Your search keyword '"human posture identification"' showing total 6 results

1. Lightweight Deep Neural Network Embedded with Stochastic Variational Inference Loss Function for Fast Detection of Human Postures.

Author

Hsu, Feng-Shuo, Su, Zi-Jun, Kao, Yamin, Tsai, Sen-Wei, Lin, Ying-Chao, Tu, Po-Hsun, Gong, Cihun-Siyong Alex, and Chen, Chien-Chang

Subjects

*ARTIFICIAL neural networks, *GAUSSIAN mixture models, *OBJECT recognition (Computer vision), *FUZZY neural networks, *POSTURE, *BAYESIAN analysis

Abstract

Fusing object detection techniques and stochastic variational inference, we proposed a new scheme for lightweight neural network models, which could simultaneously reduce model sizes and raise the inference speed. This technique was then applied in fast human posture identification. The integer-arithmetic-only algorithm and the feature pyramid network were adopted to reduce the computational complexity in training and to capture features of small objects, respectively. Features of sequential human motion frames (i.e., the centroid coordinates of bounding boxes) were extracted by the self-attention mechanism. With the techniques of Bayesian neural network and stochastic variational inference, human postures could be promptly classified by fast resolving of the Gaussian mixture model for human posture classification. The model took instant centroid features as inputs and indicated possible human postures in the probabilistic maps. Our model had better overall performance than the baseline model ResNet in mean average precision (32.5 vs. 34.6), inference speed (27 vs. 48 milliseconds), and model size (46.2 vs. 227.8 MB). The model could also alert a suspected human falling event about 0.66 s in advance. [ABSTRACT FROM AUTHOR]

Published

2023

2. Lightweight Deep Neural Network Embedded with Stochastic Variational Inference Loss Function for Fast Detection of Human Postures

Author

Feng-Shuo Hsu, Zi-Jun Su, Yamin Kao, Sen-Wei Tsai, Ying-Chao Lin, Po-Hsun Tu, Cihun-Siyong Alex Gong, and Chien-Chang Chen

Subjects

bayesian neural networks, gaussian mixture model, human posture identification, integer-arithmetic-only, lightweight neural networks, self-attention, Science, Astrophysics, QB460-466, Physics, QC1-999

Abstract

Fusing object detection techniques and stochastic variational inference, we proposed a new scheme for lightweight neural network models, which could simultaneously reduce model sizes and raise the inference speed. This technique was then applied in fast human posture identification. The integer-arithmetic-only algorithm and the feature pyramid network were adopted to reduce the computational complexity in training and to capture features of small objects, respectively. Features of sequential human motion frames (i.e., the centroid coordinates of bounding boxes) were extracted by the self-attention mechanism. With the techniques of Bayesian neural network and stochastic variational inference, human postures could be promptly classified by fast resolving of the Gaussian mixture model for human posture classification. The model took instant centroid features as inputs and indicated possible human postures in the probabilistic maps. Our model had better overall performance than the baseline model ResNet in mean average precision (32.5 vs. 34.6), inference speed (27 vs. 48 milliseconds), and model size (46.2 vs. 227.8 MB). The model could also alert a suspected human falling event about 0.66 s in advance.

Published

2023

3. Human Posture Identification Using a MIMO Array.

Author

Sasakawa, Dai, Honma, Naoki, Nakayama, Takeshi, and Iizuka, Shoichi

Subjects

POSTURE, ACCIDENTAL falls in old age, MIMO radar, DOPPLER radar, NUCLEAR cross sections

Abstract

The elderly are constantly in danger of falling and injuring themselves without anyone realizing it. A safety-monitoring system based on microwaves can ease these concerns. The authors have proposed safety-monitoring systems that use multiple-input multiple-output (MIMO) radar to localize persons by capturing their biological activities such as respiration. However, our studies to date have focused on localization, which is easier to achieve than an estimation of human postures. This paper proposes a human posture identification scheme based on height and a Doppler radar cross section (RCS) as estimated by a MIMO array. This scheme allows smart home applications to dispense with contact and wearable devices. Experiments demonstrate that this method can identify the supine position (i.e., after a fall) with 100% accuracy, and the average identification rate is 95.0%. [ABSTRACT FROM AUTHOR]

Published

2018

4. Human Posture Identification Using a MIMO Array

Author

Dai Sasakawa, Shoichi Iizuka, Naoki Honma, and Takeshi Nakayama

Subjects

Scheme (programming language), 0209 industrial biotechnology, MIMO array, Computer Networks and Communications, Computer science, Doppler radar, MIMO, lcsh:TK7800-8360, 02 engineering and technology, localization, law.invention, 020901 industrial engineering & automation, law, Doppler RCS, 0202 electrical engineering, electronic engineering, information engineering, Computer vision, Electrical and Electronic Engineering, Radar, human posture identification, computer.programming_language, business.industry, lcsh:Electronics, 020206 networking & telecommunications, Identification (information), Hardware and Architecture, Control and Systems Engineering, Signal Processing, Artificial intelligence, business, computer, Microwave

Abstract

The elderly are constantly in danger of falling and injuring themselves without anyone realizing it. A safety-monitoring system based on microwaves can ease these concerns. The authors have proposed safety-monitoring systems that use multiple-input multiple-output (MIMO) radar to localize persons by capturing their biological activities such as respiration. However, our studies to date have focused on localization, which is easier to achieve than an estimation of human postures. This paper proposes a human posture identification scheme based on height and a Doppler radar cross section (RCS) as estimated by a MIMO array. This scheme allows smart home applications to dispense with contact and wearable devices. Experiments demonstrate that this method can identify the supine position (i.e., after a fall) with 100% accuracy, and the average identification rate is 95.0%.

Published

2018

5. Capacitive Sensing Device in a Postural Control System

Author

Marinović, Ivan, Čoko, Duje, and Zanchi, Igor

Subjects

human posture identification, proximity sensing, theremin, Butler’ s oscillator, posturography, least square method, curve fitting

Abstract

This paper presents a theremin used as a sensing device which provides a DC voltage output proportional to distance between the device and a human body in standing position. This device consists of a pair of Butler’ s oscillators, a heterodyning mixer, a low-pass 4th order Butterworth filter and a frequency- to-voltage converter. Output signal may be sent to another device such as an actuator or a measurement module, depending on the application type. Three sets of measurements for various types of sensing electrodes have been taken, and a third degree polynomial function has been fitted using a least square method.

Published

2008

6. Theremin in Human Posture Identification

Author

Marinović, Ivan, Čoko, Duje, Blažević, Zoran, Zanchi, Igor, Zanchi, Vlasta, Revetria, Roberto, Cecchi, Antonella, Mladenov, Valeri, and Zemliak, Alexander

Subjects

human posture identification, proximity sensing, theremin, Butler’ s oscillator

Abstract

This paper presents a theremin used as a sensing device which provides a DC voltage output proportional to distance between the device and a human body in standing position. This device consists of a pair of Butler’ s oscillators, a heterodyning mixer, a low-pass 4th order Butterworth filter and a frequency-to-voltage converter. Output signal may be sent to another device such as an actuator or a measurement module, depending on the application type.

Published

2007