Your search keyword '"motion frequency"' showing total 10 results

1. Effects of simulated motion frequency related to road quality on the welfare and recovery of transported largemouth bass (Micropterus salmoides).

Author

Yang, Yifei, Narayan, Edward, Phillips, Clive J.C., Rey Planellas, Sonia, Zheng, Lu, Ruan, Xiaofang, Tegomo, Arnaud Fabrice, Shih, Hao-Yu, Shao, Qingjun, and Descovich, Kris

Subjects

*ENVIRONMENTAL enrichment, *LARGEMOUTH bass fishing, *TREATMENT effectiveness, *FISH physiology, *BLOOD sugar

Abstract

Farmed fish are commonly transported between various facilities by road vehicles, resulting in inevitable exposure to uncontrolled and oscillatory movements, likely exacerbated by poor road conditions. The effect of road quality on livestock has been studied during live transport, but research into the impact of motion has been rarely examined with fish. This study investigated the effects of different motion frequencies related to road quality on the welfare and recovery of largemouth bass (Micropterus salmoides). Three motion frequencies were examined in this study using a non-transported control, a simulated "rough" transport treatment, and a simulated "smooth" transport treatment. Live transport was carried out for 3 h using a motion simulation platform with a movement frequency of 1.0 and 1.8 Hz for the smooth and rough treatment, respectively. Control fish were kept in static tanks for the same duration to obtain basal physiology, behaviour, and flesh quality. Water parameters were measured before and immediately after simulated transport in all groups. Behavioural, physiological, and muscle parameters were measured before simulated transport, as well as 0 h and 24 h post-transport. Total ammonia nitrogen levels increased in all treatments over time (p < 0.001), with significantly higher values observed in transported groups. Non-transported fish displayed increased biting (p = 0.025), chasing (p = 0.010), and threatening (p = 0.003) behaviour over time, suggesting potential fasting and confinement stress. During the post-transport period, a significant main effect of treatment and timepoint on freezing and thigmotaxis behaviour was found, with an increase in these behaviours over time and significantly higher levels between control and smooth transported groups. Nevertheless, aggressive behaviours were affected only by timepoint, with an increase observed between 0 h and 24 h post-transport. Neither plasma biochemical indicators nor flesh quality differed between treatments, while a significant effect of timepoint was found for plasma glucose (p = 0.045), p lasma lactate (p = 0.021), and muscle pH (p < 0.001). Our study consequently did not find rough transport to impact fish physiology and flesh quality more than smooth transport, but behavioural results suggest there was a strong combined effect of fasting, exposure to a novel environment, and confinement over time. Future research would be valuable to study these effects on the welfare of transported bass, allowing for a longer recovery time and the use of potential mitigation options such as environmental enrichment. • Water deterioration is highly associated with simulated transport. • Fasting and confinement may increase aggression in largemouth bass. • Simulated transport can alter anxiety-like behaviours of largemouth bass. • Motion frequency at 1.8 Hz did not compromise bass physiology and flesh quality. [ABSTRACT FROM AUTHOR]

Published

2024

2. Vision skeleton trajectory based motion assessment system for healthcare rehabilitation

Author

Qinghongya Shi, Hong-Bo Zhang, Li-Jia Dong, Qing Lei, and Tsung-Chih Hsiao

Subjects

image sensors, image motion analysis, image recognition, video signal processing, image sequences, pose estimation, feature extraction, regression analysis, cameras, motion estimation, vision skeleton trajectory based motion assessment system, contact sensor, infrared sensor, depth sensor, digital camera, light camera, pattern regression problem, skeleton joint trajectory, body skeleton, motion frequency, joint trajectory feature, motion quality, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Most existing methods of motion assessment system used the contact sensor, infrared sensor, and depth sensor, and few works provided the solution of digital camera. To solve this problem, the authors propose a new motion assessment system based on light camera. In this work, the motion assessment was regarded as pattern regression problem of skeleton joint trajectory. Firstly, the system uses the camera to capture the image sequences. The pose estimation method is used to obtain body skeleton from image. Secondly, due to the difference of motion frequency of each person, the length of the image sequences is different and the length of each joint trajectory also will be different. Fourier transform is applied to normalise the trajectory and use the coefficients of Fourier transform as the joint trajectory feature. Finally, the regression model is built to assess the motion quality. Some experimental results and discussion on action video data are used to verify the effectiveness of the system.

Published

2020

3. Vision skeleton trajectory based motion assessment system for healthcare rehabilitation.

Author

Shi, Qinghongya, Zhang, Hong-Bo, Dong, Li-Jia, Lei, Qing, and Hsiao, Tsung-Chih

Subjects

MOTION analysis, IMAGE recognition (Computer vision), VIDEO processing, FEATURE extraction, DIGITAL cameras

Abstract

Most existing methods of motion assessment system used the contact sensor, infrared sensor, and depth sensor, and few works provided the solution of digital camera. To solve this problem, the authors propose a new motion assessment system based on light camera. In this work, the motion assessment was regarded as pattern regression problem of skeleton joint trajectory. Firstly, the system uses the camera to capture the image sequences. The pose estimation method is used to obtain body skeleton from image. Secondly, due to the difference of motion frequency of each person, the length of the image sequences is different and the length of each joint trajectory also will be different. Fourier transform is applied to normalise the trajectory and use the coefficients of Fourier transform as the joint trajectory feature. Finally, the regression model is built to assess the motion quality. Some experimental results and discussion on action video data are used to verify the effectiveness of the system. [ABSTRACT FROM AUTHOR]

Published

2020

4. 57‐2: A New Approach to Motion Frequency Metrics Quantifies Motion‐induced Blur.

Author

Stolitzka, Dale, Chong, Jong-Ho, Xiong, Wei, Lee, ChangHee, and Kwag, Jinoh

Subjects

IMAGE processing, MOTION

Abstract

An objective metric has been created to characterize motion blur for equipment makers and product reviewers. This procedure can directly measure moving‐edge blur and process images to account for eye pursuit, frame rate and luminance. The advancement produces a motion frequency value that can be readily understood by the consumer. [ABSTRACT FROM AUTHOR]

Published

2020

5. The effect of motion frequency and sound source frequency on steady-state auditory motion evoked potential.

Author

Zhang, Huanqing, Xie, Jun, Tao, Qing, Xiao, Yi, Cui, Guiling, Fang, Wenhu, Zhu, Xinyu, Xu, Guanghua, Li, Min, and Han, Chengcheng

Subjects

*AUDIO frequency, *AUDITORY evoked response, *PERIODIC motion, *AUDITORY perception, *TRANSFER functions

Abstract

• SSMAEP elicited by 500 Hz pure tones was the strongest at 6 Hz. • SSMAEP was mainly in the temporal and frontal lobes. • Low-frequency pure tones enhanced SSMAEP at low-frequency sound motion. • High-frequency pure tones enhanced SSMAEP at high-frequency sound motion. The ability of humans to perceive motion sound sources is important for accurate response to the living environment. Periodic motion sound sources can elicit steady-state motion auditory evoked potential (SSMAEP). The purpose of this study was to investigate the effects of different motion frequencies and different frequencies of sound source on SSMAEP. The stimulation paradigms for simulating periodic motion of sound sources were designed utilizing head-related transfer function (HRTF) techniques in this study. The motion frequencies of the paradigm are set respectively to 1-10 Hz, 15 Hz, 20 Hz, 30 Hz, 40 Hz, 60 Hz, and 80 Hz. In addition, the frequencies of sound source of the paradigms were set to 500 Hz, 1000 Hz, 2000 Hz, 3000 Hz, and 4000 Hz at motion frequencies of 6 Hz and 40 Hz. Fourteen subjects with normal hearing were recruited for the study. SSMAEP was elicited by 500 Hz pure tone at motion frequencies of 1-10 Hz, 15 Hz, 20 Hz, 30 Hz, 40 Hz, 60 Hz, and 80 Hz. SSMAEP was strongest at motion frequencies of 6 Hz. Moreover, at 6 Hz motion frequency, the SSMAEP amplitude was largest at the tone frequency of 500 Hz and smallest at 4000 Hz. Whilst SSMAEP elicited by 4000 Hz pure tone was significantly the strongest at motion frequency of 40 Hz. SSMAEP can be elicited by periodic motion sound sources at motion frequencies up to 80 Hz. SSMAEP also has a strong response at lower frequency. Low-frequency pure tones are beneficial to enhance SSMAEP at low-frequency sound source motion, whilst high-frequency pure tones help to enhance SSMAEP at high-frequency sound source motion. The study provides new insight into the brain's perception of rhythmic auditory motion. [ABSTRACT FROM AUTHOR]

Published

2023

6. Viscoelasticity and shear-thinning effects on bio-polymer solution and suspended particle behaviours under oscillatory curve Couette flow conditions

Author

Alaleh Safari, Nazanin Emami, and Michel Jose Cervantes

Subjects

lubricants, polymer solutions, Couette flow, non-Newtonian flow, lubrication, fluid oscillations, shear flow, biomechanics, elasticity, wear resistance, flow visualisation, viscoelasticity, prosthetics, biomedical materials, suspensions, two-phase flow, failure (mechanical), channel flow, total hip replacement, bearing surfaces, wear particle distribution patterns, implant gap, design parameters, human joint synovial fluid, microparticle image velocimetry, motion frequency, biolubricant flows, suspended particles, fluid shear thinning, biopolymer solution, oscillatory curve Couette flow, curved minichannels, cross-stream migration, Biotechnology, TP248.13-248.65, Biochemistry, QD415-436

Abstract

Formation of wear particles within total hip replacement is one of the main causes of its failure. In addition to improving the lubrication and wear resistance of materials used as bearing surfaces, understanding of wear particle distribution patterns within lubricants inside an implant gap could be used to improve design parameters and implants’ lifespan. In this study, the behaviours of biolubricants (with compositions similar to human joint synovial fluid) and suspended particles were investigated by micro-particle image velocimetry in curved mini channels under oscillatory Couette flow conditions. The studied biolubricants had shear-thinning viscoelastic characteristics. The authors found that increasing shear-thinning, elasticity or motion frequency levels did not affect the trend behaviours of biolubricant flows due to the low strain values of the experimental conditions applied. However, suspended particles formed strings along flow directions and exhibited cross-stream migration to channel walls. Motion frequency, fluid shear thinning and elasticity characteristics and channel dimensions strongly affected particle behaviours.

Published

2018

7. Vision skeleton trajectory based motion assessment system for healthcare rehabilitation

Author

Li-Jia Dong, Qing Lei, Tsung-Chih Hsiao, Qinghongya Shi, and Hong-Bo Zhang

Subjects

business.product_category, Computer science, Feature extraction, body skeleton, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Energy Engineering and Power Technology, image sensors, 02 engineering and technology, pattern regression problem, image motion analysis, pose estimation, light camera, motion quality, regression analysis, motion estimation, symbols.namesake, Motion estimation, cameras, 0202 electrical engineering, electronic engineering, information engineering, depth sensor, digital camera, Computer vision, Image sensor, joint trajectory feature, Pose, video signal processing, Digital camera, vision skeleton trajectory based motion assessment system, business.industry, feature extraction, motion frequency, General Engineering, image sequences, 020206 networking & telecommunications, Fourier transform, image recognition, Feature (computer vision), contact sensor, infrared sensor, lcsh:TA1-2040, Trajectory, symbols, 020201 artificial intelligence & image processing, Artificial intelligence, skeleton joint trajectory, business, lcsh:Engineering (General). Civil engineering (General), Software

Abstract

Most existing methods of motion assessment system used the contact sensor, infrared sensor, and depth sensor, and few works provided the solution of digital camera. To solve this problem, the authors propose a new motion assessment system based on light camera. In this work, the motion assessment was regarded as pattern regression problem of skeleton joint trajectory. Firstly, the system uses the camera to capture the image sequences. The pose estimation method is used to obtain body skeleton from image. Secondly, due to the difference of motion frequency of each person, the length of the image sequences is different and the length of each joint trajectory also will be different. Fourier transform is applied to normalise the trajectory and use the coefficients of Fourier transform as the joint trajectory feature. Finally, the regression model is built to assess the motion quality. Some experimental results and discussion on action video data are used to verify the effectiveness of the system.

Published

2020

8. Viscoelasticity and shear-thinning effects on bio-polymer solution and suspended particle behaviours under oscillatory curve Couette flow conditions

Author

Michel Cervantes, Nazanin Emami, and Alaleh Safari

Subjects

oscillatory curve Couette flow, Strömningsmekanik och akustik, 02 engineering and technology, channel flow, 01 natural sciences, 0203 mechanical engineering, Teknik och teknologier, polymer solutions, lcsh:QD415-436, Composite material, prosthetics, viscoelasticity, lubrication, human joint synovial fluid, Shear thinning, Fluid Mechanics and Acoustics, 010304 chemical physics, wear particle distribution patterns, motion frequency, Surfaces, Coatings and Films, 020303 mechanical engineering & transports, suspended particles, Tribology (Interacting Surfaces including Friction, Lubrication and Wear), Tribologi (ytteknik omfattande friktion, nötning och smörjning), Lubrication, Engineering and Technology, Two-phase flow, design parameters, Shear flow, Materials science, shear flow, lcsh:Biotechnology, Biomedical Engineering, Biophysics, implant gap, failure (mechanical), wear resistance, Viscoelasticity, biomechanics, Biomaterials, lcsh:Biochemistry, flow visualisation, lcsh:TP248.13-248.65, 0103 physical sciences, suspensions, Couette flow, non-Newtonian flow, fluid shear thinning, biomedical materials, fluid oscillations, Mechanical Engineering, microparticle image velocimetry, cross-stream migration, biolubricant flows, lubricants, Open-channel flow, total hip replacement, two-phase flow, bearing surfaces, curved minichannels, Particle, elasticity, human activities, biopolymer solution

Abstract

Formation of wear particles within total hip replacement is one of the main causes of its failure. In addition to improving the lubrication and wear resistance of materials used as bearing surfaces, understanding of wear particle distribution patterns within lubricants inside an implant gap could be used to improve design parameters and implants’ lifespan. In this study, the behaviours of biolubricants (with compositions similar to human joint synovial fluid) and suspended particles were investigated by micro-particle image velocimetry in curved mini channels under oscillatory Couette flow conditions. The studied biolubricants had shear-thinning viscoelastic characteristics. The authors found that increasing shear-thinning, elasticity or motion frequency levels did not affect the trend behaviours of biolubricant flows due to the low strain values of the experimental conditions applied. However, suspended particles formed strings along flow directions and exhibited cross-stream migration to channel walls. Motion frequency, fluid shear thinning and elasticity characteristics and channel dimensions strongly affected particle behaviours. Validerad;2018;Nivå 1;2018-08-16 (andbra)

Published

2018

9. Investigations on the Influence of Continuous Driving on the Motion Activity of Vehicle Drivers

Author

Lemke, M., Cullen, J., editor, Siegrist, J., editor, and Wegmann, H. M., editor

Published

1984

10. The effect of passive warming up on human legs muscles' power output while performing veloergometric test and vertical jumps

Author

Vlasenko, Vitalijus, Gailiūnienė, Alina, Vaitauskienė, Vida, Lekas, Raimundas, Streckis, Vytautas, Muckus, Kazimieras, Stasiulis, Arvydas, Kandratavičius, Evaldas, Skurvydas, Albertas, and Lithuanian Academy of Physical Education

Subjects

Atsispyrimo greitis, Power output, motion frequency, Judesių dažnumas, set off speed, atsispyrimo greitis, Set off speed, judesių dažnumas, Galingumas, atsispyrimo jėga, pasyvus šildymas, set off strength, power output, passive warming up, Pasyvus šildymas, Set off strength, Motion frequency, Passive warming up, galingumas, Biology, Atsispyrimo jėga

Abstract

The aim of the study is to determine effects of passive warming up on muscle contraction force while performing maximum intensity short veloergometric test and vertical jumps. Untrained healthy males took part in both experiments within the study. Subjects (n=13) had to perform maximal veloergometric effort with different resistance (3% and 10% of their own weight) for 5 seconds during first test. Then they performed passive warming up and repeated the test. Maximal motion frequency and power output were determined. Other subjects (n=14) had to perform maximal single jumps (one with squat and one without) during second test. Then they performed passive warming up and repeated the test. Maximal set off speed, strength, power output and jump height were determined. Maximal motion frequency and maximal power output after passive warming up in veloergometric test were significantly (p

Published

2005