eprintid: 17139
rev_number: 9
eprint_status: archive
userid: 2
dir: disk0/00/01/71/39
datestamp: 2025-03-14 23:30:12
lastmod: 2025-03-14 23:30:13
status_changed: 2025-03-14 23:30:12
type: article
metadata_visibility: show
creators_name: Farooq, Muhammad Shoaib
creators_name: Mir, Rizwan Pervez
creators_name: Alvi, Atif
creators_name: Tutusaus, Kilian
creators_name: García Villena, Eduardo
creators_name: Alrowais, Fadwa
creators_name: Karamti, Hanen
creators_name: Ashraf, Imran
creators_id: 
creators_id: 
creators_id: 
creators_id: kilian.tutusaus@uneatlantico.es
creators_id: eduardo.garcia@uneatlantico.es
creators_id: 
creators_id: 
creators_id: 
title: Harnessing AI forward and backward chaining with telemetry data for enhanced diagnostics and prognostics of smart devices
ispublished: pub
subjects: uneat_eng
divisions: uneatlantico_produccion_cientifica
divisions: uninimx_produccion_cientifica
divisions: uninipr_produccion_cientifica
divisions: unic_produccion_cientifica
divisions: uniromana_produccion_cientifica
full_text_status: public
keywords: Internet of Things; Telemetry data; Diagnostics and prognostics; Forward chaining; Reverse chaining
abstract: In the rapidly evolving landscape of artificial intelligence (AI) and the Internet of Things (IoT), the significance of device diagnostics and prognostics is paramount for guaranteeing the dependable operation and upkeep of intricate systems. The capacity to precisely diagnose and preemptively predict potential failures holds the potential to considerably amplify maintenance efficiency, diminish downtime, and optimize resource allocation. The wealth of information offered by telemetry data gathered from IoT devices presents an opportunity for diagnostics and prognostics applications. However, extracting valuable insights and making well-timed decisions from this extensive data reservoir remains a formidable challenge. This study proposes a novel AI-driven framework that integrates forward chaining and backward chaining algorithms to analyze telemetry data from IoT devices. The proposed methodology utilizes rule-based inference to detect real-time anomalies and predict potential future failures, providing a dual-layered approach for diagnostics and prognostics. The results show that the diagnostics engine using forward chaining detects real-time issues like “High Temperature” and “Low Pressure,” while the prognostics engine with backward chaining predicts potential future occurrences of these issues, enabling proactive prevention measures. The experimental results demonstrate that adopting this approach could offer valuable assistance to authorities and stakeholders. Accurate early diagnosis and prediction of potential failures have the capability to greatly improve maintenance efficiency, minimize downtime, and optimize cost.
date: 2025-03
publication: Scientific Reports
volume: 15
number: 1
id_number: doi:10.1038/s41598-025-89266-9
refereed: TRUE
issn: 2045-2322
official_url: http://doi.org/10.1038/s41598-025-89266-9
access: open
language: en
citation:   Artículo Materias > Ingeniería <http://repositorio.unini.edu.mx/view/subjects/uneat=5Feng.html> Universidad Europea del Atlántico > Investigación > Producción Científica <http://repositorio.unini.edu.mx/view/divisions/uneatlantico=5Fproduccion=5Fcientifica.html>
Universidad Internacional Iberoamericana México > Investigación > Artículos y libros <http://repositorio.unini.edu.mx/view/divisions/uninimx=5Fproduccion=5Fcientifica.html>
Universidad Internacional Iberoamericana Puerto Rico > Investigación > Producción Científica <http://repositorio.unini.edu.mx/view/divisions/uninipr=5Fproduccion=5Fcientifica.html>
Universidad Internacional do Cuanza > Investigación > Producción Científica <http://repositorio.unini.edu.mx/view/divisions/unic=5Fproduccion=5Fcientifica.html>
Universidad de La Romana > Investigación > Producción Científica <http://repositorio.unini.edu.mx/view/divisions/uniromana=5Fproduccion=5Fcientifica.html> Abierto Inglés In the rapidly evolving landscape of artificial intelligence (AI) and the Internet of Things (IoT), the significance of device diagnostics and prognostics is paramount for guaranteeing the dependable operation and upkeep of intricate systems. The capacity to precisely diagnose and preemptively predict potential failures holds the potential to considerably amplify maintenance efficiency, diminish downtime, and optimize resource allocation. The wealth of information offered by telemetry data gathered from IoT devices presents an opportunity for diagnostics and prognostics applications. However, extracting valuable insights and making well-timed decisions from this extensive data reservoir remains a formidable challenge. This study proposes a novel AI-driven framework that integrates forward chaining and backward chaining algorithms to analyze telemetry data from IoT devices. The proposed methodology utilizes rule-based inference to detect real-time anomalies and predict potential future failures, providing a dual-layered approach for diagnostics and prognostics. The results show that the diagnostics engine using forward chaining detects real-time issues like “High Temperature” and “Low Pressure,” while the prognostics engine with backward chaining predicts potential future occurrences of these issues, enabling proactive prevention measures. The experimental results demonstrate that adopting this approach could offer valuable assistance to authorities and stakeholders. Accurate early diagnosis and prediction of potential failures have the capability to greatly improve maintenance efficiency, minimize downtime, and optimize cost. metadata Farooq, Muhammad Shoaib; Mir, Rizwan Pervez; Alvi, Atif; Tutusaus, Kilian; García Villena, Eduardo; Alrowais, Fadwa; Karamti, Hanen y Ashraf, Imran mail SIN ESPECIFICAR, SIN ESPECIFICAR, SIN ESPECIFICAR, kilian.tutusaus@uneatlantico.es, eduardo.garcia@uneatlantico.es, SIN ESPECIFICAR, SIN ESPECIFICAR, SIN ESPECIFICAR     <http://repositorio.unini.edu.mx/id/eprint/17139/1/s41598-025-89266-9.pdf>     (2025) Harnessing AI forward and backward chaining with telemetry data for enhanced diagnostics and prognostics of smart devices.  Scientific Reports, 15 (1).   ISSN 2045-2322     
document_url: http://repositorio.unini.edu.mx/id/eprint/17139/1/s41598-025-89266-9.pdf