An optimized low computational algorithm for human fall detection from depth images based on Support Vector Machine classification

Systems developed to classify human activities to identify unintentional falls are highly demanding and play an important role in our daily life. Human falls are the main obstacle for elderly people to live independently and it is also a major health concern due to aging population. Different approa...

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Vydané v:2017 IEEE International Conference on Signal and Image Processing Applications (ICSIPA) s. 407 - 412
Hlavní autori: Mohd, Mohd Norzali Haji, Nizam, Y., Suhaila, S., Jamil, M. Mahadi Abdul
Médium: Konferenčný príspevok..
Jazyk:English
Vydavateľské údaje: IEEE 01.09.2017
Predmet:
Acceleration
Accelerometers
Assitive Technology
Classification algorithms
Daily Activities
Depth Images
Floors
Head
Human Posture
Robot sensing systems
Support vector machines
SVM
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Shrnutí:Systems developed to classify human activities to identify unintentional falls are highly demanding and play an important role in our daily life. Human falls are the main obstacle for elderly people to live independently and it is also a major health concern due to aging population. Different approaches are used to develop human fall detection systems for elderly and people with special needs. The three basic approaches used include some sort of wearable devices, ambient based devices or non-invasive vision based devices using live cameras. Most of such systems are either based on wearable or ambient sensor which is very often rejected by users due to the high false alarm and difficulties in carrying them during their daily life activities. This paper proposes a fall detection system based on an algorithm using combination of machine learning and human activity measurements such as changes of human height and rate of change of the subject during any of the activity. Classification of human fall from other activities of daily life is accomplished using height, changes in velocity and acceleration of the subject extracted from the depth information. Finally position of the subject and SVM classification is used for fall confirmation. From the experimental results, the proposed system was able to achieve an average accuracy of 97.39% with sensitivity of 100% and specificity of 96.61%.
DOI:10.1109/ICSIPA.2017.8120645