Biomechanical Parameters and Clinical Assessment Scores for Identifying Elderly Fallers Based on Balance and Dynamic Tasks

Pradhan, Ashirbad; Kuruganti, Usha; Chester, Victoria

doi:10.1109/access.2020.3033194

Cited by 8 publications

(8 citation statements)

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“…For this purpose, gait information that shows differences in fall risks should be effective for screening people with high fall risks. Many studies have verified the significant differences in gait between participant groups with different fall risks, such as young adults, elderly adults, and elderly adults with a history of falls [2]- [4]. In particular, elderly adults with a history of multiple falls have significant fall risks [5], [6], and the detection of such risks via the gait information is important to prevent repeated falls.…”

Section: Introductionmentioning

confidence: 99%

“…However, participants must wear numerous acceleration sensors in these approaches. Although sensing systems using force plates or pressure mats have also been used [4], [8], their measurement areas are limited to the sensor surface and the measurable gait information is thus limited compared with that obtainable using other sensors. To achieve simple and unconstrained gait measurement, optical remote sensing techniques such as depth sensing and camerabased analysis have been widely used [10]- [12].…”

Section: Introductionmentioning

confidence: 99%

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Micro-Doppler Radar Gait Measurement to Detect Age- and Fall Risk-Related Differences in Gait: A Simulation Study on Comparison of Deep Learning and Gait Parameter-Based Approaches

et al. 2021

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This paper describes the application of micro-Doppler radar (MDR) to gait classification based on fall risk-related differences using deep learning and gait parameter-based approaches. Two classification problems were considered in this study: elderly non-fallers and multiple fallers were classified to investigate the detection of fall risk-related gait differences, and middle-aged (50s) and elderly (70s) adults were classified to detect aging-related gait differences. The MDR signal data of the participants were simulated using an open motion capture gait dataset. The classification results obtained using the deep learning and gait parameter-based approaches showed that the classification accuracy achieved using a support vector machine with the gait parameters extracted from the MDR signals was better than that resulting from the deep learning of spectrogram (time-velocity distribution) images of the MDR signals for both classification problems. The gait parameter-based approach achieved the classification rates of 79 % for faller/non-faller classification and 82 % for 50s/70s classification, whereas the corresponding accuracies were 73 % and 76 %, respectively, using the deep learning approach. These results reveal that the gait parameters extracted via MDR measurements include sufficient information on gait to detect individuals with a high risk of falls and the gait parameter-based approaches are thus effective for both classification problems.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Micro-Doppler Radar Gait Measurement to Detect Age- and Fall Risk-Related Differences in Gait: A Simulation Study on Comparison of Deep Learning and Gait Parameter-Based Approaches

et al. 2021

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“…Similarly, the work in [ 46 ] focuses on rehabilitation exercises and, more specifically, those exercises performed with the lower limb. In this sense, the work in [ 47 ] points to any task involving gait as a major cause for falls. The works in [ 30 , 31 , 48 , 49 ] focus on the intrinsic factors that cause imbalances, such as muscle strength or the ability to posture control.…”

Section: Related Workmentioning

confidence: 99%

Bedtime Monitoring for Fall Detection and Prevention in Older Adults

Ruiz

Chaparro²,

Santofimia³

et al. 2022

IJERPH

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Life expectancy has increased, so the number of people in need of intensive care and attention is also growing. Falls are a major problem for older adult health, mainly because of the consequences they entail. Falls are indeed the second leading cause of unintentional death in the world. The impact on privacy, the cost, low performance, or the need to wear uncomfortable devices are the main causes for the lack of widespread solutions for fall detection and prevention. This work present a solution focused on bedtime that addresses all these causes. Bed exit is one of the most critical moments, especially when the person suffers from a cognitive impairment or has mobility problems. For this reason, this work proposes a system that monitors the position in bed in order to identify risk situations as soon as possible. This system is also combined with an automatic fall detection system. Both systems work together, in real time, offering a comprehensive solution to automatic fall detection and prevention, which is low cost and guarantees user privacy. The proposed system was experimentally validated with young adults. Results show that falls can be detected, in real time, with an accuracy of 93.51%, sensitivity of 92.04% and specificity of 95.45%. Furthermore, risk situations, such as transiting from lying on the bed to sitting on the bed side, are recognized with a 96.60% accuracy, and those where the user exits the bed are recognized with a 100% accuracy.

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“…Given the aforementioned context, it is clear that smart tools for fracture prevention in sports would benefit greatly the field of sports sciences. The same tool could have important impact in elderly healthcare [66]. A plausible solution for this method is the combination of artificial intelligence (AI) and biomechanics.…”

Section: Risk Of Fractures and Injuries In Sportsmentioning

confidence: 99%

Survey on Video-Based Biomechanics and Biometry Tools for Fracture and Injury Assessment in Sports

et al. 2022

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This work presents a survey literature review on biomechanics, specifically aimed at the study of existent biomechanical tools through video analysis, in order to identify opportunities for researchers in the field, and discuss future proposals and perspectives. Scientific literature (journal papers and conference proceedings) in the field of video-based biomechanics published after 2010 were selected and discussed. The most common application of the study of biomechanics using this technique is sports, where the most reported applications are american football, soccer, basketball, baseball, jumping, among others. These techniques have also been studied in a less proportion, in ergonomy, and injury prevention. From the revised literature, it is clear that biomechanics studies mainly focus on the analysis of angles, speed or acceleration, however, not many studies explore the dynamical forces in the joints. The development of video-based biomechanic tools for force analysis could provide methods for assessment and prediction of biomechanical force associated risks such as injuries and fractures. Therefore, it is convenient to start exploring this field. A few case studies are reported, where force estimation is performed via manual tracking in different scenarios. This demonstration is carried out using conventional manual tracking, however, the inclusion of similar methods in an automated manner could help in the development of intelligent healthcare, force prediction tools for athletes and/or elderly population. Future trends and challenges in this field are also discussed, where data availability and artificial intelligence models will be key to proposing new and more reliable methods for biomechanical analysis.

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Biomechanical Parameters and Clinical Assessment Scores for Identifying Elderly Fallers Based on Balance and Dynamic Tasks

Cited by 8 publications

References 50 publications

Micro-Doppler Radar Gait Measurement to Detect Age- and Fall Risk-Related Differences in Gait: A Simulation Study on Comparison of Deep Learning and Gait Parameter-Based Approaches

Micro-Doppler Radar Gait Measurement to Detect Age- and Fall Risk-Related Differences in Gait: A Simulation Study on Comparison of Deep Learning and Gait Parameter-Based Approaches

Bedtime Monitoring for Fall Detection and Prevention in Older Adults

Survey on Video-Based Biomechanics and Biometry Tools for Fracture and Injury Assessment in Sports

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