WORKSHOP 9 | Thursday, August 22, 13:35 – 17:10 | Workshop Room 1 (1441-110)
Alberto Pirni (PhD) is Associate Professor in Moral Philosophy at the Institute of Law, Politics and Development by the Sant’Anna School of Advanced Studies (Pisa), where he coordinates the Research Area in “Ethics and Global Challenges”. He is the author of 5 monographs, 4 co-authored volumes, and over 220 essays in volumes and refereed national and international journals (in 6 languages). His main research fields involve German Classical Philosophy, public ethics and institutional ethics, ethics of technology and ethics of robot companionship, ethics of sustainability, theories of motivation, and theories of (climate, energy and intergenerational) justice.
Paolo Dario is Professor of Biomedical Robotics and Director of The BioRobotics Institute of the Scuola Superiore Sant’Anna (SSSA), Pisa, Italy. He coordinates the PhD Program in BioRobotics at SSSA. His main research interests are in the fields of bio-robotics, medical robotics, bio-mechatronics and micro/nano biomedical engineering. He is the coordinator of many national and European projects and the author of more than 500 scientific papers. He has been and is Editor-in-Chief, Associate Editor and member of the Editorial Board of many international journals, and the program chair and plenary invited speaker in many international conferences. Prof. Dario has served as President of the IEEE Robotics and Automation Society in the years 2002-2003, he is an IEEE Fellow, a Fellow of the European Society on Medical and Biological Engineering, and a recipient of many honors and awards, such as the Joseph Engelberger Award for Pioneer Research in Biomedical Robotics.
Oliver Bendel is Professor at the FHNW School of Business, Switzerland. He was born in 1968 in Ulm, Germany. After studying philosophy and German philology (M.A.) and information science (Dipl.-Inf.-Wiss.) at the University of Konstanz and gaining initial professional experience, he completed his doctorate in information systems at the University of St. Gallen (Dr. oec.). Bendel has worked in Germany and Switzerland as a project manager for new media and as a supervisor for engineering and science departments at several universities. He now works in Switzerland as a professor of information systems, information ethics, and machine ethics. It is from these perspectives that he primarily looks at AI systems and robots.
This workshop aims to develop a roadmap for understanding the impact of robotics on human employment within the context of Industry 5.0. The workshop explores key factors in this transition, including the risks and benefits of digital automation, ethical considerations regarding worker skills and well-being, and protective measures for workers and consumers. Focusing on the theme of sociocultural risks: devaluation of human labor, the workshop aims to reflect on traditional notions of work, productivity, and the value of human labor in the era of advancing robotics and automation. It challenges the concept of labor devaluation, assesses its impact on worker recognition and efficiency, and questions meritocratic paradigms. To facilitate interdisciplinary dialogue, the workshop engages philosophers and engineers in addressing ethical dilemmas in technology development. It explores the social significance of human effort and movement when interacting with autonomous robots and occupational exoskeletons. By examining these technologies' adaptability and role in human-machine interaction, especially in workplaces, the workshop intends to contribute to discussions on technological advances and their societal implications.
Paolo Dario is Professor of Biomedical Robotics and Director of The BioRobotics Institute of the Scuola Superiore Sant’Anna (SSSA), Pisa, Italy. He coordinates the PhD Program in BioRobotics at SSSA. His main research interests are in the fields of bio-robotics, medical robotics, bio-mechatronics and micro/nano biomedical engineering. He is the coordinator of many national and European projects and the author of more than 500 scientific papers. He has been and is Editor-in-Chief, Associate Editor and member of the Editorial Board of many international journals, and the program chair and plenary invited speaker in many international conferences. Prof. Dario has served as President of the IEEE Robotics and Automation Society in the years 2002-2003, he is an IEEE Fellow, a Fellow of the European Society on Medical and Biological Engineering, and a recipient of many honors and awards, such as the Joseph Engelberger Award for Pioneer Research in Biomedical Robotics.
Nicola Vitiello is a full professor at the BioRobotics Institute of Scuola Superiore Sant'Anna (Pisa, Italy) where he is co-PI of the wearable robotics laboratory. He has co-authored more than 100 papers in ISI/Scopus indexed journals and is co-inventor of more than 20 patents/patents' applications. He was involved in the EU FP7 CA-Robocom project as Scientific Secretary and was coordinator of the EU FP7 CYBERLEGs and EU H2020 CYBERLEGs Plus Plus project. He is/has been scientific coordinator/partner of several other European and national research projects. He is co-founder of IUVO Srl, a spin-off company of Scuola Sant'Anna, and BoD member of euRobotics aisbl.
Simona Crea received the B.Sc. and the M.Sc. degrees (cum laude) in biomedical engineering from the University of Pisa, Pisa, Italy, in 2009 and 2012, respectively, and the doctoral degree in biorobotics from Scuola Superiore Sant.Anna, Pisa, in 2015. Since 2017, she has been working as Assistant Professor in biomedical engineering with Scuola Superiore Sant'Anna. Her research interests include human–robot interaction and control of wearable robots.
One major barrier to adoption for occupational exoskeletons is the limited evidence that the technology is effective, acceptable, and usable by workers in the target scenarios. In addition to the specific characteristics of any device, the selection and proper definition of the application could strongly influence the successful deployment of the technology in industrial scenarios. In this talk, we will discuss the main biomechanical and safety requirements that have been considered for the design of two occupational exoskeletons (OEs) by IUVO and COMAU (one upper-limb exos and one lumbar exos), as well as their validation path. Since the beginning of the development phase, OEs has gone through a continuous testing process with human subjects to assess their effectiveness and potential undesired effects on the users. In addition to initial in-lab tests, we carried out “on-site” tests with experienced workers, with the final goal to verify the effects of using the device in real or realistic application scenarios and thus, identify suitable applications for the successful deployment of the technology. On-site evaluation studies included a comprehensive set of metrics combining instrumental parameters (electromyographic recordings on the main upper-limb muscles) and perception-related parameters (usability and acceptability questionnaires).
Leonardo Massantini is a Post-Doc Research Fellow at the Dirpolis Insitute (SSSA), Italy where he works on the projects “Robot Companion Ethics” and “Fit4MedRob: Fit for Medical Robot”. Leonardo received his Ph.D. in Philosophy from The Universities of Pisa and Florence in Italy in Cotutelle with the University of Osnabrück in Germany. His main research interests are philosophy of emotions and philosophy of technology.
Alberto Pirni (PhD) is Associate Professor in Moral Philosophy at the Institute of Law, Politics and Development by the Sant’Anna School of Advanced Studies (Pisa), where he coordinates the Research Area in “Ethics and Global Challenges”. He is the author of 5 monographs, 4 co-authored volumes, and over 220 essays in volumes and refereed national and international journals (in 6 languages). His main research fields involve German Classical Philosophy, public ethics and institutional ethics, ethics of technology and ethics of robot companionship, ethics of sustainability, theories of motivation, and theories of (climate, energy and intergenerational) justice.
This presentation examines the effects of exoskeletons in the workplace on workers’ affectivity, introducing the novel notion of 'body invasion' as an extension of 'mind invasion'. Mind invasion critiques the user-resource model in extended mind debates and it refers to the ways in which it is not exactly my individual decision to employ a mind tool to pursue the goals I chose for myself, but rather “forms of pervasive framing and molding effected by aspects of technical infrastructure and institutional realities”. Similarly, we propose 'body invasion', which refers to the potential impact of wearable technologies like exoskeletons. By changing the embodiment of workers in ways that might go beyond the fulfillment of goals the worker chooses for herself, these technologies can reshape affective repertoires, especially in the interactions with other workers. For instance, while they can enhance performance, they may also raise expectations, increasing anxiety. This change can lead to new bodily affective styles and unexpected affective atmospheres in the workplace. The presentation shows that while these technologies offer benefits, their potential risks, especially in altering affectivity and embodiment, must be considered when designing and regulating these technologies.
Danica Kragic is a Professor at the School of Computer Science and Communication at the Royal Institute of Technology, KTH. She is the Director of the Centre for Autonomous Systems. Danica received the 2007 IEEE Robotics and Automation Society Early Academic Career Award. She is a member of the Royal Swedish Academy of Sciences, Royal Swedish Academy of Engineering Sciences and Young Academy of Sweden. She holds a Honorary Doctorate from the Lappeenranta University of Technology. Her research is in the area of robotics, computer vision and machine learning. She is an IEEE Fellow .
To be deployed in unstructured environments, autonomous systems such as robots need the ability to learn motor skills autonomously, through continuous interaction with the environment, humans and other robots. Although classically built on rigorous control theory, mathematical and theoretical computer science methodologies, more recently data-driven learning methods, such as Deep Learning (DL) and Reinforcement Learning (RL) have been demonstrated as powerful technologies for developing AS. Still, most of the practical applications exist in carefully structured settings where i) there exists enough data to train the models, ii) one can structure the search problem efficiently, and iii) there is a computational infrastructure and/or many robots to run large scale experiments. The last point in particular is valid for only a handful of labs in the world and even in their case, mostly in collaboration with a handful of companies. -- Despite the progress, four open problems are: i) multi-task and transfer learning, ii) learning with little data, iii) learning when a reward function or the desired outcome of a task is difficult to define, and iv) learning in a continual/non-episodic manner. All these four are extremely important in robotics given that a robot acts in and interacts with the physical world that is dynamic and unstructured. A robot perceives the world with a multitude of sensors, is expected to build and update a model of the world incrementally and continuously over time and use it to make decisions, plan actions, fulfill useful tasks and generalize between tasks that are similar in nature. For robots to become safe and robust, it is essential to understand how learning algorithms for discrete sequential decision-making can interact with continuous physics based dynamics. The research problems considered in this project span over several artificial intelligence research areas: computer vision, machine learning, and robotics. Despite the important progress in all three areas, there are still no robots that exhibit anything close to human ability to acquire and learn complex behaviors. In our recent work, we build upon two major recent developments in the field, Diffusion Policies for visuomotor manipulation and large pre-trained multimodal foundational models to obtain a robotic skill learning system. The system can obtain new skills via the behavioral cloning approach of visuomotor diffusion policies given teleoperated demonstrations. Foundational models are being used to perform skill selection given the user's prompt in natural language. Before executing a skill, the foundational model performs a precondition check given an observation of the workspace.
Margherita Pugnaletto is a Post-Doc Research Fellow at the Dirpolis Insitute (SSSA) Italy and a Research Associate at the Centre des Savoirs sur le Politique - Recherches et Analyses, CESPRA (EHESS) France. She teaches History of Political Ideas at ICP Rouen. Margherita received her Ph.D. on May 26th 2023 in Philosophy from Padua University in Italy and in Political Studies, mention Political Philosophy, from EHESS in France. She also has several years of experience in German and US tech startup ecosystem. Her main research interests are political philosophy, social philosophy, sociology of work, and applied ethics.
The presentation aims to explore the relationship between work dynamics, technological innovation, and social cohesion, starting from ethical considerations related to the integration and/or replacement of human labor by digital automation systems, included robots. It discusses the historical evolution from Industry 1.0 to 5.0, outlining each phase's characteristics and impacts. It presents the interconnection between an analysis of meaningful work and the prospect of transitioning to Industry 5.0, highlighting its focus on human-centered production and evaluating the significance of labor in a scenario of progressively evolving conventional employment. Central to this exploration is the concept of 'meaningful work'—work that transcends mere production, enriching personal and social experiences and contributing to individual fulfillment and societal fabric. Finally, it delves into the debate surrounding the concept of a 'new Digital Social Contract,' as highlighted by the High-Level Expert Group on the Impact of Digital Transformation on EU Labour Markets report (2019), reflecting on the challenges that this evolving digital landscape poses to our foundational societal agreement, reevaluating the role and temporal contribution of individuals to labor and examining the impact for the social fabric of the labor market.
Oliver Bendel is Professor at the FHNW School of Business, Switzerland. He was born in 1968 in Ulm, Germany. After studying philosophy and German philology (M.A.) and information science (Dipl.-Inf.-Wiss.) at the University of Konstanz and gaining initial professional experience, he completed his doctorate in information systems at the University of St. Gallen (Dr. oec.). Bendel has worked in Germany and Switzerland as a project manager for new media and as a supervisor for engineering and science departments at several universities. He now works in Switzerland as a professor of information systems, information ethics, and machine ethics. It is from these perspectives that he primarily looks at AI systems and robots.
Robots play an important role in industry. In recent years, there have been interesting innovations in production and logistics. Large classic industrial robots are turning into small cobots. Cobots become service robots. Classic service robots are discovering the factory. Metamorphoses are taking place. This talk hypothesizes that recent developments will have a significant impact on workers and work. In particular, the precursors of universal robots could significantly change the factory of the future, just as they will change society as a whole. After all, with universal robots, the boundaries between industrial and service robots are becoming increasingly blurred.
Alberto Pirni (PhD) is Associate Professor in Moral Philosophy at the Institute of Law, Politics and Development by the Sant’Anna School of Advanced Studies (Pisa), where he coordinates the Research Area in “Ethics and Global Challenges”. He is the author of 5 monographs, 4 co-authored volumes, and over 220 essays in volumes and refereed national and international journals (in 6 languages). His main research fields involve German Classical Philosophy, public ethics and institutional ethics, ethics of technology and ethics of robot companionship, ethics of sustainability, theories of motivation, and theories of (climate, energy and intergenerational) justice.
The talk revolves around the social significance of the Human Effort as a question of (personal and collective) meaning, dealing with a twofold intertwined focus.
On the one hand, from a descriptive point of view, it will be tackling the comprehensive challenge of the transformation of work, by referring to the diminishing of the number of workers and the increasing of implementation of the technological solutions for reaching the same (or also a better) product, from the qualitative / quantitative point of view.
On the other, the talk will focus on the first-person point of view, by introducing the main lines for an ethical evaluation of such a challenge. Specifically, the talk shall address the Western and systemic linkage between personal identity and work dimension, and the correlative, still not acknowledged and underestimated risks of its comprehensive disaggregation and reshaping need.