Monitoring Real-Time Personal Locomotion Behaviors Over Smart Indoor-Outdoor Environments Via Body-Worn Sensors

Gochoo, Munkhjargal; Tahir, Sheikh Badar ud din; Jalal, Ahmad; Kim, Kibum

doi:10.1109/access.2021.3078513

Cited by 52 publications

(24 citation statements)

References 42 publications

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“…We perfomed a comparative analysis of Deep Belief Network(DBN) [42] and XG-Boost classifier to ensure the effectiveness of the classifier used in this study. Tab.…”

Section: Xg-boost Classifiermentioning

confidence: 99%

Tracking and Analysis of Pedestrian’s Behavior in Public Places

Pervaiz¹,

Alsufyani²,

Jalal³

et al. 2023

Computers, Materials &Amp; Continua

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Crowd management becomes a global concern due to increased population in urban areas. Better management of pedestrians leads to improved use of public places. Behavior of pedestrian's is a major factor of crowd management in public places. There are multiple applications available in this area but the challenge is open due to complexity of crowd and depends on the environment. In this paper, we have proposed a new method for pedestrian's behavior detection. Kalman filter has been used to detect pedestrian's using movement based approach. Next, we have performed occlusion detection and removal using region shrinking method to isolate occluded humans. Human verification is performed on each human silhouette and wavelet analysis and particle gradient motion are extracted for each silhouettes. Gray Wolf Optimizer (GWO) has been utilized to optimize feature set and then behavior classification has been performed using the Extreme Gradient (XG) Boost classifier. Performance has been evaluated using pedestrian's data from avenue and UBI-Fight datasets, where both have different environment. The mean achieved accuracies are 91.3% and 85.14% over the Avenue and UBI-Fight datasets, respectively. These results are more accurate as compared to other existing methods.

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“…We perfomed a comparative analysis of Deep Belief Network(DBN) [42] and XG-Boost classifier to ensure the effectiveness of the classifier used in this study. Tab.…”

Section: Xg-boost Classifiermentioning

confidence: 99%

Tracking and Analysis of Pedestrian’s Behavior in Public Places

Pervaiz¹,

Alsufyani²,

Jalal³

et al. 2023

Computers, Materials &Amp; Continua

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“…But when it comes to dynamic locomotion detection such as cycling, badminton, skipping, etc., the system was not very accurate. Gochoo et al [8] have dealt with the dominant issues in the monitoring of physical activities recognition such as inaccurate features extraction persuaded by improper detection of locomotion actions. To solve this problem, a hierarchical feature-based approach along with kernel sliding perceptron was proposed.…”

Section: A Dld Via Imu Sensorsmentioning

confidence: 99%

“…Multiple applications of inertial sensors can be seen in the literature. Body-worn inertial measurement units (IMUs) can monitor, record, and transfer vital information for healthcare, fitness decisions, and locomotion transitions that help in tracking and safeguarding human health [8]. However, these sensors can only gather partial information on locomotion actions.…”

Section: Introductionmentioning

confidence: 99%

MS-DLD: Multi-Sensors Based Daily Locomotion Detection via Kinematic-Static Energy and Body-Specific HMMs

et al. 2022

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More adaptable and user-independent techniques are required for multi-sensors based daily locomotion detection (MS-DLD). This research study proposes a couple of locomotion detection methods using body-worn multi-sensors to successfully categorize several locomotion transitions, including falling, walking, jogging, and jumping, along with bodyspecific sensors based on the modified hidden Markov models (HMMs) approach. This research presents both standard and state-of-the-art methods for MS-DLD. Conventionally, to improve MS-DLD process, the proposed methodology consists of a wavelet transformed Quaternion-based filter for the inertial signals, patterns recognition in the form of kinematic-static energies, and state-of-the-art multi-features extraction. These features include entropy, spectral, and cepstral coefficients domains. Then, fuzzy logic-based optimization has been introduced in order to achieve the selective features by converting them into codewords. This paper also introduces another state-of-the-art way to model daily locomotion detection and derives body-specific modified HMMs. The model divides the sensor data into three active body-specific parts including head sensors, mid-body sensors, and lower body sensors. Body-specific modified HMMs have been provided with raw data for the three active body-specific sensors and gave better results with less computational complexities when compared to the conventional methods. The proposed systems have been experimentally assessed and trialed over three diverse publicly available datasets: the UP-Fall dataset consisting of falling and other daily life activities, the IM-WSHA dataset comprising everyday locomotion actions, and the ENABL3S gait and locomotion dataset consisting of multiple gait movements. Experimental outcomes indicate that the proposed conventional technique achieved improved results and outperformed existing systems based on detection accuracies of 90.0% and 87.5% over UP-Fall, 86.0% and 88.3% over IM-WSHA, and 86.7% and 90.0% over ENABL3S datasets for kinematic and static energy patterns, respectively. Further, the results show that the state-of-the-art body-specific modified HMMs method achieved 94.3% and 95.0% over UP-Fall, 92.0% and 93.3% over IM-WSHA, and 90.0% and 95.0% over ENABL3S datasets for kinematic and static patterned signals, respectively. The results of state-of-theart efficient system show a significant increase in detection accuracy when compared to standard systems.

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“…Moreover, Neuro fuzzy classifier was used in this paper while we used Masi Entropy classifier. [21] In this system, three body-worn inertial sensors were attached to different body parts and hieratical features were extracted. Experiments were performed on three benchmark datasets.…”

Section: Table 1: Comparative Table Highlighting the Commonalities An...mentioning

confidence: 99%

Sensors-Based Ambient Assistant Living via E-Monitoring Technology

Hafeez¹,

Ghadi²,

Alarfaj³

et al. 2022

Computers, Materials &Amp; Continua

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Independent human living systems require smart, intelligent, and sustainable online monitoring so that an individual can be assisted timely. Apart from ambient assisted living, the task of monitoring human activities plays an important role in different fields including virtual reality, surveillance security, and human interaction with robots. Such systems have been developed in the past with the use of various wearable inertial sensors and depth cameras to capture the human actions. In this paper, we propose multiple methods such as random occupancy pattern, spatio temporal cloud, waypoint trajectory, Hilbert transform, Walsh Hadamard transform and bone pair descriptors to extract optimal features corresponding to different human actions. These features sets are then normalized using min-max normalization and optimized using the Fuzzy optimization method. Finally, the Masi entropy classifier is applied for action recognition and classification. Experiments have been performed on three challenging datasets, namely, UTD-MHAD, 50 Salad, and CMU-MMAC. During experimental evaluation, the proposed novel approach of recognizing human actions has achieved an accuracy rate of 90.1% with UTD-MHAD dataset, 90.6% with 50 Salad dataset, and 89.5% with CMU-MMAC dataset. Hence experimental results validated the proposed system.

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Monitoring Real-Time Personal Locomotion Behaviors Over Smart Indoor-Outdoor Environments Via Body-Worn Sensors

Cited by 52 publications

References 42 publications

Tracking and Analysis of Pedestrian’s Behavior in Public Places

Tracking and Analysis of Pedestrian’s Behavior in Public Places

MS-DLD: Multi-Sensors Based Daily Locomotion Detection via Kinematic-Static Energy and Body-Specific HMMs

Sensors-Based Ambient Assistant Living via E-Monitoring Technology

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