Your search keyword '"motion detection"' showing total 4,363 results

1. Autonomous Detection of Humans in Off-Limits Mountain Areas.

Author

Kim J

Subjects

Humans, Motion, Neural Networks, Computer, Artificial Intelligence, Algorithms

Abstract

This paper is on the autonomous detection of humans in off-limits mountains. In off-limits mountains, a human rarely exists, thus human detection is an extremely rare event. Due to the advances in artificial intelligence, object detection-classification algorithms based on a Convolution Neural Network (CNN) can be used for this application. However, considering off-limits mountains, there should be no person in general. Thus, it is not desirable to run object detection-classification algorithms continuously, since they are computationally heavy. This paper addresses a time-efficient human detector system, based on both motion detection and object classification. The proposed scheme is to run a motion detection algorithm from time to time. In the camera image, we define a feasible human space where a human can appear. Once motion is detected inside the feasible human space, one enables the object classification, only inside the bounding box where motion is detected. Since motion detection inside the feasible human space runs much faster than an object detection-classification method, the proposed approach is suitable for real-time human detection with low computational loads. As far as we know, no paper in the literature used the feasible human space, as in our paper. The outperformance of our human detector system is verified by comparing it with other state-of-the-art object detection-classification algorithms (HOG detector, YOLOv7 and YOLOv7-tiny) under experiments. This paper demonstrates that the accuracy of the proposed human detector system is comparable to other state-of-the-art algorithms, while outperforming in computational speed. Our experiments show that in environments with no humans, the proposed human detector runs 62 times faster than YOLOv7 method, while showing comparable accuracy.

Published

2024

2. Highly Flexible and Compressible 3D Interconnected Graphene Foam for Sensitive Pressure Detection.

Author

Li, Wentao, Zhou, Jianxin, Sheng, Wei, Jia, Yuxi, Xu, Wenjie, and Zhang, Tao

Subjects

PRESSURE sensors, HUMAN mechanics, ARTIFICIAL intelligence, AIR flow, DETECTORS, CARBON foams

Abstract

A flexible pressure sensor, capable of effectively detecting forces exerted on soft or deformable surfaces, has demonstrated broad application in diverse fields, including human motion tracking, health monitoring, electronic skin, and artificial intelligence systems. However, the design of convenient sensors with high sensitivity and excellent stability is still a great challenge. Herein, we present a multi-scale 3D graphene pressure sensor composed of two types of 3D graphene foam. The sensor exhibits a high sensitivity of 0.42 kPa−1 within the low-pressure range of 0–390 Pa and 0.012 kPa−1 within the higher-pressure range of 0.4 to 42 kPa, a rapid response time of 62 ms, and exceptional repeatability and stability exceeding 10,000 cycles. These characteristics empower the sensor to realize the sensation of a drop of water, the speed of airflow, and human movements. [ABSTRACT FROM AUTHOR]

Published

2024

3. Implementation of Motion Detection Methods on Embedded Systems: A Performance Comparison.

Author

Sehairi, Kamal and Chouireb, Fatima

Subjects

DEEP learning, MULTICORE processors, ARTIFICIAL intelligence, ARM microprocessors, MACHINE learning, MOBILE apps

Abstract

Recently, deploying machine learning methods and deep learning models to create an artificial intelligence system has gained huge interest. Several technologies, such as embedded GPU, ARM multicore processors, visual processor units VPUs, tensor processor units TPUs, and Field programmable arrays FPGAs, have been developed for this purpose. These processors and accelerators have been fitted on different edge boards and single computer boards SBCs. In this work, we present a performance comparison of background subtraction methods with many video resolutions on various technologies and boards. The tested boards are equipped with different versions of ARM multicore processors and embedded GPUs. The aim is to overcome the lack of such studies on embedded devices and compare the performance of these recent hardware configurations. The implementation was achieved on ARM CPUs configuration using OpenCV and on embedded GPU using CUDA OpenCV. Results show that for high computational methods and high-resolution videos, the GPU is four times faster than the CPU. For low-mid computational methods or low-mid video resolution, the GPU performance is reduced due to GPU-CPU bottleneck transfer. This performance comparison enables the reader to better choose the suitable hardware for his mobile application. [ABSTRACT FROM AUTHOR]

Published

2023

4. A Novel Methodology for Human Kinematics Motion Detection Based on Smartphones Sensor Data Using Artificial Intelligence.

Author

Raza, Ali, Al Nasar, Mohammad Rustom, Hanandeh, Essam Said, Zitar, Raed Abu, Nasereddin, Ahmad Yacoub, and Abualigah, Laith

Subjects

HUMAN kinematics, ARTIFICIAL intelligence, DEEP learning, SMARTPHONES, RANDOM forest algorithms, DECISION trees

Abstract

Kinematic motion detection aims to determine a person's actions based on activity data. Human kinematic motion detection has many valuable applications in health care, such as health monitoring, preventing obesity, virtual reality, daily life monitoring, assisting workers during industry manufacturing, caring for the elderly. Computer vision-based activity recognition is challenging due to problems such as partial occlusion, background clutter, appearance, lighting, viewpoint, and changes in scale. Our research aims to detect human kinematic motions such as walking or running using smartphones' sensor data within a high-performance framework. An existing dataset based on smartphones' gyroscope and accelerometer sensor values is utilized for the experiments in our study. Sensor exploratory data analysis was conducted in order to identify valuable patterns and insights from sensor values. The six hyperparameters, tunned artificial indigence-based machine learning, and deep learning techniques were applied for comparison. Extensive experimentation showed that the ensemble learning-based novel ERD (ensemble random forest decision tree) method outperformed other state-of-the-art studies with high-performance accuracy scores. The proposed ERD method combines the random forest and decision tree models, which achieved a 99% classification accuracy score. The proposed method was successfully validated with the k-fold cross-validation approach. [ABSTRACT FROM AUTHOR]

Published

2023

5. Movement-in-a-Video Detection Scheme for Sign Language Gesture Recognition Using Neural Network.

Author

Caliwag, Angela C., Hwang, Han-Jeong, Kim, Sang-Ho, and Lim, Wansu

Subjects

SIGN language, COMMUNICATION barriers, COMPUTATIONAL complexity, GESTURE

Abstract

Sign language aids in overcoming the communication barrier between hearing-impaired individuals and those with normal hearing. However, not all individuals with normal hearing are skilled at using sign language. Consequently, deaf and hearing-impaired individuals generally encounter the problem of limited communication while interacting with individuals with normal hearing. In this study, a sign language recognition method based on a movement-in-a-video detection scheme is proposed. The proposed scheme is applied to extract unique spatial and temporal features from each gesture. The extracted features are subsequently used to train a neural network to classify the gestures. The proposed movement-in-a-video detection scheme is applied to sign language videos featuring short, medium, and long gestures. The proposed method achieved an accuracy of 90.33% and 40% in classifying short and medium gestures, respectively, compared with 69% and 43.7% achieved using other methods. In addition, the improved accuracies were achieved with less computational complexity and cost. It is anticipated that improvements in the proposed method, for it to achieve high accuracy for long gestures, can enable hearing-impaired individuals to communicate with normal-hearing people who do not have knowledge of sign language. [ABSTRACT FROM AUTHOR]

Published

2022

6. A Novel Methodology for Human Kinematics Motion Detection Based on Smartphones Sensor Data Using Artificial Intelligence

Author

Ali Raza, Mohammad Rustom Al Nasar, Essam Said Hanandeh, Raed Abu Zitar, Ahmad Yacoub Nasereddin, and Laith Abualigah

Subjects

human motion kinematics, motion detection, activity recognition, smartphone sensors, artificial intelligence, machine learning, Technology

Abstract

Kinematic motion detection aims to determine a person’s actions based on activity data. Human kinematic motion detection has many valuable applications in health care, such as health monitoring, preventing obesity, virtual reality, daily life monitoring, assisting workers during industry manufacturing, caring for the elderly. Computer vision-based activity recognition is challenging due to problems such as partial occlusion, background clutter, appearance, lighting, viewpoint, and changes in scale. Our research aims to detect human kinematic motions such as walking or running using smartphones’ sensor data within a high-performance framework. An existing dataset based on smartphones’ gyroscope and accelerometer sensor values is utilized for the experiments in our study. Sensor exploratory data analysis was conducted in order to identify valuable patterns and insights from sensor values. The six hyperparameters, tunned artificial indigence-based machine learning, and deep learning techniques were applied for comparison. Extensive experimentation showed that the ensemble learning-based novel ERD (ensemble random forest decision tree) method outperformed other state-of-the-art studies with high-performance accuracy scores. The proposed ERD method combines the random forest and decision tree models, which achieved a 99% classification accuracy score. The proposed method was successfully validated with the k-fold cross-validation approach.

Published

2023

7. Movement-in-a-Video Detection Scheme for Sign Language Gesture Recognition Using Neural Network

Author

Angela C. Caliwag, Han-Jeong Hwang, Sang-Ho Kim, and Wansu Lim

Subjects

artificial intelligence, dynamic sign language, frame extraction, motion detection, sign language recognition, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Sign language aids in overcoming the communication barrier between hearing-impaired individuals and those with normal hearing. However, not all individuals with normal hearing are skilled at using sign language. Consequently, deaf and hearing-impaired individuals generally encounter the problem of limited communication while interacting with individuals with normal hearing. In this study, a sign language recognition method based on a movement-in-a-video detection scheme is proposed. The proposed scheme is applied to extract unique spatial and temporal features from each gesture. The extracted features are subsequently used to train a neural network to classify the gestures. The proposed movement-in-a-video detection scheme is applied to sign language videos featuring short, medium, and long gestures. The proposed method achieved an accuracy of 90.33% and 40% in classifying short and medium gestures, respectively, compared with 69% and 43.7% achieved using other methods. In addition, the improved accuracies were achieved with less computational complexity and cost. It is anticipated that improvements in the proposed method, for it to achieve high accuracy for long gestures, can enable hearing-impaired individuals to communicate with normal-hearing people who do not have knowledge of sign language.

Published

2022

8. Intelligent Virtual Security System using Attention Mechanism

Author

Wasim Ahmad Khan, Hafiz Usman Akmal, Ahmad Ullah, Aqdas Malik, Sagheer Abbas, Abdullah Ahmad, and Abdullah Farooq

Subjects

Virtual Security, Artificial Intelligence, Computer Vision, Attention, Motion Detection, Blob Detection, Management information systems, T58.6-58.62

Abstract

Within the past few years, organizational security has emerged as a critical challenge for industries, security agencies, academic institutions and organizations. The current security system lacks efficiency which influences organizations’ security parameters negatively. While dealing with a violent or terroristic activity human guards may not be able to response effectively under pressure, due to some limitation or lack of continuous attention. In present conditions where guards are not active enough to generate a quick response against threat, human eagerly need to design an effective virtual security system which would be responsible to analyze collective measures, process, and procedure that ensure protections of virtualization environment. In order to increase efficiency of security, eliminate security holes and to obtain quick response towards suspicious activities, there is need to replace humansecurity-guard with a virtual-security-guard system. This virtual guard will be an embedded machine, which will act like a complete security guard that will work under ‘Human Based Psychology’. This system would be reflection of an ideal virtual security guard which will generate intelligent and quick response towards abnormal activities by making intelligent decisions based on selective attention mechanism. The proposed system can be efficient enough to focus both functional and non-functional requirements (resistibility in smoke, fog, rain, dark and dust).

Published

2018

9. Background subtraction challenges in motion detection using Gaussian mixture model: A survey

Author

Nor Afiqah Mohd Aris and Siti Suhana Jamaian

Subjects

Information Systems and Management, Gaussian mixture model, Motion detection, Artificial Intelligence, Control and Systems Engineering, Background-foreground detection, Background subtraction, Computer vision, Electrical and Electronic Engineering

Abstract

Motion detection is becoming prominent for computer vision applications. The background subtraction method that uses the Gaussian mixture model (GMM) is utilized frequently in camera or video settings. However, there is still more work that needs to be done to develop a reliable, accurate and high-performing technique due to various challenges. The degree of difficulty for this challenge is primarily determined by how the object to be detected is defined. It could be influenced by the changes in the object posture or deformations. In this context, we describe and bring together the most significant challenges faced by the background subtraction techniques based on GMM for dealing with a crucial background situation. Therefore, the findings of this study can be used to identify the most appropriate GMM version based on the crucial background situation.

Published

2023

10. Motion detection with low cost hardware for PTZ cameras.

Author

Benito-Picazo, Jesús, Domínguez, Enrique, Palomo, Esteban J., López-Rubio, Ezequiel, and Ortiz-de-Lazcano-Lobato, Juan Miguel

Subjects

*MOTION detectors, *IMAGE processing, *VIDEO surveillance, *ARTIFICIAL intelligence, *TELEVISION in security systems

Abstract

Pan-tilt-zoom (PTZ) cameras are well suited to motion detection and tracking objects due to their mobility. Motion detection approaches based on background difference have been the most used with fixed cameras because of the high quality of the achieved segmentation. However, time requirements and high costs prevent most of the algorithms proposed in literature from exploiting the background difference with PTZ cameras in real world applications, such as automatic surveillance. This paper presents a new algorithm to detect moving objects within an area covered by a PTZ camera while it is panning, tilting or zooming in or out. The low computational demands of the algorithm allow for its deployment to a Raspberry Pi microcontroller-based board, which enables the design and implementation of a low-cost monitoring system that is able to perform real-time image processing. First, our system works offline to estimate the parameters of the motion detection model, which are written on the Raspberry Pi memory. Second, motion detection is performed online by the microcontroller. Experimental results using different moving objects classifiers (FANN, KNN, and SVM) confirm the good performance of this approach in terms of different classification performance measures (accuracy, F-measure, AUC, and sample processing time). [ABSTRACT FROM AUTHOR]

Published

2019

11. Spiking Neurons Integrating Visual Stimuli Orientation and Direction Selectivity in a Robotic Context.

Author

Cyr, André, Thériault, Frédéric, Ross, Matthew, Berberian, Nareg, and Chartier, Sylvain

Subjects

ACTION potentials, ARTIFICIAL intelligence, STIMULUS & response (Biology), HUMAN-robot interaction, TASK performance

Abstract

Visual motion detection is essential for the survival of many species. The phenomenon includes several spatial properties, not fully understood at the level of a neural circuit. This paper proposes a computational model of a visual motion detector that integrates direction and orientation selectivity features. A recent experiment in the Drosophila model highlights that stimulus orientation influences the neural response of direction cells. However, this interaction and the significance at the behavioral level are currently unknown. As such, another objective of this article is to study the effect of merging these two visual processes when contextualized in a neuro-robotic model and an operant conditioning procedure. In this work, the learning task was solved using an artificial spiking neural network, acting as the brain controller for virtual and physical robots, showing a behavior modulation from the integration of both visual processes. [ABSTRACT FROM AUTHOR]

Published

2019

12. Spiking Neurons Integrating Visual Stimuli Orientation and Direction Selectivity in a Robotic Context

Author

André Cyr, Frédéric Thériault, Matthew Ross, Nareg Berberian, and Sylvain Chartier

Subjects

spiking neurons, vision, direction selectivity, orientation selectivity, motion detection, artificial intelligence, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Visual motion detection is essential for the survival of many species. The phenomenon includes several spatial properties, not fully understood at the level of a neural circuit. This paper proposes a computational model of a visual motion detector that integrates direction and orientation selectivity features. A recent experiment in the Drosophila model highlights that stimulus orientation influences the neural response of direction cells. However, this interaction and the significance at the behavioral level are currently unknown. As such, another objective of this article is to study the effect of merging these two visual processes when contextualized in a neuro-robotic model and an operant conditioning procedure. In this work, the learning task was solved using an artificial spiking neural network, acting as the brain controller for virtual and physical robots, showing a behavior modulation from the integration of both visual processes.

Published

2018

13. Automatic Inter-Frame Patient Motion Correction for Dynamic Cardiac PET Using Deep Learning

Author

Yihuan Lu, Luyao Shi, Albert J. Sinusas, Chi Liu, C. Weyman, Nicha C. Dvornek, and Edward J. Miller

Subjects

Computer science, Movement, Image registration, Context (language use), Article, Motion (physics), Motion, Deep Learning, Motion estimation, Image Processing, Computer-Assisted, Humans, Computer vision, Electrical and Electronic Engineering, motion correction, Radiological and Ultrasound Technology, business.industry, Inter frame, Motion detection, Body movement, Computer Science Applications, PET, Cardiac PET, Positron-Emission Tomography, Artificial intelligence, business, myocardial perfusion, Software

Abstract

Patient motion during dynamic PET imaging can induce errors in myocardial blood flow (MBF) estimation. Motion correction for dynamic cardiac PET is challenging because the rapid tracer kinetics of 82Rb leads to substantial tracer distribution change across different dynamic frames over time, which can cause difficulties for image registration-based motion correction, particularly for early dynamic frames. In this paper, we developed an automatic deep learning-based motion correction (DeepMC) method for dynamic cardiac PET. In this study we focused on the detection and correction of inter-frame rigid translational motion caused by voluntary body movement and pattern change of respiratory motion. A bidirectional-3D LSTM network was developed to fully utilize both local and nonlocal temporal information in the 4D dynamic image data for motion detection. The network was trained and evaluated over motion-free patient scans with simulated motion so that the motion ground-truths are available, where one million samples based on 65 patient scans were used in training, and 600 samples based on 20 patient scans were used in evaluation. The proposed method was also evaluated using additional 10 patient datasets with real motion. We demonstrated that the proposed DeepMC obtained superior performance compared to conventional registration-based methods and other convolutional neural networks (CNN), in terms of motion estimation and MBF quantification accuracy. Once trained, DeepMC is much faster than the registration-based methods and can be easily integrated into the clinical workflow. In the future work, additional investigation is needed to evaluate this approach in a clinical context with realistic patient motion.

Published

2021

14. Utilizing RFID Tag Motion Detection in High Tag Density Environments for Customer Browsing Insights

Author

Cagri Tanriover, Chieh-Yih Wan, and Rahul C. Shah

Subjects

business.industry, Computer science, Organic Chemistry, Computer vision, Motion detection, Artificial intelligence, business, Biochemistry

Published

2021

15. RFDSys: Real-time Fire Detection System using AIoT-based K-NN and Motion Detection

Author

Dae-Seong Kang and Jong-Chan Park

Subjects

Computer science, Fire detection, business.industry, Computer vision, Motion detection, Artificial intelligence, business

Published

2021

16. Football Players’ Shooting Posture Norm Based on Deep Learning in Sports Event Video

Author

Guo Huang, Guangliang Huang, and Zhuangxu Lan

Subjects

Article Subject, Contextual image classification, Event (computing), business.industry, Computer science, Deep learning, ComputingMilieux_PERSONALCOMPUTING, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Offensive, Motion detection, Football, Machine learning, computer.software_genre, Computer Science Applications, QA76.75-76.765, Match moving, Gesture recognition, Computer software, Artificial intelligence, business, computer, Software, ComputingMethodologies_COMPUTERGRAPHICS

Abstract

Football is one of the favorite sports of people nowadays. Shooting is the ultimate goal of all offensive tactics in football matches. This is the most basic way to score a goal and the only way to score a goal. The choice and use of shooting technical indicators can have a great impact on the final result of the game. Therefore, how to improve the shooting technique of football players and how to adjust the shooting posture of football players are important issues faced by coaches and athletes. In recent years, deep learning has been widely used in various fields such as image classification and recognition and language processing. How to apply deep learning optimization to shooting gesture recognition is a very promising research direction. This article aims to study the football player’s shooting posture specification based on deep learning in sports event videos. Based on the analysis of target motion detection algorithm, target motion tracking algorithm, target motion recognition algorithm, and football shooting posture classification, KTH and Weizmann data sets are used. As the experimental verification data set of this article, the shooting posture of football players in the sports event video is recognized, and the accuracy of the action recognition is finally calculated to standardize the football shooting posture. The experimental results show that the Weizmann data set has a higher accuracy rate than the KTH data set and is more suitable for shooting attitude specifications.

Published

2021

17. Spiking Neurons Integrating Visual Stimuli Orientation and Direction Selectivity in a Robotic Context.

Author

Cyr, André, Thériault, Frédéric, Ross, Matthew, Berberian, Nareg, and Chartier, Sylvain

Abstract

Visual motion detection is essential for the survival of many species. The phenomenon includes several spatial properties, not fully understood at the level of a neural circuit. This paper proposes a computational model of a visual motion detector that integrates direction and orientation selectivity features. A recent experiment in the Drosophila model highlights that stimulus orientation influences the neural response of direction cells. However, this interaction and the significance at the behavioral level are currently unknown. As such, another objective of this article is to study the effect of merging these two visual processes when contextualized in a neuro-robotic model and an operant conditioning procedure. In this work, the learning task was solved using an artificial spiking neural network, acting as the brain controller for virtual and physical robots, showing a behavior modulation from the integration of both visual processes. [ABSTRACT FROM AUTHOR]

Published

2018

18. Toy Vision-Guided 3D Robotic Arm in JavaScript.

Author

DiPierro, Massimo

Subjects

JAVASCRIPT programming language, COMPUTER vision, ROBOTICS, PATTERN recognition systems, DIGITAL image processing, ALGORITHMS

Abstract

Modern JavaScript has the power to access the capabilities of the underlying architecture in a simple and portable manner and without installing third-party libraries. A one-page web application was built that connects to the camera, processes the video stream, extracts images, and detects motion. The detected motion is then used to control a 3D robotic arm rendered using webGL within the same page. Although the scope of this paper is purely didactic, the framework can easily be extended and used in a classroom setting for experimentation with different vision algorithms. [ABSTRACT FROM AUTHOR]

Published

2018

19. The Hodgkin–Huxley neuron model for motion detection in image sequences

Author

Olivier Lezoray, Dounia Yedjour, Hayat Yedjour, Boudjelal Meftah, Université des sciences et de la Technologie d'Oran Mohamed Boudiaf [Oran] (USTO MB), Department of Computer Science (University of Mascara), University Mustapha Stambouli [Mascara], Equipe Image - Laboratoire GREYC - UMR6072, Groupe de Recherche en Informatique, Image et Instrumentation de Caen (GREYC), Centre National de la Recherche Scientifique (CNRS)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), Normandie Université (NU)-Normandie Université (NU)-Université de Caen Normandie (UNICAEN), Normandie Université (NU)-Centre National de la Recherche Scientifique (CNRS)-École Nationale Supérieure d'Ingénieurs de Caen (ENSICAEN), and Normandie Université (NU)

Subjects

Computer science, Population, Boundary (topology), Biological neuron model, Hodgkin-Huxley model, 03 medical and health sciences, 0302 clinical medicine, Artificial Intelligence, Receptive field, education, 030304 developmental biology, Network model, Spiking neural network, 0303 health sciences, education.field_of_study, Spiking neural networks, business.industry, Pattern recognition, Motion detection, Real image, [INFO.INFO-TI]Computer Science [cs]/Image Processing [eess.IV], Artificial intelligence, Visual system, business, 030217 neurology & neurosurgery, Software

Abstract

International audience; In this paper, we consider a biologically inspired spiking neural network model for motion detection. The proposed model simulates the neurons' behavior in the cortical area MT to detect different kinds of motion in image sequences. We choose the conductance-based neuron model of the Hodgkin-Huxley to define MT cell responses. Based on the center-surround antagonism of MT receptive fields, we model the area MT by its great proportion of cells with directional selective responses. The network's spiking output corresponds to an MT neuron population's firing rates and enables to extract motion boundaries. We conduct several experiments on real image sequences. The experimental results show the proposed network's ability to segregate multiple moving objects from an image sequence and reproduce the MT cells' responses. We perform a quantitative evaluation on the YouTube Motion Boundaries (YMB) dataset, and we compare the result to stateof-the-art methods for boundary detection in videos: boundary flow estimation (BF) and temporal boundary difference (BD). The proposed network model provides the best results on YMB compared to BF and BD methods.

Published

2021

20. Functional motion detection based on artificial intelligence

Author

Genggeng Liu and Lingfeng Huang

Subjects

Focus (computing), Rehabilitation, business.industry, Computer science, Interface (computing), medicine.medical_treatment, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Motion detection, Video processing, Theoretical Computer Science, Hardware and Architecture, Systems architecture, medicine, Artificial intelligence, Sample collection, User interface, business, Software, Information Systems

Abstract

Sports injuries can be a major problem for athletes. Therefore, sports injury protection has become a key focus of attention in sports and medical circles. With widening participation in sport, related injuries can have an impact at national level. However, many areas around the world lack adequate medical resources. It takes more time and money for local people to get to the nearest rehabilitation department or physical therapy studio. Artificial intelligence (AI) has undergone vigorous development, leading to increased computing speed and accuracy. Nowadays, two-dimensional image signals can be used for body-posture recognition. This research is based on the Openpose limb-detection AI model, which has corrective exercise training elements and uses functional motion-detection technology as the diagnostic basis (combined with physical therapists’ clinical knowledge of rehabilitation interventions). We propose a 2-D imaging physical health detection system. The system is divided into four main parts: a mobile app user interface, the computing server, professional interface and database. A user video is recorded by the app. The computing server then calculates keypoints of the human body through Openpose and converts these data into clinical test indicators. Finally, health indicators are displayed, and the app registers action scores. The professional interface presents users with health feedback and recommends suitable rehabilitation videos. The computing server is divided into two parts: limb detection and the detection system. The limb-detection aspect is divided into four parts: sample collection, video processing, keypoint processing and results comparison. The detection system is subdivided into system architecture and a health evaluation (forming the basis for video recommendations). The key contributions of this paper are that the proposed system can calculate body posture and automatically detect the physical condition and health of the body. In addition to reducing dependence on professional human resources, the system can also save the trouble of manual angle measurement in traditional physical therapy.

Published

2021

21. SMART-CAM FOR WAREHOUSE

Author

Sampada S. Chalke, Shreyas S. Keny, and Sunil R. Patade

Subjects

Focus (computing), Information Systems and Management, Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Process (computing), Motion detection, Object (computer science), Motion (physics), Position (vector), Fixed interval, Computer vision, Artificial intelligence, business, Software, Information Systems, Camera module

Abstract

We are implementing a project for memory optimization for video surveillance with the help of human motion happening in the surrounding in the warehouse and also will be able to playback the recorded video which will only have the human motion recorded video and images will be click continuously after a fixed interval of time to get a view when there is human motion or no human motion images will be always clicked and stored. This system is based on IoT (Internet of Things). It has a Raspberry Pi (RPI), Camera module to detect human (thief) or detection of fire. Motion detection is a process of confirming a change in the position of an object relative to its surroundings or the change in the surroundings relative to an object. Generally, motion detection is useful in real-time or active surveillance systems. IN this paper the main focus is given to the processing of the captured video data to detect human motion in it. So that it is easy for the user to view images and videos whenever he wants. So this system is very useful to maintain a warehouse and memory optimization will be done.

Published

2021

22. A Dual Generation Adversarial Network for Human Motion Detection Using Micro-Doppler Signatures

Author

Ji Haoran, Chunping Hou, Yang Yang, and Lang Yue

Subjects

Motion detector, Pixel, Computer science, business.industry, Detector, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Motion detection, DUAL (cognitive architecture), Motion (physics), Task (project management), law.invention, law, Computer vision, Artificial intelligence, Electrical and Electronic Engineering, Radar, business, Instrumentation

Abstract

Radar sensors and micro-Doppler signatures have been widely used to recognize human motions. Apart from the motion classification task, human motion detection has attracted much attention as an emerging topic. A majority of existing motion detectors are designed for a specific motion, such as falling. In some scenarios, however, a broader range of human actions is of interest, hence a general motion detector is desired. In this paper, we propose a radar-based motion detection model named dual generative adversarial network (DGN). The proposed model tackles the detection task as a one-class classification problem and is applicable to detecting various motions. Unlike prior fall detection algorithms, which depend on manually collected alien data, the DGN employs a dual generation scheme to automatically produce valid alien samples in both the pixel level and the semantic level. The model is verified on two measured radar datasets containing individual motions and interactive motions, respectively. The experimental results show that our method outperforms other existing models on the human motion detection task.

Published

2021

23. Development of a novel motion capture and gait analysis system for rat locomotion

Author

Chuankai Dai, Fei Meng, Lyu Xiaodong, Qiang Huang, Jiping He, and Toshio Fukuda

Subjects

Artificial neural network, business.industry, Computer science, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Image processing, Motion detection, Motion capture, Computer Science Applications, Human-Computer Interaction, Hardware and Architecture, Control and Systems Engineering, Gait analysis, Computer vision, Artificial intelligence, business, Software, ComputingMethodologies_COMPUTERGRAPHICS

Abstract

This paper proposes a marker-based motion capture system for rat motion detection and gait analysis. Motion capture in small animals such as rodents is more challenging than in humans because of th...

Published

2021

24. YogaHelp: Leveraging Motion Sensors for Learning Correct Execution of Yoga With Feedback

Author

Ashish Gupta and Hari Prabhat Gupta

Subjects

Correctness, Computer science, Human–computer interaction, Trainer, business.industry, Deep learning, Server, Feature extraction, Novelty, Motion detection, Artificial intelligence, Accelerometer, business

Abstract

By leveraging motion sensors, the study of physical activities has become effortless and convenient. Yoga is an excellent form of physical activity or exercise that involves all parts of the body. Regular practice of yoga improves both the physical and mental health of the people, if the practitioner performs it correctly. Though the existing exercise recognition methods have shown quite a good performance using deep neural networks, they fail to assess the correctness of execution. Feedback describing correctness level is very useful to an amateur practitioner. In this article, we aim to develop a YogaHelp system to help amateurs for learning the correct execution of yoga without any supervision of a trainer. The importance of such a system is much higher during a pandemic situation, where the trainers can not be availed due to the risk of catching an infection. YogaHelp leverages the motion sensors including accelerometer and gyroscope, to recognize 12 linked-steps of sun salutation (Surya Namaskar) yoga along with their correctness level. YogaHelp employs a deep learning model built using convolutional layers for yoga step recognition without explicit feature extraction. The novelty of the system lies in the feedback that describes the speed of execution and angular deviation of the posture from the standard ones. We develop a prototype for collecting a training dataset from eight professional yoga trainers and for validating the effectiveness of the system.

Published

2021

25. A study of human motion in computer vision systems based on a skeletal model

Author

Sophia A. Kazakova, Polina A. Leonteva, Maria I. Frolova, Julia V. Donetskaya, Ilya Yu. Popov, and Aleksandr Yu. Kuznetsov

Subjects

Computer science, business.industry, Mechanical Engineering, QC350-467, QA75.5-76.95, Optics. Light, skeletal model, Atomic and Molecular Physics, and Optics, computer vision, Computer Science Applications, Electronic, Optical and Magnetic Materials, Electronic computers. Computer science, motion detection, Computer vision, Behavioral analytics, Artificial intelligence, behavioral analytics, business, human motion analysis, Information Systems

Abstract

Methods of studying human motion in computer vision systems can be divided into two types. These are analysis in twodimensional and three-dimensional space. The former uses a single camera image and/ or multiple body sensors. Such an approach leads to a rapid accumulation of error and, consequently, low accuracy of the figure representation. Multiple cameras are usually used in the case of three-dimensional space analysis, while the objects are represented as sets of volumetric elements. Despite the high accuracy of this method, it is associated with high computational complexity and internal network load. The purpose of the paper is to develop a model using a single camera, while approaching threedimensional space analysis methods in terms of accuracy. In this paper a human figure is represented as a skeleton. The skeleton is described by an acyclic connected graph. The general structure of a human figure is analyzed. Fifteen basic points are selected. Physical and logical connections between them were studied and mathematically described. The velocity and spatial characteristics of the points and connections outline the general dynamics of motion. The study describes a model of human motion and gives the option for model construction on the example of a particular image. The developed algorithm for collection and analysis of information estimates relative locations and velocity characteristics of the graph elements. The model can be used for acquisition of information about the reference dynamics of human movements. In case of detecting major differences between the reference and the reality, the behavior is defined as deviant. Thus, the obtained algorithm can be applied in computer vision systems for detection and analysis of human movements.

Published

2021

26. Comparative Analysis Of Efficient Image Segmentation Technique For Text Recognition And Human Skin Recognition

Author

Victor Ilyas Sugara, Febri Damatraseta, and Septian Cahyadi

Subjects

Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Cognitive neuroscience of visual object recognition, Pattern recognition, Human skin, Motion detection, Text recognition, Image segmentation, Color space, Convolutional neural network, Object detection, Pattern recognition (psychology), Segmentation, Computer vision, Artificial intelligence, business

Abstract

Computer Vision and Pattern Recognition is one of the most interesting research subject on computer science, especially in case of reading or recognition of objects in realtime from the camera device. Object detection has wide range of segments, in this study we will try to find where the better methodologies for detecting a text and human skin. This study aims to develop a computer vision technology that will be used to help people with disabilities, especially illiterate (tuna aksara) and deaf (penyandang tuli) to recognize and learn the letters of the alphabet (A-Z). Based on our research, it is found that the best method and technique used for text recognition is Convolutional Neural Network with achievement accuracy reaches 93%, the next best achievement obtained OCR method, which reached 98% on the reading plate number. And also OCR method are 88% with stable image reading and good lighting conditions as well as the standard font type of a book. Meanwhile, best method and technique to detect human skin is by using Skin Color Segmentation: CIELab color space with accuracy of 96.87%. While the algorithm for classification using Convolutional Neural Network (CNN), the accuracy rate of 98% Key word: Computer Vision, Segmentation, Object Recognition, Text Recognition, Skin Color Detection, Motion Detection, Disability Application

Published

2021

27. Night Motion Detection and Alert System

Author

Yogita Chavan, Sonalika Vishwakarma, Harsh Ghosalkar, and Rohan Benere

Subjects

business.industry, Computer science, 0202 electrical engineering, electronic engineering, information engineering, 020206 networking & telecommunications, 020201 artificial intelligence & image processing, Computer vision, Motion detection, 02 engineering and technology, Artificial intelligence, business, Alert system

Abstract

Closed-Circuit TV (CCTV) system is one of the technologies in the surveillance field to solve the problem of detection and monitoring by providing extra features such as email alert or motion detection. However, detecting and alerting the admin on CCTV system may complicate due to the complexity to integrate the main program with an external Application Programming Interface (API). In this study, pixel processing algorithm is applied due to its efficiency and SMS alert is added as an alternative solution for users who opted out email alert system or have no Internet connection. A CCTV system with SMS alert (CMDSA) was developed using evolutionary prototyping methodology. The system interface was implemented using Microsoft Visual Studio while the backend components, which are database and coding, were implemented on SQLite database and C# programming language, respectively. The main modules of CMDSA are motion detection, capturing and saving video, image processing and Short Message Service (SMS) alert functions. Subsequently, the system is able to reduce the processing time making the detection process become faster, reduce the space and memory used to run the program and alerting the system admin instantly.

Published

2021

28. Automatic detection and tracking the moving objects observed by an unmanned aerial vehicles video camera

Author

R. S. Zhuk

Subjects

Pixel, Computer science, business.industry, Frame (networking), Optical flow, Motion detection, QA75.5-76.95, Pixel intensity, Tracking (particle physics), Displacement (vector), optical flow, On board, moving camera, Electronic computers. Computer science, motion detection, objects tracking, Computer vision, Artificial intelligence, unmanned aerial vehicles, business

Abstract

An algorithm of automatic detection and tracking the moving objects for the use in equipment on board of unmanned aerial vehicles is considered. The developed algorithm is based on a tracking specially selected points for a certain period. Tracked points are selected from the areas on the current frame, where the pixel intensity differs from the intensities of the same pixels in previous frames, aligned with the current frame using projective transformation. If the displacement of the tracked points is not fixed on several adjacent frames, they are being deleted, and new points from the areas presumably belonging to moving objects in the current frame are added instead. On each frame the points similar by the location and shape of trajectories of movement are combined into groups that presumably correspond to moving objects. Objects are tracked by comparing the groups of moving points with the points of neighboring frames. Groups of moving points from neighboring frames are matched if they contain a large number of common tracked points. The algorithm allows simultaneous tracking of more than 20 objects in real time. The indication of objects as moving occurs only if during the time of its tracking it has shifted a considerable distance. The algorithm has a low percentage of false detections of moving objects, it detects well small objects and is capable reliably to accompany moving objects.

Published

2021

29. Motion Detection of Webcam Using Frame Differencing Method

Author

Sarika Chaudhary, Pooja Nagpal, Shalini Bhaskar Bajaj, and Aman Jatain

Subjects

Background subtraction, business.industry, Computer science, 05 social sciences, Frame (networking), 0211 other engineering and technologies, Motion detection, 02 engineering and technology, 050105 experimental psychology, 021105 building & construction, 0501 psychology and cognitive sciences, Computer vision, Artificial intelligence, business

Abstract

It is the capability of humans and as well as vehicles to automatically detect object level motion that results into collision less navigation and also provides sense of situation. This paper presents a technique for secure object level motion detection which yields more accurate results. To achieve this, python code has been used along with various machine learning libraries. The detection algorithm uses the advantage of background subtraction and fed in data to detect even the slightest movement this system makes use of a webcam to scan a premise and detect movement of any sort; on the recognition of any activity it immediately sends an alert message to the owner of the system via mail. Any person requiring a surveillance system can use it.

Published

2021

30. Football Player Posture Detection Method Combining Foreground Detection and Neural Networks

Author

Xin Hu

Subjects

Foreground detection, Article Subject, Artificial neural network, business.industry, Computer science, Deep learning, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, 020206 networking & telecommunications, Motion detection, 02 engineering and technology, Football, Field (computer science), Computer Science Applications, QA76.75-76.765, Minimum bounding box, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Computer vision, Computer software, Artificial intelligence, business, Pose, Software

Abstract

In recent years, with the rapid development of artificial intelligence, information technology, intelligent digital video surveillance systems, real-time sports competition playback, and other technologies have emerged one after another, making the advantages of deep learning-based football posture detection tasks become more obvious. Related models and methods have been applied to the research field of sports posture estimation and have achieved great improvement, surpassing the traditional football posture estimation method based on manual design features in one fell swoop. In addition, the application of video foreground detection has developed rapidly and has great application value in sports analysis. Therefore, this paper proposes a novel football motion detection approach combining foreground detection and deep learning for real-time detection of football player posture. The main task of foreground target detection is to extract the interesting foreground target in the real monitoring scene and use it as the target of interest for subsequent analysis. Then, we propose a triple DetectNet detection framework based on deep learning technology, which can quickly and robustly realize the three-dimensional pose estimation of multiperson motion. For input, the triple DetectNet framework uses three neural networks and is executed in three stages; the first stage is to use the DetectNet (DN) network to detect the bounding box of each person separately, the second stage uses the 2DPoseNet (2DPN) network to estimate each of the corresponding two-dimensional poses of the individual, and the third stage uses the 3DPoseNet (3DPN) network to obtain the 3D pose of the person. This paper also conducted experiments on four datasets, and the results proved the superiority and success of this algorithm.

Published

2021

31. Camera motion detection for story and multimedia information convergence

Author

Seung-Bo Park and Hui-Yong Bak

Subjects

Computer science, business.industry, Deep learning, Detector, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Optical flow, Mobile computing, 020206 networking & telecommunications, Motion detection, 02 engineering and technology, Management Science and Operations Research, Library and Information Sciences, Motion (physics), Computer Science Applications, Hardware and Architecture, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, Computer vision, Artificial intelligence, Zoom, business, Tilt (camera)

Abstract

The motion of the camera in a video effectively conveys to the viewers the intention of the director, and is an essential element that enhances their interest. Therefore, detecting the motion of the camera is a very important factor in movie analysis. Existing research to detect the motion of the camera in a video has mainly focused on pan, tilt, and zoom. However, movies use more diverse camera motions to represent complex and varied emotions. Recognizing only pan, tilt, and zoom in a movie has limitations, especially not being able to detect lateral and longitudinal movements of the camera. In this study, a method is proposed to additionally detect boom and truck as well as pan, tilt, and zoom by using deep learning technology to improve this recognition ability. Thus, this study proposes the Improved Extractor of Camera Motion along with the CNN-Based Detector. The Improved Extractor of Camera Motion uses optical flow to extract camera motion vectors from video at eight-frame intervals. The CNN-Based Detector identifies five camera motions by using ResNet-152. As a result, the performance of our proposed method shows accuracy of 86.2%.

Published

2021

32. Deep Learning-Driven Gaussian Modeling and Improved Motion Detection Algorithm of the Three-Frame Difference Method

Author

Yangzhi Zhang, Dingchao Zheng, and Zhijian Xiao

Subjects

021110 strategic, defence & security studies, Article Subject, Computer Networks and Communications, Computer science, business.industry, Gaussian, Deep learning, Frame (networking), 0211 other engineering and technologies, 020207 software engineering, Motion detection, TK5101-6720, 02 engineering and technology, Object detection, Computer Science Applications, symbols.namesake, Telecommunication, 0202 electrical engineering, electronic engineering, information engineering, symbols, Noise (video), Artificial intelligence, Adaptive learning, business, Gaussian network model, Algorithm

Abstract

To enhance the effect of motion detection, a Gaussian modeling algorithm is proposed to fix holes and breaks caused by the conventional frame difference method. The proposed algorithm uses an improved three-frame difference method. A three-frame image sequence with one frame interval is selected for pairwise difference calculation. The logical “OR” operation is used to achieve fast motion detection and to reduce voids and fractures. The Gaussian algorithm establishes an adaptive learning model to make the size and contour of the motion detection more accurate. The motion extracted by the improved three-frame difference method and Gaussian model is logically summed to obtain the final motion foreground picture. Moreover, a moving target detection method, based on the U-Net deep learning network, is proposed to reduce the dependency of deep learning on the number of training datasets. It helps the algorithm to train models on small datasets. Next, it calculates the ratio of the number of positive and negative samples in the dataset and uses the reciprocal of the ratio as the sample weight to deal with the imbalance of positive and negative samples. Finally, a threshold is set to predict the results for obtaining the moving object detection accuracy. Experimental results show that the algorithm can suppress the generation and rupture of holes and reduce the noise. Also, it can quickly and accurately detect movement to meet the design requirements.

Published

2021

33. A real-time camera-based adaptive breathing monitoring system

Author

Ching Ho Wu, Yu-Ching Lee, Abdan Syakura, Yi Fang Ding, Ching-Wei Wang, and Muhammad Adil Khalil

Subjects

Respiratory rate, Remote patient monitoring, Computer science, Movement, 0206 medical engineering, Biomedical Engineering, 02 engineering and technology, 030218 nuclear medicine & medical imaging, law.invention, 03 medical and health sciences, Motion, 0302 clinical medicine, Respiratory Rate, law, Region of interest, Humans, Computer vision, Respiration rate measurement, Environmental noise, Monitoring, Physiologic, Flowchart, business.industry, Respiration, Motion detection, Body movement, 020601 biomedical engineering, Computer Science Applications, Breathing, Original Article, Artificial intelligence, Non-contact-based breathing monitoring, business, Vision-based respiratory rate, Algorithms

Abstract

Breathing is one of the vital signs used to assess the physical health of a subject. Non-contact-based measurements of both breathing rate and changes in breathing rate help monitor health condition of subjects more flexibly. In this paper, we present an improved real-time camera-based adaptive breathing monitoring system, which includes real time (1) adaptive breathing motion detection, (2) adaptive region of interest detection to eliminate environmental noise, (3) breathing and body movement classification, (4) respiration rate estimation, (5) monitor change in respiration rate to examine overall health of an individual, and (6) online adaptation to lighting. The proposed system does not pose any positional and postural constraint. For evaluation, 30 videos of 15 animals are tested with drugs to simulate various medical conditions and breathing patterns, and the results from the proposed system are compared with the outputs of an existing FDA-approved invasive medical system for patient monitoring. The results show that the proposed method performs significantly correlated RR results to the reference medical device with the correlation coefficient equal to 0.92 and p-value less than 0.001, and more importantly the proposed video-based method is demonstrated to produce alarms 10 to 20 s earlier than the benchmark medical device. Graphical abstract The proposed system flowchart to extract the respiratory pattern from video.

Published

2021

34. Video summarization and captioning using dynamic mode decomposition for surveillance

Author

Akkajosyula Surya Sai Gopal, Rakesh Radarapu, Madhusudhan Nh, and Anand Kumar M

Subjects

Closed captioning, Computer Networks and Communications, business.industry, Computer science, Applied Mathematics, Deep learning, Frame (networking), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, 020206 networking & telecommunications, Image processing, Motion detection, Context (language use), 02 engineering and technology, Automatic summarization, Computer Science Applications, Computational Theory and Mathematics, Artificial Intelligence, 0202 electrical engineering, electronic engineering, information engineering, sort, 020201 artificial intelligence & image processing, Computer vision, Artificial intelligence, Electrical and Electronic Engineering, business, Information Systems

Abstract

Video surveillance has become a major tool in security maintenance. But analyzing in a playback version to detect any motion or any sort of movements might be tedious work because only for a short length of the video there would be any motion. There would be a lot of time wasted in analyzing the video and also it is impossible to always find the accurate frame where the transition has occurred. So there is a need in obtaining a summary video that captures any changes/motion. With the advancements in image processing using OpenCV and deep learning, video summarization is no longer an impossible work. Captions are generated for the summarized videos using an encoder–decoder captioning model. With the help of large, well-labeled video data sets like common objects in context, Microsoft video description, video captioning is a feasible task. Encoder–decoder models are used extensively to extract text from visual features with the arrival of long short term memory (LSTM). Attention mechanism has been widely used on decoder for the work of video captioning. Keyframes are obtained from very long videos using methods like dynamic mode decomposition, an algorithm in fluid dynamics, OpenCV’s absdiff(). We propose these tools for motion detection and video/image captioning for very long videos which are common in video surveillance.

Published

2021

35. Geometric Change Detection in Digital Twins

Author

Mandar Tabib, Julia Maria Graham, Omer San, Adil Rasheed, and Tiril Sundby

Subjects

Background subtraction, Computer science, business.industry, Feature extraction, 020207 software engineering, Motion detection, 02 engineering and technology, 3D pose estimation, Convolutional neural network, Object detection, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Computer vision, Artificial intelligence, business, Pose, Change detection

Abstract

Digital twins are meant to bridge the gap between real-world physical systems and virtual representations. Both stand-alone and descriptive digital twins incorporate 3D geometric models, which are the physical representations of objects in the digital replica. Digital twin applications are required to rapidly update internal parameters with the evolution of their physical counterpart. Due to an essential need for having high-quality geometric models for accurate physical representations, the storage and bandwidth requirements for storing 3D model information can quickly exceed the available storage and bandwidth capacity. In this work, we demonstrate a novel approach to geometric change detection in a digital twin context. We address the issue through a combined solution of dynamic mode decomposition (DMD) for motion detection, YOLOv5 for object detection, and 3D machine learning for pose estimation. DMD is applied for background subtraction, enabling detection of moving foreground objects in real-time. The video frames containing detected motion are extracted and used as input to the change detection network. The object detection algorithm YOLOv5 is applied to extract the bounding boxes of detected objects in the video frames. Furthermore, we estimate the rotational pose of each object in a 3D pose estimation network. A series of convolutional neural networks (CNNs) conducts feature extraction from images and 3D model shapes. Then, the network outputs the camera orientation’s estimated Euler angles concerning the object in the input image. By only storing data associated with a detected change in pose, we minimize necessary storage and bandwidth requirements while still recreating the 3D scene on demand. Our assessment of the new geometric detection framework shows that the proposed methodology could represent a viable tool in emerging digital twin applications.

Published

2021

36. Threshold Modeling of Basic Statistical Methods for Effective Motion Detection in Video Surveillance

Author

Surender Singh

Subjects

Computer science, business.industry, General Mathematics, Frame (networking), Motion detection, Object motion, Education, Refresh rate, Computational Mathematics, Quality (physics), Computational Theory and Mathematics, Computer vision, Artificial intelligence, Precision and recall, business, Test data

Abstract

This paper empirical investigates two basic statistical methods namely Adaptive Median and Adaptive Mean for motion detection in video surveillance for the optimization of parameters namely threshold and the refresh rate of background frame used in these methods. Experimentation shows that the optimum choice of parameters majorly affects the quality of motion detection. The performance of methods for different parameters is measured using precision, recall and f1-score. PR curves are also drawn which are based on precision and recall values to show the effect of different parameters. Test data includes six data sets from different scenarios of ‘CDNet2012’. Experimental results verify that for every method there are fixed values of parameters with slight variations which gives better result of object motion. These parameter values can be used or adapted for future experimentation on these methods with respect to each scenario.

Published

2021

37. Fire Detection and Alarm Using Gaussian Blur Background Subtraction Technique

Author

Bhanumathi. M

Subjects

Background subtraction, Pixel, Computer science, Fire detection, business.industry, General Mathematics, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Gaussian blur, Motion detection, Image processing, Education, Computational Mathematics, Identification (information), symbols.namesake, Computational Theory and Mathematics, symbols, RGB color model, Computer vision, Artificial intelligence, business

Abstract

Fire outbreak is a major issue in oil wells, forests, houses, industries all over the world. The damage caused by these types of accidents is tremendous towards nature and humankind. After these incidents, the need for an application for fire detection has increased. However various fire detection systems use temperature or smoke sensors which takes more response time. Moreover, these systems are expensive and are not widely effective, when the fire is placed far away from the detectors. This led to various alternatives such as computer vision, image processing techniques. One of the cost-effective methods would be the usage of surveillance cameras to detect the fire to inform the relevant parties. The proposed research work suggests a method to use surveillance cameras to monitor the occurrence of fire anywhere within the camera range. In this method, an RGB color pattern and motion detection technologies are used to detect the fire by background subtraction method. The choice capacity of fire-pixels is concluded by the force and immersion of the R part. It has been used that finds the boundary of the moving region in the color segmented image and calculates the number of fire pixels in this area. At that point, a fire identification framework is created dependent on this technique to identify fire effectively to spare life and property from fireperil.

Published

2021

38. Falling motion detection algorithm based on deep learning

Author

Guangzhe Zhao, Xiaolong Zhang, Na Zhu, and Zhexue Jin

Subjects

Computer science, business.industry, Deep learning, Signal Processing, Computer vision, Motion detection, Computer Vision and Pattern Recognition, Artificial intelligence, Electrical and Electronic Engineering, business, Falling (sensation), Software

Published

2021

39. Deteksi Api pada Video dengan Gaussian Mixture Model Untuk Deteksi Gerakan Dan Segmentasi Warna Api Dalam Ruang Warna YCbCr

Author

Ristirianto Adi and I Gede Pasek Suta Wijaya

Subjects

business.industry, Computer science, Digital image processing, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Segmentation, Computer vision, Motion detection, Artificial intelligence, Mixture model, business, Ycbcr color space

Abstract

Fire is a disaster that can endanger lives and cause property loss. The solution to detect fire that is commonly used today is to use a sensor. Fire sensors can be used together with surveillance cameras (CCTV) which are now being installed in many office buildings. This study tries to build a model for detecting fire in video with a digital image processing approach using the Gaussian Mixture Model for motion detection and fire color segmentation in the YCbCr color space. The model is then tested with metrics for accuracy, precision, recall, and processing speed. The dataset used is in the form of videos with small, medium, large fire sizes, and videos that only have fire-like objects. The test results show that the algorithm is able to detect fire when the size of the fire is not too small or the position of the fire is close enough to the camera. For videos with a resolution of 800x600 and a framerate of 30 fps, it can achieve 66.89% accuracy, 73.77% precision, and 66.66% recall. The performance during the day is relatively better than at night. Algorithm processing speed is too slow to be implemented in real-time

Published

2021

40. Moving Object Detection by 3D Flow Field Analysis

Author

Yohan Fougerolle, Danda Pani Paudel, David Fofi, Cansen Jiang, and Cédric Demonceaux

Subjects

050210 logistics & transportation, Similarity (geometry), Computer science, business.industry, Mechanical Engineering, 05 social sciences, Point cloud, Motion detection, Object detection, Computer Science Applications, Flow (mathematics), 0502 economics and business, Automotive Engineering, Trajectory, Computer vision, Segmentation, Artificial intelligence, Cluster analysis, business

Abstract

Map-based localization and sensing are one of the key components in autonomous driving technologies, where high quality 3D map reconstruction is fundamentally utmost important. However, due to the highly dynamic and uncontrollable properties of real world environment, building a high quality 3D map is not straightforward and requires several strong assumptions. To address this challenge, we present a complete framework, which detects and extracts the moving objects from a sequence of unordered and texture-less point clouds, to build high quality static maps. To accurately detect the moving objects from data acquired with a possibly fast moving platform, we propose a novel 3D Flow Field Analysis approach in which we inspect the motion behaviour of the registered point sets. The proposed algorithm elegantly models the temporal and spatial displacement of the moving objects. Thus, both small moving objects ( e.g. walking pedestrians) and large moving objects ( e.g. moving trucks) can be detected effectively. Further, by incorporating the Sparse Subspace Clustering framework, we propose a Sparse Flow Clustering algorithm to group the 3D motion flows under both the constraints of motion similarity and spatial closeness. To this end, the static scene parts and the moving objects can be independently processed to achieve photo-realistic 3D reconstructions. Finally, we show that the proposed 3D Flow Field Analysis algorithm and the Sparse Flow Clustering approach are highly effective for motion detection and segmentation, as exemplified on the KITTI benchmark, and yield high quality reconstructed static-maps as well as rigidly moving objects.

Published

2021

41. Towards Low-Cost Sign Language Gesture Recognition Leveraging Wearables

Author

Hongbo Liu, Yingying Chen, Jian Liu, Yan Wang, and Tianming Zhao

Subjects

American Sign Language, Artificial neural network, Computer Networks and Communications, Computer science, business.industry, Wearable computer, 020206 networking & telecommunications, Motion detection, 02 engineering and technology, Sign language, language.human_language, Gesture recognition, 0202 electrical engineering, electronic engineering, information engineering, language, Computer vision, Artificial intelligence, Electrical and Electronic Engineering, Transfer of learning, business, Software, Gesture

Abstract

Different from traditional gestures, sign language gestures involve a lot of finger-level gestures without wrist or arm movements. They are hard to detect using existing motion sensors-based approaches. We introduce the first low-cost sign language gesture recognition system that can differentiate fine-grained finger movements using the Photoplethysmography (PPG) and motion sensors in commodity wearables. By leveraging the motion artifacts in PPG, our system can accurately recognize sign language gestures when there are large body movements, which cannot be handled by the traditional motion sensor-based approaches. We further explore the feasibility of using both PPG and motion sensors in wearables to improve the sign language gesture recognition accuracy when there are limited body movements. We develop a gradient boost tree (GBT) model and deep neural network-based model (i.e., ResNet) for classification. The transfer learning technique is applied to ResNet-based model to reduce the training effort. We develop a prototype using low-cost PPG and motions sensors and conduct extensive experiments and collect over 7000 gestures from 10 adults in the static and body-motion scenarios. Results demonstrate that our system can differentiate nine finger-level gestures from the American Sign Language with an average recognition accuracy over 98 percent.

Published

2021

42. Bio-inspired visual neural network on spatio-temporal depth rotation perception

Author

Bin Hu and Zhuhong Zhang

Subjects

0209 industrial biotechnology, Property (programming), Machine vision, Computer science, media_common.quotation_subject, 02 engineering and technology, 020901 industrial engineering & automation, Artificial Intelligence, Lateral inhibition, Postsynaptic potential, Perception, 0202 electrical engineering, electronic engineering, information engineering, medicine, Computer vision, media_common, Quantitative Biology::Neurons and Cognition, Artificial neural network, business.industry, Cognitive neuroscience of visual object recognition, Motion detection, Object detection, medicine.anatomical_structure, Cerebral cortex, 020201 artificial intelligence & image processing, Artificial intelligence, business, Rotation (mathematics), Software

Abstract

In primates’ cerebral cortex, depth rotation sensitive (DRS) neurons have the property of preferential selectivity for depth rotation motion, whereas such a property is rarely adopted to create computational models for depth rotation motion detection. To fill this gap, a novel feedforward visual neural network is developed to execute depth rotation object detection, based on the recent neurophysiologic achievements on the mammalian vision system. The proposed neural network consists of two parts, i.e., presynaptic and postsynaptic neural networks. The former comprises multiple lateral inhibition neural sub-networks for the capture of visual motion information, and the latter extracts the cues of translational and depth motion and later, synthesizes such clues to perceive the process of depth rotation of an object. Experimentally, the neural network is sufficiently examined by different types of depth rotation under multiple conditions and settings. Numerical experiments show that not only it can effectively detect the spatio-temporal energy change of depth rotation of a moving object, but also its output excitation curve is a quasi-sinusoidal one, which is compatible with the hypothesis suggested by Johansson and Jansson in projective geometry. This research is a critical step toward the construction of artificial vision system for depth rotation object recognition.

Published

2021

43. Simulation of athletes’ motion detection and recovery technology based on monocular vision and biomechanics

Author

Zhuo Bi, Yuanxiang Deng, and Liping Deng

Subjects

Statistics and Probability, medicine.medical_specialty, biology, Computer science, Athletes, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, General Engineering, Biomechanics, 020206 networking & telecommunications, Motion detection, 02 engineering and technology, biology.organism_classification, Physical medicine and rehabilitation, Artificial Intelligence, 0202 electrical engineering, electronic engineering, information engineering, medicine, 020201 artificial intelligence & image processing, Monocular vision

Abstract

Athletes’ sports detection has a heavy pressure on athletes’ training and post-injury rehabilitation. In the traditional mobilization test, there is no effective combination of exercise and rehabilitation, which directly leads to the athlete’s physical health cannot be guaranteed. Based on this, this study combines the current situation of the athletes’ field and the training ground, and uses monocular vision as the video input interface, and combines the monocular vision technology in the research. Moreover, in the research, this paper combines the human body model to construct an athlete’s human body model that adapts to monocular vision. At the same time, this paper combines the image processing technology to transform the image of the monocular visual athlete into a skeleton model, so as to realize the modeling of the athlete’s movement. In addition, this paper combines the model to explore the indoor and outdoor athlete recovery techniques and validates the model by experiment. The research shows that the research model has certain effects, which can meet the actual needs, and can provide theoretical reference for subsequent related research.

Published

2021

44. Methods of Analysis

Author

Andrei I. Holodny, Kyung K. Peck, and Nicholas S. Cho

Subjects

Data processing, business.industry, Process (engineering), Motion detection, General Medicine, Machine learning, computer.software_genre, 030218 nuclear medicine & medical imaging, Task (project management), 03 medical and health sciences, 0302 clinical medicine, Presurgical planning, Medicine, Radiology, Nuclear Medicine and imaging, Statistical analysis, Neurology (clinical), Artificial intelligence, business, computer, 030217 neurology & neurosurgery

Abstract

There are many technical and nontechnical steps involved in a successful clinical functional MRI (fMRI) scan. The output from scanning and analysis can only be as good as the input, so task instruction and rehearsal are the most important steps during an clinical fMRI procedure. Properly pre-processed data significantly affects statistical analysis, which has a great impact on image interpretation. Even though there is general agreement on how to process clinical fMRI data, such as algorithms for head motion detection and correction, the theory and practicalities associated with data processing remain complex and constantly evolving.

Published

2021

45. Robust Video Frame Interpolation With Exceptional Motion Map

Author

Minho Park, Hak Gu Kim, Yong Man Ro, and Sangmin Lee

Subjects

business.industry, Computer science, Frame (networking), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Optical flow, Motion detection, 02 engineering and technology, Video processing, Motion (physics), Position (vector), 0202 electrical engineering, electronic engineering, information engineering, Media Technology, 020201 artificial intelligence & image processing, Computer vision, Artificial intelligence, Electrical and Electronic Engineering, Motion interpolation, business, ComputingMethodologies_COMPUTERGRAPHICS, Interpolation

Abstract

Video frame interpolation has increasingly attracted attention in computer vision and video processing fields. When motion patterns in a video are complex, large and non-linear (exceptional motion), the generated intermediate frame is blurred and likely to have large artifacts. In this paper, we propose a novel video frame interpolation considering the exceptional motion patterns. The proposed video frame interpolation takes into account an exceptional motion map that contains the location and intensity of the exceptional motion. The proposed method consists of three parts, which are optical flow based frame interpolation, exceptional motion detection, and frame refinement. The optical flow based frame interpolation predicts an optical flow which is used to synthesize the pre-generated intermediate frame. The exceptional motion detection detects the position and intensity of complex and large motion with the current frame and the previous frame sequence. The frame refinement focuses on the exceptional motion region of the pre-generated intermediate frame by using the exceptional motion map. The proposed video frame interpolation can be robust against the exceptional motion including complex and large motion. Experimental results showed that the proposed video frame interpolation achieved high performance on various public video datasets and especially on videos with exceptional motion patterns.

Published

2021

46. Free induction decay navigator motion metrics for prediction of diagnostic image quality in pediatric MRI

Author

Monet Dugan, Joanne Rispoli, Onur Afacan, Tess E. Wallace, Tobias Kober, Kristina Pelkola, Camilo Jaimes, and Simon K. Warfield

Subjects

Adolescent, Full Papers—Imaging Methodology, Computer science, Image quality, artifacts, anesthesia, Motion (physics), 030218 nuclear medicine & medical imaging, Correlation, Motion, 03 medical and health sciences, 0302 clinical medicine, motion detection, Humans, Radiology, Nuclear Medicine and imaging, Sensitivity (control systems), head motion, Child, Retrospective Studies, Full Paper, business.industry, Infant, Newborn, Brain, Infant, Pattern recognition, Motion detection, Magnetic Resonance Imaging, free induction decay navigators, Benchmarking, Pediatric patient, sedation, pediatric neuroimaging, Child, Preschool, Metric (unit), Artificial intelligence, business, Algorithms, 030217 neurology & neurosurgery, Motion monitoring

Abstract

Purpose To investigate the ability of free induction decay navigator (FIDnav)-based motion monitoring to predict diagnostic utility and reduce the time and cost associated with acquiring diagnostically useful images in a pediatric patient cohort., Methods A study was carried out in 102 pediatric patients (aged 0-18 years) at 3T using a 32-channel head coil array. Subjects were scanned with an FID-navigated MPRAGE sequence and images were graded by two radiologists using a five-point scale to evaluate the impact of motion artifacts on diagnostic image quality. The correlation between image quality and four integrated FIDnav motion metrics was investigated, as well as the sensitivity and specificity of each FIDnav-based metric to detect different levels of motion corruption in the images. Potential time and cost savings were also assessed by retrospectively applying an optimal detection threshold to FIDnav motion scores., Results A total of 12% of images were rated as non-diagnostic, while a further 12% had compromised diagnostic value due to motion artifacts. FID-navigated metrics exhibited a moderately strong correlation with image grade (Spearman's rho >= 0.56). Integrating the cross-correlation between FIDnav signal vectors achieved the highest sensitivity and specificity for detecting non-diagnostic images, yielding total time savings of 7% across all scans. This corresponded to a financial benefit of $2080 in this study., Conclusions Our results indicate that integrated motion metrics from FIDnavs embedded in structural MRI are a useful predictor of diagnostic image quality, which translates to substantial time and cost savings when applied to pediatric MRI examinations.

Published

2021

47. Wild Animal Recognition Method for Videos Using a Combination of Deep Learning and Motion Detection

Subjects

business.industry, Computer science, Deep learning, Computer vision, Motion detection, Artificial intelligence, business

Published

2021

48. Moving Object Segmentation and Detection for Robust RGBD-SLAM in Dynamic Environments

Author

Minhua Zheng, Wanfang Xie, and Peter X. Liu

Subjects

Computer science, business.industry, 020208 electrical & electronic engineering, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Optical flow, Inpainting, Motion detection, 02 engineering and technology, Simultaneous localization and mapping, Data set, Feature (computer vision), 0202 electrical engineering, electronic engineering, information engineering, RGB color model, Segmentation, Computer vision, Artificial intelligence, Electrical and Electronic Engineering, business, Instrumentation

Abstract

Localization accuracy is a fundamental requirement for Simultaneous Localization and Mapping (SLAM) systems. Traditional visual SLAM (vSLAM) schemes are usually based upon the assumption of static environments, so they do not perform well in dynamic environments. While a number of vSLAM frameworks have been reported for dynamic environments, the localization accuracy is usually unsatisfactory. In this article, we present a novel motion detection and segmentation method using Red Green Blue-Depth (RGB-D) data to improve the localization accuracy of feature-based RGB-D SLAM in dynamic environments. To overcome the problem due to undersegmentation generated by the semantic segmentation network, a mask inpainting method is developed to ensure the completeness of object segmentation. In the meantime, an optical flow-based motion detection method is proposed to detect dynamic objects from moving cameras, allowing robust detection by removing irrelevant information. Experiments performed on the public Technical University of Munich (TUM) RGB-D data set show that the presented scheme outperforms the state-of-art RGB-D SLAM systems in terms of trajectory accuracy, improving the localization accuracy of RGB-D SLAM in dynamic environments.

Published

2021

49. LiCaNext: Incorporating Sequential Range Residuals for Additional Advancement in Joint Perception and Motion Prediction

Author

Yasser H. Khalil and Hussein T. Mouftah

Subjects

General Computer Science, Computer science, 020209 energy, media_common.quotation_subject, motion prediction, Inference, Monotonic function, 02 engineering and technology, perception, Residual, Perception, 0202 electrical engineering, electronic engineering, information engineering, Range (statistics), General Materials Science, Computer vision, media_common, multi-modal fusion, business.industry, General Engineering, deep learning, residual image, Contrast (statistics), Motion detection, TK1-9971, Lidar, Autonomous driving, 020201 artificial intelligence & image processing, Electrical engineering. Electronics. Nuclear engineering, Artificial intelligence, business

Abstract

Autonomous driving can obtain accurate perception and reliable motion prediction with the support of multi-modal fusion. Recently, there has been growing interest in leveraging features from various onboard sensors to enhance the primary stages of autonomous driving. This paper proposes LiCaNext to capture additional accuracy advancements in joint perception and motion prediction while maintaining real-time requirements. LiCaNext is the next version of LiCaNet, which fuses LIDAR data in both bird’s-eye view (BEV) and range view (RV) representations with a camera image. In contrast to LiCaNet, we introduce sequential range residual images into the multi-modal fusion network to further improve performance, with minimal increase in inference time. Employing sequential range residual images has a substantial direct impact on motion prediction and positively influences perception. We provide an extensive evaluation on the public nuScenes dataset. Our experiments show that incorporating sequential range residuals secures significant performance gain, with monotonic progress for a larger number of exploited residuals.

Published

2021

50. Interactive Holographic Display for Real-Time Drawing and Erasing of 3D Point-Cloud Images With a Fingertip

Author

Takashi Kakue, Tomoyoshi Ito, Tomoyoshi Shimobaba, and Mikito Takenaka

Subjects

General Computer Science, Computer science, Holography, Point cloud, 02 engineering and technology, Iterative reconstruction, computer-generated hologram, 01 natural sciences, law.invention, 010309 optics, Position (vector), law, 0103 physical sciences, General Materials Science, Computer vision, business.industry, Frame (networking), General Engineering, Motion detection, Observer (special relativity), 021001 nanoscience & nanotechnology, display, user interface, Holographic display, Artificial intelligence, lcsh:Electrical engineering. Electronics. Nuclear engineering, 0210 nano-technology, business, lcsh:TK1-9971

Abstract

We demonstrate an interactive holographic display system for real-time drawing and erasing of 3D point-cloud images. This system detects the position of the observer’s fingertip with a motion sensor, which it uses to calculate the complex amplitude distribution for the hologram. Because the calculated distribution is added to or subtracted from the complex amplitude distribution of the previous frame, the calculation time per frame is independent of the number of points comprising the 3D point cloud. Then, the system can quickly update the hologram even when the number of points comprising the 3D point cloud is increased. Because the 3D point-cloud image reconstructed from the calculated hologram is projected at the same position as the observer’s fingertip with almost no latency, the system can draw and erase a 3D point-cloud image through interactions with the observer’s fingertip. We experimentally confirmed that the system successfully draws and erases a 3D point-cloud image.

Published

2021