ONTOLOGICAL, FULLY PROBABILISTIC KNOWLEDGE MODEL FOR HUMAN ACTIVITY RECOGNITION

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY Jurnal Teknologi-Sciences & Engineering Pub Date : 2023-02-23 DOI:10.11113/jurnalteknologi.v85.18942

Pouya Foudeh, N. Salim

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Abstract

Efficiency and scalability are obstacles that have not yet received a viable response from the human activity recognition research community. This paper proposes an activity recognition method. The knowledge model is in the form of ontology, the state-of-the-art in knowledge representation and reasoning. The ontology starts with probabilistic information about subjects’ low-level activities and location and then is populated with the assertion axioms learned from data or defined by the user. Unlike methods that choose only the most probable candidate from sensor readings, the proposed method keeps multiple candidates with the known degree of confidence for each one and involves them in decision making. Using this method, the system is more flexible to deal with unreliable data, readings from sensors, and the final recognition rate is improved. Besides, to resolve the scalability problem, a system is designed and implemented to do reasoning and storing in a relational database management system. Numerical evaluations and conceptual benchmarking prove the proposed system feasibility.

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人类活动识别的本体论全概率知识模型

效率和可扩展性是尚未得到人类活动识别研究界切实回应的障碍。本文提出了一种活动识别方法。知识模型是本体论的形式，是知识表示和推理的最先进的形式。本体论从关于受试者低级活动和位置的概率信息开始，然后用从数据中学习或由用户定义的断言公理填充。与只从传感器读数中选择最有可能的候选者的方法不同，所提出的方法为每个候选者保留了多个具有已知置信度的候选者，并使它们参与决策。使用这种方法，系统更灵活地处理不可靠的数据，传感器的读数，并提高了最终识别率。此外，为了解决可扩展性问题，设计并实现了一个在关系数据库管理系统中进行推理和存储的系统。数值评估和概念基准测试证明了所提出的系统的可行性。

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Jurnal Teknologi-Sciences & Engineering ENGINEERING, MULTIDISCIPLINARY-

CiteScore

1.30

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