Uncertainty-Aware Robustness Assessment of Industrial Elevator Systems

Han, Liping; Ali, Shaukat; Yue, Tao; Arrieta, Aitor; Arratibel, Maite

doi:10.1145/3576041

Cited by 6 publications

(3 citation statements)

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“…One paper [4] explores the design of a speed-control system for elevator permanentmagnet synchronous traction motors, integrating SVPWM, direct torque control, and fuzzy adaptive PID to ensure precise motor speed regulation aligned with elevator operation curves, encompassing input-signal, control, drive, and feedback modules. Another study [5] examines industrial elevator systems, prevalent in daily use, operating within uncertain environments influenced by factors such as unpredictable passenger traffic, uncertain passenger attributes and behaviors, and hardware delays, aiming to evaluate and enhance system robustness in addressing uncertainties for improved design and implementation strategies. These research endeavors [5,6] predominantly center on the regulation and governance of elevator systems, delving deeply into their internal mechanisms, encompassing both software and hardware components.…”

Section: Introductionmentioning

confidence: 99%

“…Another study [5] examines industrial elevator systems, prevalent in daily use, operating within uncertain environments influenced by factors such as unpredictable passenger traffic, uncertain passenger attributes and behaviors, and hardware delays, aiming to evaluate and enhance system robustness in addressing uncertainties for improved design and implementation strategies. These research endeavors [5,6] predominantly center on the regulation and governance of elevator systems, delving deeply into their internal mechanisms, encompassing both software and hardware components. However, these studies have yet to comprehensively examine additional parameters, such as the influence and impact of passengers utilizing these elevator systems.…”

Section: Introductionmentioning

confidence: 99%

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Exploring Heuristic and Optimization Approaches for Elevator Group Control Systems

Gharbi

2024

Applied Sciences

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This paper undertakes an examination of elevator car dispatching methods in response to hall calls. Firstly, our study focuses on the establishment of a representation of an elevator group control system as a finite-state machine to understand the dynamics of elevator group control. Secondly, two primary heuristics are explored, with the first advocating directional continuity unless the highest or lowest floor has been reached, while the second permits direction change upon completing the final call, regardless of floor extremes. Identified inefficiencies in these heuristic solutions lead us to explore enhanced alternatives. Consequently, we delve into genetic algorithm (GA) and simulated annealing (SA) methodologies. Our focus initially centers on devising solution representations and determining fitness evaluations for both approaches. We employ a simulation-based optimization approach to identify the optimal parameter values for both simulated annealing and genetic algorithms. A subsequent comparative analysis is conducted to ascertain the most effective approach among these diverse solutions. A comparative analysis reveals that the GA-based approach significantly outperforms both existing heuristics and the SA-based method in minimizing average passenger waiting time at the cost of longer computational time.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Exploring Heuristic and Optimization Approaches for Elevator Group Control Systems

Gharbi

2024

Applied Sciences

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“…Cyber-physical Systems (CPSs) play a vital role in Industry 4.0. Various CPSs have been deployed in critical infrastructures, e.g., water treatment plant [34,35] and elevator systems [16,17,36], whose safe operation concerns our daily lives. One such safetycritical CPS is railway systems (RWS).…”

Section: Introductionmentioning

confidence: 99%

KDDT: Knowledge Distillation-Empowered Digital Twin for Anomaly Detection

Xu,

Ali,

Yue

et al. 2023

Proceedings of the 31st ACM Joint European Software Engineering Conference and Symposium on the Foundations of Software Enginee

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Cyber-physical systems (CPSs), like train control and management systems (TCMS), are becoming ubiquitous in critical infrastructures. As safety-critical systems, ensuring their dependability during operation is crucial. Digital twins (DTs) have been increasingly studied for this purpose owing to their capability of runtime monitoring and warning, prediction and detection of anomalies, etc. However, constructing a DT for anomaly detection in TCMS necessitates sufficient training data and extracting both chronological and context features with high quality. Hence, in this paper, we propose a novel method named KDDT for TCMS anomaly detection. KDDT harnesses a language model (LM) and a long short-term memory (LSTM) network to extract contexts and chronological features, respectively. To enrich data volume, KDDT benefits from out-ofdomain data with knowledge distillation (KD). We evaluated KDDT with two datasets from our industry partner Alstom and obtained the F1 scores of 0.931 and 0.915, respectively, demonstrating the effectiveness of KDDT. We also explored individual contributions of the DT model, LM, and KD to the overall performance of KDDT, via a comprehensive empirical study, and observed average F1 score improvements of 12.4%, 3%, and 6.05%, respectively. CCS CONCEPTS• Software and its engineering → Maintaining software; • Security and privacy → Intrusion detection systems; • Computer systems organization → Embedded systems; Sensors and actuators; Embedded and cyber-physical systems; • Computing methodologies → Neural networks.

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