Markerless motion capture for 3D human model animation using depth camera

Galinium, Maulahikmah; Yapri, Jason; Purnama, James

doi:10.12928/telkomnika.v17i3.8939

Cited by 3 publications

(4 citation statements)

References 12 publications

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“…where normal vector of a hyperplane is represented by ′𝜔′ and an offset from the origin along this normal vector is represented by 'd'. Equation (3) can be expressed using the Karush-Kuhn-Tucker (KKT) conditions having Lagrangian multipliers, as (5):…”

Section: Methodsmentioning

confidence: 99%

“…For example, a time-consuming data processing with expertise to interpret the processed dataset and comment on the output is required for 3D motion capture systems. Although a fast and economical solution for motion capture device could be a single Microsoft Kinect v2 sensor, it has many limitations that made it unreliable to be used for wide variety of movements [5]. Visual assessment contains, generally, force plates, electromyography (EMG), footswitches, and motion capture systems.…”

Section: Introductionmentioning

confidence: 99%

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Classification of lower limb rehabilitation exercises with multiple and individual inertial measurement units

Tannna¹,

Vithalani

2022

IJEECS

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Straight leg raise rehabilitation exercises (for both lying and seated position) for lower limb injuries play a critical role in terms of stress on joints after the injury. The primary objective of the paper is to find how accurately and efficiently a single and a two IMU sensor-based system could classify SSLR (Seated straight leg raise) and LSLR (Lying straight leg raise) exercises using machine learning. Inertial Measurement Units (IMUs) that include accelerometer and gyroscope were calibrated and tested, individual and combined, for classified seating as well as lying exercise and for different demanded personalities. Individual IMUs achieved about 96 % accuracy in binary classification. However, the combined (two) IMUs achieved about 96.8 % accuracy. The merits of the proposed IMU based sensor system are that it is easy to install, cost effective and very useful for telemedical operations in pandemic situations like COVID19. On the basis of these results, it could be concluded that the accuracy of a single IMU sensor system and a two IMU sensor-based system is approximately 96% and both were efficiently able to classify SSLR and LSLR exercises as well as identify the individual performing the exercise.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Classification of lower limb rehabilitation exercises with multiple and individual inertial measurement units

Tannna¹,

Vithalani

2022

IJEECS

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“…There are two kinds of motion sensors, wearable sensors and camera-based sensors. In case using a camera-based sensor, from frames captured over time, the displacement of human joints position will be considered as human motion [9][10][11][20][21][22][23][24]. Motion with certain patterns will be understood as a gesture.…”

Section: Introductionmentioning

confidence: 99%

“…It needs depth information to extract a feature vector from the palm area. Yang used HMM [26], Molchanov used HOG [11], some others used spatio-temporal feature [20,23,[27][28][29] and others used motion feature [9,24,30]. Yet, to recognize more various hand motion gestures, skeleton-based data is better [3,22,24,28].…”

Section: Introductionmentioning

confidence: 99%

A robust method for VR-based hand gesture recognition using density-based CNN

et al. 2020

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Many VR-based medical purposes applications have been developed to help patients with mobility decrease caused by accidents, diseases, or other injuries to do physical treatment efficiently. VR-based applications were considered more effective helper for individual physical treatment because of their low-cost equipment and flexibility in time and space, less assistance of a physical therapist. A challenge in developing a VR-based physical treatment was understanding the body part movement accurately and quickly. We proposed a robust pipeline to understanding hand motion accurately. We retrieved our data from movement sensors such as HTC vive and leap motion. Given a sequence position of palm, we represent our data as binary 2D images of gesture shape. Our dataset consisted of 14 kinds of hand gestures recommended by a physiotherapist. Given 33 3D points that were mapped into binary images as input, we trained our proposed density-based CNN. Our CNN model concerned with our input characteristics, having many 'blank block pixels', 'single-pixel thickness' shape and generated as a binary image. Pyramid kernel size applied on the feature extraction part and classification layer using softmax as loss function, have given 97.7% accuracy.

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