Fulvio Patara scite author profile

Currently, many applications have emerged from the implementation of software development and hardware use, known as the Internet of things. One of the most important application areas of this type of technology is in health care. Various applications arise daily in order to improve the quality of life and to promote an improvement in the treatments of patients at home that suffer from different pathologies. That is why there has emerged a line of work of great interest, focused on the study and analysis of daily life activities, on the use of different data analysis techniques to identify and to help manage this type of patient. This article shows the result of the systematic review of the literature on the use of the Clustering method, which is one of the most used techniques in the analysis of unsupervised data applied to activities of daily living, as well as the description of variables of high importance as a year of publication, type of article, most used algorithms, types of dataset used, and metrics implemented. These data will allow the reader to locate the recent results of the application of this technique to a particular area of knowledge.

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A Continuous-Time Model-Based Approach for Activity Recognition in Pervasive Environments

Biagi

Carnevali

Paolieri

et al. 2019

IEEE Trans. Human-Mach. Syst.

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A Continuous-Time Model-Based Approach to Activity Recognition for Ambient Assisted Living

Carnevali

Nugent

Patara

et al. 2015

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A framework for Model-Driven Engineering of resilient software-controlled systems

et al. 2020

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Emergent paradigms of Industry 4.0 and Industrial Internet of Things expect cyberphysical systems to reliably provide services overcoming disruptions in operative conditions and adapting to changes in architectural and functional requirements. In this paper, we describe a hardware/software framework supporting operation and maintenance of software-controlled systems enhancing resilience by promoting a Model-Driven Engineering (MDE) process to automatically derive structural configurations and failure models from reliability artifacts. Specifically, a reflective architecture developed around digital twins enables representation and control of system Configuration Items properly derived from SysML Block Definition Diagrams, providing support for variation. Besides, a plurality of distributed analytic agents for qualitative evaluation over executable failure models empowers the system with runtime self-assessment and dynamic adaptation capabilities. We describe the framework architecture outlining roles and responsibilities in a System of Systems perspective, providing salient design traits about digital twins and data analytic agents for failure propagation modeling and analysis. We discuss a prototype implementation following the MDE approach, highlighting self-recovery and self-adaptation properties on a real cyber-physical system for vehicle access control to Limited Traffic Zones.

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Human Activity Recognition Data Analysis: History, Evolutions, and New Trends

Ariza-Colpas

Vicario

Carrascal

et al. 2022

Sensors

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The Assisted Living Environments Research Area–AAL (Ambient Assisted Living), focuses on generating innovative technology, products, and services to assist, medical care and rehabilitation to older adults, to increase the time in which these people can live. independently, whether they suffer from neurodegenerative diseases or some disability. This important area is responsible for the development of activity recognition systems—ARS (Activity Recognition Systems), which is a valuable tool when it comes to identifying the type of activity carried out by older adults, to provide them with assistance. that allows you to carry out your daily activities with complete normality. This article aims to show the review of the literature and the evolution of the different techniques for processing this type of data from supervised, unsupervised, ensembled learning, deep learning, reinforcement learning, transfer learning, and metaheuristics approach applied to this sector of science. health, showing the metrics of recent experiments for researchers in this area of knowledge. As a result of this article, it can be identified that models based on reinforcement or transfer learning constitute a good line of work for the processing and analysis of human recognition activities.

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Fulvio Patara

Unsupervised Human Activity Recognition Using the Clustering Approach: A Review

A Continuous-Time Model-Based Approach for Activity Recognition in Pervasive Environments

A Continuous-Time Model-Based Approach to Activity Recognition for Ambient Assisted Living

A framework for Model-Driven Engineering of resilient software-controlled systems

Human Activity Recognition Data Analysis: History, Evolutions, and New Trends

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