright of Bulletin of the Chinese Ceramic Society is the property of Bulletin of the Chinese Ceramic Society Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

16. Importance of optical homogeneity for high-quality transparent ceramics.

Author

Aung, Yan Lin and Ikesue, Akio

Subjects

*TRANSPARENT ceramics, *CERAMICS, *HOMOGENEITY, *REFRACTIVE index, *OPTICAL properties, *LASER beams, *OPTICAL pattern recognition

Abstract

Two types of transparent Y 2 O 3 ceramics without including large scattering sources such as residual pores, one with very high optical homogeneity (type A) and another one with slightly insufficient optical homogeneity (type B), are purposely prepared, and their optical properties are investigated and compared qualitatively and quantitatively. Type A ceramic exhibits transmittance characteristics with very low internal loss in the visible to infrared wavelength region, while type B ceramic is inferior in various optical performances especially in the short (visible) wavelength region. In type B ceramic, birefringence occurs due to optical inhomogeneity in the visible region, resulting in a decrease in the extinction ratio. Non-uniform refractive index distribution is also observed in the Schlieren image of type B ceramic, hence the laser beam quality through that material is degraded. This study proved the importance of optical homogeneity of transparent ceramics and clarified the problems in actual applications. [ABSTRACT FROM AUTHOR]

Published

2022

17. Synaptic plasticity in self-powered artificial striate cortex for binocular orientation selectivity.

Author

Ren, Yanyun, Bu, Xiaobo, Wang, Ming, Gong, Yue, Wang, Junjie, Yang, Yuyang, Li, Guijun, Zhang, Meng, Zhou, Ye, and Han, Su-Ting

Subjects

NEUROPLASTICITY, VISUAL pathways, COMPUTER vision, VISUAL cortex, PATTERN recognition systems, SOLAR cells, BINOCULAR vision, OPTICAL pattern recognition

Abstract

Get in-depth understanding of each part of visual pathway yields insights to conquer the challenges that classic computer vision is facing. Here, we first report the bioinspired striate cortex with binocular and orientation selective receptive field based on the crossbar array of self-powered memristors which is solution-processed monolithic all-perovskite system with each cross-point containing one CsFAPbI3 solar cell directly stacking on the CsPbBr2I memristor. The plasticity of self-powered memristor can be modulated by optical stimuli following triplet-STDP rules. Furthermore, plasticity of 3 × 3 flexible crossbar array of self-powered memristors has been successfully modulated based on generalized BCM learning rule for optical-encoded pattern recognition. Finally, we implemented artificial striate cortex with binocularity and orientation selectivity based on two simulated 9 × 9 self-powered memristors networks. The emulation of striate cortex with binocular and orientation selectivity will facilitate the brisk edge and corner detection for machine vision in the future applications. Designing efficient bio-inspired vision systems remains a challenge. Here, the authors report a bio-inspired striate visual cortex with binocular and orientation selective receptive field based on self-powered memristor to enable machine vision with brisk edge and corner detection in the future applications. [ABSTRACT FROM AUTHOR]

Published

2022

18. Deployment And Layout Of Deep Learning-Based Smart Eyewear Applications Platform For Vision Disabled Individuals.

Author

Kaushik, Himanshu, Bajwa, Manpreet, Sharma, Anupam Kumar, Vats, Prashant, Varshney, Shipra, Singh, Sandeep, and Biswas, Siddhartha Sankar

Subjects

EYEGLASSES, COST effectiveness, MICROPROCESSORS, COMPUTER vision, OPTICAL character recognition, OPTICAL pattern recognition

Abstract

This study suggests a mechanism to help people with visual impairments navigate and move about. Nowadays, multiple services are possible at the same moment. Some of these will be discussed later in this essay. Nevertheless, no dependable and cost-effective alternative has yet been presented to replace the existing technology used by the visual impairments in their everyday tasks. This report begins with examining the problem, followed by an examination of the original problem resolution. Following that, it looked at some of the newest advancements and research in the field of helpful technologies. Finally, it suggests developing and implementing a system to assist the physically handicapped. A Raspberry microprocessor, cameras, batteries, eyeglasses, headphone, backup charger, and connections are all included in the suggested gadget. Use the camera to capture subjects. The phone's RCNN technique and deep learning modules will be used to finish computer vision and analysis. The ultimate output, on the other hand, is sent from the headgear to the vision impairer's hearing. The study offers methods as well as answers to the aforementioned issues. The research work may be applied to real-world scenarios and is suitable for people with visual impairments. For picture data processing, the gadget presented in this project employs an area accumulating neural net and a Microcontrollers. The process utilizes the Tesseract module from the Python language to do OCR (optical character recognition) and offers an output to the user. Later in this section, the prescribed tactics and effects are outlined. [ABSTRACT FROM AUTHOR]

Published

2022

19. Image Pattern Recognition : Fundamentals and Applications

Author

L Koteswara Rao, Md. Zia Ur Rahman, P Rohini, L Koteswara Rao, Md. Zia Ur Rahman, and P Rohini

Subjects

Optical pattern recognition

Abstract

This book describes various types of image patterns for image retrieval. All these patterns are texture dependent. Few image patterns such as Improved directional local extrema patterns, Local Quantized Extrema Patterns, Local Color Oppugnant Quantized Extrema Patterns and Local Mesh quantized extrema patterns are presented. Inter-relationships among the pixels of an image are used for feature extraction. In contrast to the existing patterns these patterns focus on local neighborhood of pixels to creates the feature vector. Evaluation metrics such as precision and recall are calculated after testing with standard databases i.e., Corel-1k, Corel-5k and MIT VisTex database. This book serves as a practical guide for students and researchers.-The text introduces two models of Directional local extrema patterns viz., Integration of color and directional local extrema patterns Integration of Gabor features and directional local extrema patterns. -Provides a framework to extract the features using quantization method-Discusses the local quantized extrema collected from two oppugnant color planes-Illustrates the mesh structure with the pixels at alternate positions.

Published

2022

20. EXPERIMENT ON PRODUCING DISPARITY MAPS FROM AERIAL STEREO IMAGES USING UNSUPERVISED AND SUPERVISED METHODS.

Author

Zhu, L., Hattula, E., Raninen, J., and Hyyppä, J.

Subjects

STEREO vision (Computer science), STEREO image, IMAGE registration, ARTIFICIAL neural networks, AERIAL surveys, OPEN source software, OPTICAL pattern recognition

Published

2022

21. Optical Computing: Status and Perspectives.

Author

Kazanskiy, Nikolay L., Butt, Muhammad A., and Khonina, Svetlana N.

Subjects

*OPTICAL computing, *OPTICAL pattern recognition, *SPATIAL light modulators, *OPTICAL switches, *IMAGE processing, *ELECTRONIC modulators

Abstract

For many years, optics has been employed in computing, although the major focus has been and remains to be on connecting parts of computers, for communications, or more fundamentally in systems that have some optical function or element (optical pattern recognition, etc.). Optical digital computers are still evolving; however, a variety of components that can eventually lead to true optical computers, such as optical logic gates, optical switches, neural networks, and spatial light modulators have previously been developed and are discussed in this paper. High-performance off-the-shelf computers can accurately simulate and construct more complicated photonic devices and systems. These advancements have developed under unusual circumstances: photonics is an emerging tool for the next generation of computing hardware, while recent advances in digital computers have empowered the design, modeling, and creation of a new class of photonic devices and systems with unparalleled challenges. Thus, the review of the status and perspectives shows that optical technology offers incredible developments in computational efficiency; however, only separately implemented optical operations are known so far, and the launch of the world's first commercial optical processing system was only recently announced. Most likely, the optical computer has not been put into mass production because there are still no good solutions for optical transistors, optical memory, and much more that acceptance to break the huge inertia of many proven technologies in electronics. [ABSTRACT FROM AUTHOR]

Published

2022

22. Does the Management of Visual and Audible Motion Information during an Immersive Virtual Reality Timed Up and Go Test Impact Locomotor Performance in the Elderly?

Author

Muhla, Frédéric, Duclos, Karine, Clanché, Fabien, Meyer, Philippe, Maïaux, Séverine, Colnat-Coulbois, Sophie, and Gauchard, Gérome C.

Subjects

*VIRTUAL reality, *VISUAL perception, *LOCOMOTOR control, *OLDER people, *OPTICAL flow, *MOTION capture (Human mechanics), *PERFORMANCES, *OPTICAL pattern recognition

Abstract

Background/Aims: Falling among the elderly is a major public health issue, especially with the advancing age of the baby boomers. The fall risk assessment tests for many lack a context that would bring them closer to everyday life. Thus, immersive virtual reality, which makes it possible to simulate everyday situations, could make it possible to strengthen the quality of the assessment of the risk of falls. However, it is necessary to understand how the use of a virtual reality device influences the motor control of elderly participants. If vestibular physiotherapists use VR to virtualize their tools, what impact would a visual simulation of movement have on motor control in a locomotor task, if this simulation were plausible? Methods: Sixty-two elders (70.8 ± 6.7 years old) completed a Timed Up and Go task under 3 conditions: real, virtual reality, and virtual reality with visual and sound movement information. The virtual reality task takes place in a train either stationary at a station or in uniform linear motion. The time and number of steps were recorded using video, and comparisons between conditions were made using Friedman's test. Results: The results show a significant increase in the time and number of steps in "virtual reality" condition compared to the "real" condition. They do not show significant differences between the 2 virtual conditions. Conclusion: The use of a running virtual train to provide plausible movement is particularly distinguished from vestibular physiotherapy applications with first a fixed visual support partially obscuring the optical flow. This visual aid coupled with the attention dedicated to the task inhibits the effect of the moving environment on locomotion. However, the visual optical flow will potentially have an effect in people with fear of falling. Virtual reality shows great potential for the simulation of realistic environments for the assessment of the risk of falls and opens up avenues for the development of tests. [ABSTRACT FROM AUTHOR]

Published

2022

23. Unravelling the construction of silver filigree spheres from a seventeenth century shipwreck using non-invasive imaging.

Author

van der Stok-Nienhuis, Janneke, Beentjes, Tonny, Ngan-Tillard, Dominique, van Eijck, Lambert, Joosten, Ineke, and van Bommel, Maarten R.

Subjects

*SEVENTEENTH century, *MICROSCOPY, *SPHERES, *SHIPWRECKS, *UNDERWATER archaeology, *MANUFACTURING processes, *OPTICAL pattern recognition

Abstract

The structure of five rare filigree spheres from a seventeenth century shipwreck was examined in order to unravel their condition, manufacturing process and function. This study focuses on the application of non-invasive imaging techniques: optical microscopy, X-radiography, X-ray micro-computed tomography and neutron computed tomography. A valuation of different aspects of the applied techniques was made, aiding stakeholders in decision-making on research and conservation. The combination of theory and scientific information was used to obtain an improved understanding of the manufacturing process and function of the filigree spheres. [ABSTRACT FROM AUTHOR]

Published

2022

24. Design and optimization of an aerobics movement recognition system based on high-dimensional biotechnological data using neural networks.

Author

Yihan, Ma

Subjects

*IMAGE recognition (Computer vision), *OPTICAL pattern recognition, *IMAGE registration, *OBJECT recognition (Computer vision), *DEEP learning

Abstract

This study presents the design and optimization of an aerobics movement recognition system utilizing high-dimensional biotechnological data. Deep learning techniques are employed to achieve accurate classification and recognition of movement actions. Biosensing technology and wearable devices are used to collect real-time, multidimensional physiological signal data from key anatomical regions of athletes. The system is constructed using convolutional neural networks (CNNs) and Long Short-Term Memory. Model performance is optimized through parameter selection and strategies such as Xavier initialization, the cross-entropy loss function, and the Adam optimizer. The results indicate that Model C achieves an accuracy of 0.987, significantly outperforming the standalone CNNs (accuracy 0.975) and the recurrent neural network models (accuracy 0.965). Furthermore, it demonstrates notable efficiency in practical applications, with considerably reduced execution times of 10 s for data processing, 25 s for feature extraction, and 20 s for classification. This aerobics recognition system excels in performance and efficiency, supporting precise movement classification. [ABSTRACT FROM AUTHOR]

Published

2024

25. Machine learning-assisted image-based optical devices for health monitoring and food safety.

Author

Mousavizadegan, Maryam, Shalileh, Farzaneh, Mostajabodavati, Saba, Mohammadi, Javad, and Hosseini, Morteza

Subjects

*OPTICAL devices, *PATTERN recognition systems, *ARTIFICIAL intelligence, *FOOD safety, *IMAGE analysis, *OPTICAL sensors, *OPTICAL pattern recognition

Abstract

The advent of artificial intelligence has highly impacted the process of image processing and pattern recognition, hence influencing biomedical researchers to implement machine learning (ML)-assisted image-based analysis in the development of optical sensors. Optical detection devices provide the optimal platforms for image-based analysis as they exhibit signals that can be captured by cameras. Relying on ML for pattern recognition from the captured images can highly enhance the detection accuracy and pave the way toward developing point-of-care testing. In this review, we have aimed to present an overview based on image processing and how ML can be implemented in pattern recognition from images. Recent publications on the development of optical detection devices relying on ML-assisted image analysis in various fields of biomedical analysis have then been reviewed. • The implementation of image processing in optical sensing approaches. • The methods and advantages for machine learning-based image analysis. • The benefits of machine learning in image-based optical sensors. • Recent studies in biomedical sensing via machine learning-assisted image analysis. [ABSTRACT FROM AUTHOR]

Published

2024

26. Porphyrin based-optical fiber sensor for pattern recognition of chlorides and nitrates.

Author

Yadav, Mukti, Kundu, Kaustubh, Kaler, R.S., and Kundu, T.

Subjects

*PATTERN recognition systems, *CHLORIDE ions, *OPTICAL fiber detectors, *MACHINE learning, *PORPHYRINS, *NITRATES, *OPTICAL pattern recognition, *PHOTONIC crystal fibers

Abstract

• Novel Photonic Device Development : The paper introduces a groundbreaking approach to create a photonic device for chemical applications, utilizing an evanescent wave absorption technique-based optical fiber probe. • Free-base Porphyrin Monolayering: The sensing probe incorporates a Tetraamine porphyrin (TAPP) monolayer, exploiting the unique optical properties of TAPP to enhance chemical sensing capabilities through the optical fiber. • Distinct Optical Patterns: The study focuses on monitoring interactions between TAPP and nitrate and chloride ions in the solution phase, emphasizing on absorption spectra variations of porphyrin molecules significantly in Soret and Q-bands. Distinct optical patterns emerge from the interaction, and the paper thoroughly analyses ion-dependent shifts in both the bands across eight samples of nitrates and chlorides. • Spectral Pattern Recognition: It employs unsupervised learning algorithms for spectral pattern recognition, allowing the discernment of ion groups based on their unique optical signatures. The use of PCA and Dtrend techniques helps to extract significant data to cluster different compounds. The sensor probe however exhibits remarkable sensitivity to nitrate and chloride ions, showcasing an impressive rapid response time of 2-3 s. • Practical Implications: The findings highlight the potential practical applications of the developed photonic device, emphasizing its utility in environmental monitoring and chemical analysis. The study positions porphyrin-based optical fiber sensor as a valuable technology, demonstrating their efficacy in detecting and analysing chemical compounds, particularly nitrate and chloride ions. The paper introduces a novel approach to develop a photonic device for chemical applications using an evanescent wave absorption technique-based optical fiber probe layered with a Tetraamine porphyrin (TAPP) monolayer exploiting the optical properties of TAPP. The interactions between the TAPP and nitrate and chloride ions in the solution phase were monitored and the changes in the absorption spectra of TAPP molecules were recorded. Distinct optical patterns emerge, and ion-dependent shifts in the Soret and Q-bands are analyzed for eight samples of nitrates and chlorides. Principal Component Analysis (PCA) is employed to discern ion groups based on the spectral pattern recognition. These fiber probes exhibit sensitivity to nitrate and chloride ions, with enhanced selectivity, robustness, and a rapid response time of 2–3 seconds. The study demonstrates the emergence of porphyrin-based optical fiber sensors as a useful sensor technology in environmental monitoring. [ABSTRACT FROM AUTHOR]

Published

2024

27. Automatic Target Recognition, Fourth Edition

Author

Schachter, Bruce J. and Schachter, Bruce J.

Subjects

Algorithms, Image processing, Radar targets, Optical pattern recognition, Computer algorithms

Abstract

From an engineer who has been designing Automatic Target Recognition (ATR) systems for 40 years comes this step-by-step guide to producing state-of-the-art ATR systems. The full spectrum of ATR designs is covered, from systems that just suggest targets to the warfighter to ATRs that could serve as the “brains” of lethal autonomous robots. Unfortunately, when it comes to ATR, some practitioners claim that their off-the-shelf, canned algorithms magically leap from academic research to deployment with scant domain knowledge or system engineering. Deep learning is marketed more than deep understanding, deep explainability, or deep fusion of on-platform resources. Inexperienced practitioners might twist a few algorithmic knobs and test on data of uncertain virtue until performance seems superb. Unfortunately, with the enemy and ever-changing environment conspiring to defeat detection and recognition, naively designed ATRs can fail in unexpected and spectacular ways. Trustworthy ATRs need to fuse multiple data and metadata sources, continuously learn from and adapt to their environment, interact with humans in natural language, and deal with in-library and out-of-library targets and confuser objects. This fourth edition, with a new chapter on autonomous lethal weapons and ATR, provides a blueprint for smarter, more autonomous, more sophisticated ATR designs.

Published

2020

28. Image Recognition: Progress, Trends and Challenges

Author

Charles Z. Liu and Charles Z. Liu

Subjects

Image processing, Computer vision, Optical pattern recognition, Context-aware computing, Human-computer interaction

Abstract

This book focuses on research trends in image processing and recognition and corresponding developments. Among them, the book focuses on recent research, especially in the field of advanced human-computer interaction and intelligent computing. Given the existing interaction and recognition of the station, some novel topics are proposed, including how to establish a cognitive model in human-computer interaction and how to express and transfer human knowledge into human-machine image recognition. In an interactive implementation, how to implement user experience through image recognition during machine interaction. The main contents of this book are arranged as follows. Chapter 1 introduces the research background, research questions, goals, research questions and overviews of this book. Chapter 2 focuses on image calculation methods based on principal component analysis (PCA) and related extensions. Chapter 3 presents an image processing scheme that takes into account the user experience and the optimal balance between QoE and QoS management. Chapter 4 focuses on the performance analysis of methods for classifying image textures based on local binary patterns. Chapter 5 introduces the generation of the anti-network (GAN) and its methods. Chapter 6 mainly discusses the recognition of the interest target as the visual consciousness of the image computing system and proposes a fuzzy target-based interest target differentiation system, which is applied to the extinction enhancement as a display. Chapter 7 focuses on the implementation and application of PCA image processing and its application in computer vision in the fields of image compression, visual tracking, image recognition, and super-resolution image reconstruction. Chapter 8 introduces various applications of feature extraction and classification techniques in seizures. Chapter 9 introduces some typical image processing based on GAN, involving multiple fields. Chapter 10 introduces an agent-based collaborative information processing framework with stereo vision applications. Chapter 11 introduces the MR application system as a synthesis of the methods and algorithms in each of the above chapters and discusses system design and implementation in terms of functions, modules, and workflows. Chapter 12 evaluates the book, draws conclusions, and proposes advances in image recognition and its advances in image recognition, limitations, and future work, and applies them to intelligent HCI in system design. Objects, human knowledge and user experience, QoE-QoS management, system management, and confidentiality and security.

Published

2020

29. Biometrics Authentication Methods

Author

Gacovski, Zoran and Gacovski, Zoran

Subjects

Artificial intelligence, Computer vision, Biometric identification, Optical pattern recognition

Abstract

Biometrics Authentication Methods deals with the methods and approaches of biometrics and the fundamental principles involved in the hand shape biometrics. It consists of modern trends involved in the techniques related to biometrics and their evaluation. This book also discusses about strategies for exploiting independent cloud implementations of biometric experts in multibiometric scenarios, performance evaluation of automatic speaker recognition techniques for forensic applications, an AFIS candidate list centric fingerprint likelihood ratio model based on morphometric and spatial analyses (MSA), a new scheme for the polynomial based biometric cryptosystems and secure telemedicine: biometrics for remote and continuous patient verification.

Published

2020

30. SoK: A Modularized Approach to Study the Security of Automatic Speech Recognition Systems.

Author

YUXUAN CHEN, JIANGSHAN ZHANG, XUEJING YUAN, SHENGZHI ZHANG, KAI CHEN, XIAOFENG WANG, and SHANQING GUO

Subjects

OPTICAL pattern recognition, AUTOMATIC speech recognition, HUMAN-machine relationship, KNOWLEDGE transfer, IMAGE recognition (Computer vision)

Abstract

With the wide use of Automatic Speech Recognition (ASR) in applications such as human machine interaction, simultaneous interpretation, audio transcription, and so on, its security protection becomes increasingly important. Although recent studies have brought to light the weaknesses of popular ASR systems that enable out-of-band signal attack, adversarial attack, and so on, and further proposed various remedies (signal smoothing, adversarial training, etc.), a systematic understanding of ASR security (both attacks and defenses) is still missing, especially on how realistic such threats are and how general existing protection could be. In this article, we present our systematization of knowledge for ASR security and provide a comprehensive taxonomy for existing work based on a modularized workflow. More importantly, we align the research in this domain with that on security in Image Recognition System (IRS), which has been extensively studied, using the domain knowledge in the latter to help understand where we stand in the former. Generally, both IRS and ASR are perceptual systems. Their similarities allow us to systematically study existing literature in ASR security based on the spectrum of attacks and defense solutions proposed for IRS, and pinpoint the directions of more advanced attacks and the directions potentially leading to more effective protection in ASR. In contrast, their differences, especially the complexity of ASR compared with IRS, help us learn unique challenges and opportunities in ASR security. Particularly, our experimental study shows that transfer attacks across ASR models are feasible, even in the absence of knowledge about models (even their types) and training data. [ABSTRACT FROM AUTHOR]

Published

2022

31. Graphene–oxide interface for optoelectronic synapse application.

Author

Martinez-Martinez, Ricardo, Islam, Molla Manjurul, Krishnaprasad, Adithi, and Roy, Tania

Subjects

*VISIBLE spectra, *SYNAPSES, *OPTICAL pattern recognition, *PATTERN recognition systems, *PHOTOTRANSISTORS

Abstract

Optoelectronic synapses combine the functionalities of a non-volatile memory and photodetection in the same device, paving the path for the realization of artificial retina systems which can capture, pre-process, and identify images on the same platform. Graphene/Ta2O5/graphene phototransistor exhibits synapse characteristics when visible electromagnetic radiation of wavelength 405 nm illuminates the device. The photocurrent is retained after light withdrawal when positive gate voltage is applied to the device. The device exhibits distinct conductance states, modulated by different parameters of incident light, such as pulse width and number of pulses. The conductance state can be retained for 104 s, indicating long term potentiation (LTP), similar to biological synapses. By using optical and electrical pulses, the device shows optical potentiation and electrical LTD repeatably, implying their applicability in neural networks for pattern recognition. [ABSTRACT FROM AUTHOR]

Published

2022

32. Progressively real-time video salient object detection via cascaded fully convolutional networks with motion attention.

Author

Zheng, Qingping, Li, Ying, Zheng, Ling, and Shen, Qiang

Subjects

*OBJECT recognition (Computer vision), *MOTION, *VIDEOS, *OPTICAL pattern recognition, *MACHINE learning, *PATTERN recognition systems, *OPTICAL flow

Abstract

Semantics and motion are two cues of essence for the success in video salient object detection. Most existing deep-learning based approaches extract semantic features by the use of only one fully convolutional network with simple stacked encoders. They simulate motion patterns of video objects with two consecutive frames being simultaneously fed into a convolutional LSTM network or a weights-sharing fully convolutional network. However, such approaches have the shortcomings of producing a coarse predicted saliency map or requiring significant computational overheads. In this paper, we present a novel approach with cascaded fully convolutional networks involving motion attention (abbreviated as CFCN-MA), to achieve real-time saliency detection in videos. Our key idea is to construct twofold fully convolutional networks in order to gain a saliency map from coarse to fine. We devise an optical flow-based motion attention mechanism to improve the prediction accuracy of the initial fully convolutional networks, using the popular FlowNet2-SD model that is efficient and effective for motion pattern recognition of distinctive objects in videos. This method can obtain a fine saliency map with a refined region of interest. Moreover, we propose a means for calculating attention-guided intersection-over-union loss (shortnamed as AIoU) to supervise the CFCN-MA model in learning a saliency map with both clear edge and complete structure. Our approach is evaluated on three popular benchmark datasets, namely DAVIS, ViSal and FBMS. Experimental results demonstrate that our method outperforms many state-of-the-art techniques while meeting the real-time demand at 27 fps. [ABSTRACT FROM AUTHOR]

Published

2022

33. Application of computer‐generated images to train pattern recognition used in semiquantitative immunohistochemistry scoring.

Author

Kristiansen, Glen and Schmid, Matthias

Subjects

*PATTERN recognition systems, *IMMUNOHISTOCHEMISTRY, *TONSILS, *OPTICAL pattern recognition, *KI-67 antigen

Abstract

This study aimed to clarify whether the pattern recognition involved in scoring proliferation fractions can be trained by abstract computerized images of virtual tissues. Twenty computer‐generated images with randomly distributed blue or red dots were scored by 12 probands (all co‐workers or collaborators of the Institute of Pathology, University of Bonn). Afterward, the probands underwent a training phase during which they received an immediate feedback on the actual rate of positivity after each image. Finally, the initial testing series was rescored. In a second round with 15 different probands, 20 Ki‐67 immunohistochemistry images of tonsil tissue were scored, followed by the same training phase with computer‐generated images, before the immunohistochemistry slides were scored again. Paired t‐tests were used to compare the differences in mean rates pre‐ and post‐training. Concerning computerized images, untrained probands scored the percentages of positive dots with a mean deviation from the true rates of 8.2%. Following training, the same testing series was scored significantly better with a mean deviation of 4.9% (mean improvement 3.3%, p < 0.001). Scoring real immunohistochemistry slides, the training with computerized images also improved correct estimations, albeit to a lesser degree (mean improvement 1%, p = 0.03). Abstract computerized images of virtual tissues may be a useful tool to train and improve the accuracy of pattern recognition involved in semiquantitative scoring of immunohistochemistry slides. As a side results, this study highlights the value of computer‐generated images to verify the performance of image‐analysis software. [ABSTRACT FROM AUTHOR]

Published

2022

34. Neural Networks and Statistical Learning

Author

Ke-Lin Du, M. N. S. Swamy, Ke-Lin Du, and M. N. S. Swamy

Subjects

Engineering, Data mining, Optical pattern recognition, Pattern perception, Computational intelligence, Neural networks (Computer science)

Abstract

This book provides a broad yet detailed introduction to neural networks and machine learning in a statistical framework. A single, comprehensive resource for study and further research, it explores the major popular neural network models and statistical learning approaches with examples and exercises and allows readers to gain a practical working understanding of the content. This updated new edition presents recently published results and includes six new chapters that correspond to the recent advances in computational learning theory, sparse coding, deep learning, big data and cloud computing.Each chapter features state-of-the-art descriptions and significant research findings. The topics covered include:• multilayer perceptron;• the Hopfield network;• associative memory models;• clustering models and algorithms;• t he radial basis function network;• recurrent neural networks;• nonnegative matrix factorization;• independent component analysis;•probabilistic and Bayesian networks; and• fuzzy sets and logic.Focusing on the prominent accomplishments and their practical aspects, this book provides academic and technical staff, as well as graduate students and researchers with a solid foundation and comprehensive reference on the fields of neural networks, pattern recognition, signal processing, and machine learning.

Published

2019

35. Feature Dimension Reduction for Content-Based Image Identification

Author

Rik Das, Sourav De, Siddhartha Bhattacharyya, Rik Das, Sourav De, and Siddhartha Bhattacharyya

Subjects

Image analysis--Data processing, Optical pattern recognition, Computer vision, Data reduction

Abstract

Image data has portrayed immense potential as a foundation of information for numerous applications. Recent trends in multimedia computing have witnessed a rapid growth in digital image collections, resulting in a need for increased image data management. Feature Dimension Reduction for Content-Based Image Identification is a pivotal reference source that explores the contemporary trends and techniques of content-based image recognition. Including research covering topics such as feature extraction, fusion techniques, and image segmentation, this book explores different theories to facilitate timely identification of image data and managing, archiving, maintaining, and extracting information. This book is ideally designed for engineers, IT specialists, researchers, academicians, and graduate-level students seeking interdisciplinary research on image processing and analysis.

Published

2018

36. Automatic Target Recognition, Third Edition

Author

Schachter, Bruce J. and Schachter, Bruce J.

Subjects

Algorithms, Image processing, Radar targets, Optical pattern recognition, Computer algorithms

Abstract

This third edition of Automatic Target Recognition provides a roadmap for breakthrough ATR designs―with increased intelligence, performance, and autonomy. Clear distinctions are made between military problems and comparable commercial deep-learning problems. These considerations need to be understood by ATR engineers working in the defense industry as well as by their government customers. A reference design is provided for a next-generation ATR that can continuously learn from and adapt to its environment. The convergence of diverse forms of data on a single platform supports new capabilities and improved performance. This third edition broadens the notion of ATR to multisensor fusion. Radical continuous-learning ATR architectures, better integration of data sources, well-packaged sensors, and low-power teraflop chips will enable transformative military designs.

Published

2018

37. Advanced Biometrics

Author

David Zhang, Guangming Lu, Lei Zhang, David Zhang, Guangming Lu, and Lei Zhang

Subjects

Biometric identification, Optical pattern recognition

Abstract

This book describes a range of new biometric technologies, such as high-resolution fingerprint, finger-knuckle-print, multi-spectral backhand, 3D fingerprint, tongueprint, 3D ear, and multi-spectral iris technologies. Further, it introduces readers to efficient feature extraction, matching and fusion algorithms, in addition to developing potential systems of its own. These advanced biometric technologies and methods are divided as follows: 1. High-Resolution Fingerprint Recognition; 2. Finger-Knuckle-Print Verification; 3. Other Hand-Based Biometrics; and 4. New Head-Based Biometrics.Traditional biometric technologies, such as fingerprint, face, iris, and palmprint, have been extensively studied and addressed in many research books. However, all of these technologies have their own advantages and disadvantages, and there is no single type of biometric technology that can be used for all applications. Many new biometric technologies have been developed in recent years, especially in response to new applications. The contributions gathered here focus on how to develop a new biometric technology based on the requirements of essential applications, and how to design efficient algorithms that yield better performance.

Published

2017

38. Pro Processing for Images and Computer Vision with OpenCV : Solutions for Media Artists and Creative Coders

Author

Bryan WC Chung and Bryan WC Chung

Subjects

Video games--Programming, Optical pattern recognition, Computer graphics, Computer vision

Abstract

Apply the Processing language to tasks involved in computer vision--tasks such as edge and corner detection, recognition of motion between frames in a video, recognition of objects, matching of feature points and shapes in different frames for tracking purposes, and more. You will manipulate images through creative effects, geometric transformation, blending of multiple images, and so forth. Examples are provided.Pro Processing for Images and Computer Vision with OpenCV is a step-by-step training tool that guides you through a series of worked examples in linear order. Each chapter begins with a basic demonstration, including the code to recreate it on your own system. Then comes a creative challenge by which to engage and develop mastery of the chapter's topic. The book also includes hints and tips relating to visual arts, interaction design, and industrial best practices.This book is intended for any developer ofartistic and otherwise visual applications, such as in augmented reality and digital effects, with a need to manipulate images, and to recognize and manipulate objects within those images. The book is specifically targeted at those making use of the Processing language that is common in artistic fields, and to Java programmers because of Processing's easy integration into the Java programming environment. What You'll LearnMake use of OpenCV, the open source library for computer vision in the Processing environmentCapture live video streams and examine them frame-by-frame for objects in motionRecognize shapes and objects through techniques of detecting lines, edges, corners, and moreTransform images by scaling, translating, rotating, and additionally through various distortion effectsApply techniques such as background subtraction to isolate motion of objects in live video streamsDetect and track human faces and other objects by matching feature points in different images or video framesWho This Book Is ForMedia artists, designers, and creative coders

Published

2017

39. Automatic Target Recognition, Second Edition

Author

Schachter, Bruce J. and Schachter, Bruce J.

Subjects

Image processing, Algorithms, Radar targets, Optical pattern recognition

Abstract

The second edition of this book has been replaced by the third edition. See TT118. This second edition of Automatic Target Recognition provides an inside view of the automatic target recognition (ATR) field from the perspective of an engineer working in the field for 40 years. The algorithm descriptions and testing procedures covered in the book are appropriate for addressing military problems. The book also addresses unique aspects and considerations in the design, testing, and fielding of ATR systems. These considerations need to be understood by ATR engineers working in the defense industry as well as by their government customers. The final chapter discusses the future of ATR and provides a type of Turing test for determining if an ATR system is truly smart (neuromorphic or brain-like). New to this edition is a reference design for a next-generation ATR. Coupling a Controller C to a recurrent ATR Model M forms a complete system that is more powerful in many ways than a standard ATR. This next-generation ATR can learn a never-ending sequence of tasks, adapt to unknown environments, and realize abstract planning and reasoning. It is suitable for implementation on two chips: a single, custom, low-power chip (<1 W) for implementing M, hosted by a standard processor serving as the Controller C. This ATR will be appropriate for various military systems, including those with extreme size, weight, and power constraints.

Published

2017

40. A Technique for Registration of Absolute Fluxes of X-Ray Laser Plasma Radiation in the 0.15–1.0 keV Spectral Range with the Spectral λ/Δλ ≈ 20 and 30 ps Time Resolutions.

Author

Muntyan, A. N., Petrov, S. I., Romanova, N. M., and Sankin, E. V.

Subjects

*LASER plasmas, *X-ray lasers, *LASER beams, *PLASMA radiation, *OPTICAL pattern recognition, *X-rays

Abstract

Abstract—A method is described for recording X-rays with a spectral resolution of λ/Δλ ≈ 20 in five spectral channels in the 0.15–1.0 keV energy range and a time resolution of ∼30 ps based on multilayer X-ray mirrors and an X-ray electron-optical streak camera. The technique is used to register the dynamics of the formation of the X-ray radiation field in the converter cavity. [ABSTRACT FROM AUTHOR]

Published

2021

41. Automatic Target Recognition

Author

Schachter, Bruce J. and Schachter, Bruce J.

Subjects

Radar targets, Optical pattern recognition, Algorithms, Image processing

Abstract

This Tutorial Text provides an inside view of the automatic target recognition (ATR) field from the perspective of an engineer working in the field for 40 years. The algorithm descriptions and testing procedures covered in the book are appropriate for addressing military problems. The book also addresses unique aspects and considerations in the design, testing, and fielding of ATR systems. These considerations need to be understood by ATR engineers working in the defense industry as well as by their government customers. The final chapter discusses the future of ATR and provides a type of Turing test for determining if an ATR system is truly smart (neuromorphic or brain-like). The Appendix provides difficult-to-find resources available to the ATR engineer.

Published

2016

42. Face Processing And Applications To Distance Learning

Author

Vuong Le, Usman Tariq, Hao Tang, Pooya Khorrami, Thomas S Huang, Vuong Le, Usman Tariq, Hao Tang, Pooya Khorrami, and Thomas S Huang

Subjects

Face perception, Optical pattern recognition, Image processing

Abstract

This special compendium provides a concise and unified vision of facial image processing. It addresses a collection of state-of-the-art techniques, covering the most important areas for facial biometrics and behavior analysis. These techniques also converge to serve an emerging practical application of interactive distance learning.Readers will get a broad picture of the fundamental science of the field and technical details that make the research interesting. Moreover, the intellectual investigation motivated by the demand of real-life application will make this volume an inspiring read for current and prospective researchers and engineers in the fields of computer vision, machine learning and image processing.

Published

2016

43. Object recognition with features from complex wavelets

Author

Hong, Tao

Subjects

620, Optical pattern recognition, Wavelets (Mathematics)

Published

2012

44. Silicon-On-Insulator Photodetectors: Opportunity and Challenge.

Author

lnokaw, Hiroshi, Satoh, Hiroaki, Nagarajan, Anitharaj, Panchanathan, Aruna Priya, Manivannan, Revathi, and Elamaran, Durgadevi

Subjects

PHOTODETECTORS, MUSLIMS, ISLAMIC law, LIGHT absorption, METAL oxide semiconductor field-effect transistors, OPTICAL pattern recognition

Abstract

Although the silicon-on-insulator (SOI) is not popular as a material for photodetectors due to the small light absorption in the thin silicon layer, it brings new opportunities in photodetectors based on the phenomena such as optical confinement, carrier confinement and thermal isolation. This report introduces the unique uses of such phenomena found in the SOI photodiode with surface plasmon (SP) antenna, SOI MOSFET single-photon detector and SOI MOSFET terahertz (THz) bolometer.This study aims to study the roles of digital media in affecting women with hijab. Women who wear hijab somehow spread through publications and media participation in the dissemination of Hijab types. The aim and their understanding of Hijab's mode have been challenged in studying the roles of media in influencing women. A comprehensive study of 60 women was carried out to assess if media in modernization Hijab affects women in the use of Hijab. Results have been presented, and it has been shown that the media is using its resources entirely to manipulate women who wear Hijab regardless of their true intent. Hijab apparel sales media to continue in the fashion line. The Islamic laws continue to be styled by Muslim women. Technology helps spread news or updates of the current Hijab mode to everyday Muslim people in today's modern world. Changes to the Hijab mode may be accepted as one of the fashion trends during this period. However, to not deceive Islam's missionary, the relevance or the real prospects should be strengthened by Hijab. [ABSTRACT FROM AUTHOR]

Published

2021

45. 基于Mask-RCNN 迁移学习的红外图像电力设备检测.

Author

刘子全, 付慧, 李玉杰, 张国江, 胡成博, and 张照辉

Subjects

IMAGE recognition (Computer vision), ELECTRIC equipment, OPTICAL pattern recognition, IMAGE registration, OBJECT recognition (Computer vision)

Abstract

Copyright of Journal of Data Acquisition & Processing / Shu Ju Cai Ji Yu Chu Li is the property of Editorial Department of Journal of Nanjing University of Aeronautics & Astronautics and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

46. Ultra-stable Tb3+: CsPbI3 nanocrystal glasses for wide-range high-sensitivity optical temperature sensing.

Author

Zhang, Yaqian, Liu, Jianming, Zhang, Huiling, He, Qingyun, Liang, Xiaojuan, and Xiang, Weidong

Subjects

*OPTICAL glass, *THERMAL stability, *OPTICAL pattern recognition, *THERMAL resistance, *TEMPERATURE, *GLASS

Abstract

In this work, a series of perovskite nanocrystals glasses with different concentrations of Tb3+ doped CsPbI 3 , which have excellent characteristics in terms of water resistance and cyclic thermal stability, were prepared by melt quenching and in situ crystallization methods. With the introduction of Tb3+, the photoluminescence quantum yield of CsPbI 3 was greatly improved. Considering that the two fluorescence peaks of Tb3+ and CsPbI 3 at different positions respond differently to temperature stimuli, we studied the potential application of those glasses as optical temperature detection tools in the temperature range of 80−480 K. More importantly, the results showed higher sensitivity than other tools, with the maximum absolute and relative temperature sensitivities reaching as high as 0.034 K−1 and 1.78 % K-1, respectively. This work is expected to provide an effective method for the application of CsPbX 3 in high-performance optical temperature sensing materials. [ABSTRACT FROM AUTHOR]

Published

2020

47. 表面修饰调控锑烯SbX(X＝－CN，－NC)的电子结构与光学性质.

Author

郭　佳, 张鹏程, 刘春景, 熊子谦, and 涂华华

Subjects

BAND gaps, OPTICAL properties, DENSITY functional theory, INFRARED absorption, OPTOELECTRONIC devices, OPTICAL pattern recognition, RED tape

Abstract

Copyright of Journal of Central China Normal University is the property of Huazhong Normal University and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

48. Error Estimation for Pattern Recognition

Author

Ulisses M. Braga Neto, Edward R. Dougherty, Ulisses M. Braga Neto, and Edward R. Dougherty

Subjects

Computer vision, Pattern recognition systems, Optical pattern recognition, Image processing--Digital techniques

Abstract

This book is the first of its kind to discuss error estimation with a model-based approach. From the basics of classifiers and error estimators to distributional and Bayesian theory, it covers important topics and essential issues pertaining to the scientific validity of pattern classification. Error Estimation for Pattern Recognition focuses on error estimation, which is a broad and poorly understood topic that reaches all research areas using pattern classification. It includes model-based approaches and discussions of newer error estimators such as bolstered and Bayesian estimators. This book was motivated by the application of pattern recognition to high-throughput data with limited replicates, which is a basic problem now appearing in many areas. The first two chapters cover basic issues in classification error estimation, such as definitions, test-set error estimation, and training-set error estimation. The remaining chapters in this book cover results on the performance and representation of training-set error estimators for various pattern classifiers. Additional features of the book include: • The latest results on the accuracy of error estimation• Performance analysis of re-substitution, cross-validation, and bootstrap error estimators using analytical and simulation approaches• Highly interactive computer-based exercises and end-of-chapter problems This is the first book exclusively about error estimation for pattern recognition. Ulisses M. Braga Neto is an Associate Professor in the Department of Electrical and Computer Engineering at Texas A&M University, USA. He received his PhD in Electrical and Computer Engineering from The Johns Hopkins University. Dr. Braga Neto received an NSF CAREER Award for his work on error estimation for pattern recognition with applications in genomic signal processing. He is an IEEE Senior Member. Edward R. Dougherty is a Distinguished Professor, Robert F. Kennedy'26 Chair, and Scientific Director at the Center for Bioinformatics and Genomic Systems Engineering at Texas A&M University, USA. He is a fellow of both the IEEE and SPIE, and he has received the SPIE Presidents Award. Dr. Dougherty has authored several books including Epistemology of the Cell: A Systems Perspective on Biological Knowledge and Random Processes for Image and Signal Processing (Wiley-IEEE Press).

Published

2015

49. Emerging Trends in Image Processing, Computer Vision and Pattern Recognition

Author

Leonidas Deligiannidis, Hamid R Arabnia, Leonidas Deligiannidis, and Hamid R Arabnia

Subjects

Image processing--Digital techniques, Computer vision, Optical pattern recognition

Abstract

Emerging Trends in Image Processing, Computer Vision, and Pattern Recognition discusses the latest in trends in imaging science which at its core consists of three intertwined computer science fields, namely: Image Processing, Computer Vision, and Pattern Recognition. There is significant renewed interest in each of these three fields fueled by Big Data and Data Analytic initiatives including but not limited to; applications as diverse as computational biology, biometrics, biomedical imaging, robotics, security, and knowledge engineering. These three core topics discussed here provide a solid introduction to image processing along with low-level processing techniques, computer vision fundamentals along with examples of applied applications and pattern recognition algorithms and methodologies that will be of value to the image processing and computer vision research communities. Drawing upon the knowledge of recognized experts with years of practical experience and discussing new and novel applications Editors'Leonidas Deligiannidis and Hamid Arabnia cover; - Many perspectives of image processing spanning from fundamental mathematical theory and sampling, to image representation and reconstruction, filtering in spatial and frequency domain, geometrical transformations, and image restoration and segmentation - Key application techniques in computer vision some of which are camera networks and vision, image feature extraction, face and gesture recognition and biometric authentication - Pattern recognition algorithms including but not limited to; Supervised and unsupervised classification algorithms, Ensemble learning algorithms, and parsing algorithms. - How to use image processing and visualization to analyze big data. - Discusses novel applications that can benefit from image processing, computer vision and pattern recognition such as computational biology, biometrics, biomedical imaging, robotics, security, and knowledge engineering. - Covers key application techniques in computer vision from fundamentals to mid to high level processing some of which are camera networks and vision, image feature extraction, face and gesture recognition and biometric authentication. - Presents a number of pattern recognition algorithms and methodologies including but not limited to; supervised and unsupervised classification algorithms, Ensemble learning algorithms, and parsing algorithms. - Explains how to use image processing and visualization to analyze big data.

Published

2015

50. Documents Binarization Based on Hierarchical Local Minima Thresholdx.

Author

Alshehri, Saleh A.

Subjects

OPTICAL character recognition, IMAGE quality analysis, MAXIMA & minima, AUTOMATION, OPTICAL pattern recognition

Abstract

Many applications, such as optical character recognition and documents archiving system, require document binarization as an initial step toward successful system. The document image to be binarized may contain impairments effects. This effect must be removed or mitigated in order to achieve good binarization performance. One important approach is to find a proper global threshold value. With much image quality degradation, this approach may not be feasible. Local thresholds can lead to better performance. The challenge is to determine the sub-images boundary where each subimage has it local threshold. This research suggests an automated method based on x and y projections to divide the original document image into several sub-images. Each sub-image would have its own impairment effect. The division is recursively and hierarchically performed until no further dividing take place or be user selection. The proposed method shows good results compared to methods presented in the literature. [ABSTRACT FROM AUTHOR]

Published

2020