2020
DOI: 10.1109/access.2020.2982364
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Human Action Performance Using Deep Neuro-Fuzzy Recurrent Attention Model

Abstract: A great number of computer vision publications have focused on distinguishing between human action recognition and classification rather than the intensity of actions performed. Indexing the intensity which determines the performance of human actions is a challenging task due to the uncertainty and information deficiency that exists in the video inputs. To remedy this uncertainty, in this paper we coupled fuzzy logic rules with the neural-based action recognition model to rate the intensity of a human action a… Show more

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Cited by 29 publications
(16 citation statements)
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“…Recent advancements in artificial intelligence (AI) have enabled real time human action performance [11], facial behavioral analysis [12], speech analysis [13], speech disfluency detection [14], stereotypical motor movement from sensory data [15], many more. Published research from the last 5 years shows the use of a wide variety of sensory inputs to predict human behavior, diseases, and cognitive states using AI methods, especially deep learning (DL).…”
Section: B Artificially Intelligent Methods In Behavioral Healthmentioning
confidence: 99%
See 1 more Smart Citation
“…Recent advancements in artificial intelligence (AI) have enabled real time human action performance [11], facial behavioral analysis [12], speech analysis [13], speech disfluency detection [14], stereotypical motor movement from sensory data [15], many more. Published research from the last 5 years shows the use of a wide variety of sensory inputs to predict human behavior, diseases, and cognitive states using AI methods, especially deep learning (DL).…”
Section: B Artificially Intelligent Methods In Behavioral Healthmentioning
confidence: 99%
“…Problem behavior such as biting, hitting, kicking could be tracked using body tracking sensors and algorithms [11]. Vocal aggression such as screaming, shouting, use of foul language, etc.…”
Section: Problem Behaviormentioning
confidence: 99%
“…The performance metrics for BERT present significant improvement over three other based lines (TD-IDF + {SVM, Logistic regression, Naïve Bayes}) [42] that are reported in Table 2. Due to the class imbalance, F1-micro and F1-Macro are better metrics to compare the models [43]. BERT model achieved F1-micro and F1-Macro of (0.9599, 0.9889), (0.9830, 0.9930) and (0.9433, 0.9723) respectively for privacy, security and convenience classes.…”
Section: Data Processingmentioning
confidence: 99%
“…The performance of these models is measured against the capacity of these networks to correctly predict the answer with proper reasoning thus eliminating the traditional black-box approach. In recent times, there has been a considerable increase in the number of datasets available to train models for VQA [3] like the DAQUAR dataset [18], COCOQA dataset [20], [21], CLEVR dataset [15], VQA and VQA2.0 datasets [22], [23], etc. The DAQUAR dataset has relatively few samples of indoor scenes thus restricting its usage towards a generic VQA model.…”
Section: A Visual Question Answeringmentioning
confidence: 99%