Sustainable Design and Management of Industrial Systems—A Human Factors Perspective

Author:

Coelho Denis AlvesORCID

Abstract

The aim of this concept article is to articulate multiple contributions from socio-technical fields into an approach for sustaining human-centred lifecycle management of industrial systems. Widespread digitalization and advanced robotics have fostered interest on innovative human-machine integration and sophisticated organizational transformation that is conducive to meeting the challenges of sustainability. Complementing technology-driven and data-driven approaches to industrial systems development, the human factors approach offers a systems perspective that is at once human-centred while striving for overall system performance, by considering technological and organizational perspectives alike. The paper presents a set of recent human factors developments, selected based on their potential to advance sustainability in industrial systems, including an activity-centred design perspective of industrial systems, and a unified and entangled view on organizational goals yielding a dynamic change approach to socio-technical systems management. Moreover, developments in organizational resilience are coupled with recent breakthrough empirical understanding of conditions conducive to attaining resilience in operations. The cross-pollination of the human factors developments is further pursued, resulting in a proposal of combined key organizational vectors that can mutually leverage and sustain human-centred design and management of industrial systems (production and logistics systems alike) for resilience. Systems thinking encompassing human, organizational and technological perspectives supports integration of insights across entangled domains; this can leverage both system enhancements that promote the satisfaction of dynamic situation-dependent goals, as well as the fulfilment of objectives derived from long-term values of an organization.

Funder

Foundation for Knowledge

School of Engineering, Jönköping university

Publisher

MDPI AG

Subject

Artificial Intelligence,Applied Mathematics,Industrial and Manufacturing Engineering,Human-Computer Interaction,Information Systems,Control and Systems Engineering

Reference20 articles.

1. Emergence fostered by systemic analysis—Seeding innovation for sustainable development

2. Innovation At and Across Multiple Levels of Analysis

3. Innovation in Company Labor Productivity Management: Data Science Methods Application

4. Synesis: The Unification of Productivity, Quality, Safety and Reliabilityl;Hollnagel,2020

5. Methodology for bio-inspired design innovations based on functional decomposition;Sidorenko;Proceedings of the 2021 3rd International Congress on Human-Computer Interaction, Optimization and Robotic Applications (HORA),2021

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