Periodic Reporting for period 1 - Sustainable-CPS (Designing Human-centered Sustainable Cyber-physical Systems of the Future)
Berichtszeitraum: 2021-09-01 bis 2022-08-31
Sustainable-CPS project aims to use interactive, collaborative, and innovative tools from design thinking, systems thinking and future studies to develop a framework and a toolkit to support the design of future CPS by primarily focusing on human needs, social implications and sustainability.
While CPS are seen as promising advancements to tackle societal and technical challenges, the current engineering practices related to design and development of CPS do not aim to directly target sustainability concerns. The limited theory that exists today is unable to support the level of complexity, scalability, security, safety, interoperability, and flexible design and operation that will be required to meet future needs. In consequence, innovative engineering frameworks, environments, knowledge, and tools for realizing novel CPS and services are needed to make these systems sustainable, ethical, understandable, extendable, successful, safe and useful. The Sustainable-CPS project addresses this need.
Importance for society:
CPS are increasingly common in our industries as a form of manufacturing/robotics/maintenance systems, in our life as transportation/infrastructure/communication systems, or in our homes as smart products. Sustainability of these system has the potential to improve the energy consumption, and environmental effects, support the life quality of the citizens and contribute better manufacturing production and similar industrial processes which will in turn provide better work environments and life standards.
Overall objectives:
• RO1) to identify the future properties of CPS and their effect on sustainability indicators
• RO2) to evaluate and blend future studies, design thinking and systems thinking for improving the future CPS
• RO3) to develop and adapt a framework for guiding innovative, sustainable and human-centered solutions for future CPS
• RO4) to evaluate and validate the applicability of the interdisciplinary framework and a toolkit for designing future human-centered sustainable CPS
WP1-Project Management and Education (M1-M24): The main purpose of the work package is to ensure the success of the project, education and career development. Project planning will be discussed and updated at the beginning of the project and will be finalized no later than M2. The CDP and project plan will be delivered on M3. The progress meetings are seen as milestones and planned to be repeated quarterly. Moreover, ER will have weekly meetings with the research groups at Stanford and KTH to share the project, findings and get feedback.
WP2-Review and Characterization (M1-M6): The second work package starts with a systematic literature review in a recursive manner where the ER will define a protocol to follow to identify the future characteristics of the CPS and sustainability indicators. And it continues to define interrelationship between these characteristics and the sustainability indicators.
WP3-Framework Development (M6-M13): The goal of WP3 is to review and evaluate different tools from future thinking, design thinking and systems thinking . Small case studies, interviews and observations may be used in this stage to support the structuring and development of the framework.
During the first year of the project, I worked at Stanford University with Prof. Larry Leifer's DesignX research group and collaborated with Prof. Sheri Sheppard's Designing Education Lab. I have looked ad challenging characteristics of the future CPS and identified three important ones, namely autonomy, intelligence, and connectivity. As a result, I have published several articles:
- D. Gürdür Broo, O. Kaynak and S. M. Sait “Engineering Education at the Age of Industry 5.0” Journal of Industrial Information Integration, 2022, doi: https://doi.org/10.1016/j.jii.2021.100311.
- D. Gürdür Broo, “Transdisciplinarity and Three Mindsets for Sustainability in the Age of Cyber-physical Systems,” Journal of Industrial Information Integration, 2021, doi: https://doi.org/10.1016/j.jii.2021.100290.
- D. Gürdür Broo, and J. Schooling “Design and implementation of a smart infrastructure digital twin,” Automation in Construction, 2022, doi: https://doi.org/10.1016/j.autcon.2022.104171.
Currently, I have two more articles that I am working on together with researchers from US, Norway and UK on human-centered cyber-physical systems and autonomous cyber-physical systems which will be available in 2023. Additionally, I am the editor of two special issues SpringerNature Discover AI, Sustainable and Responsible Artificial Intelligence and MDPI Technologies, Human-centered Cyber-physical Systems.
Expected results: Expected results of the project will be the outputs as form of published scientific articles, the final version of the framework and workshops where the framework is shared with the stakeholders.
Potential impacts:
The project's overall objective is to develop a sustainability-oriented, human-centric framework for designing future cyber-physical systems. The project, ultimately, aims to aid industry and academia to understand the relationship between autonomy, intelligence, and connectivity and their effects on the design processes, to illustrate the shortcomings of today’s traditional engineering practices, and equip them with an innovative framework and a set of tools to build human-centered sustainable CPS.
This framework and its usage to design future CPS have the potential to improve the sustainability of these systems. Since they already exist in small and big sizes in our industries, workplaces and even homes, their sustainable design on a large scale will affect economic, environmental, and social sustainability.