Human systems engineering

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Human systems engineering (HSE) is a field based on systems theory intended as a structured approach to influence the intangible reality in organizations in a desirable direction. HSE claims to turn complexity into an advantage, to ease innovation processes in organizations and to master problems rooted in negative emotions and lack of motivation. It is taught in a Master of Advanced Studies program of the University of Applied Sciences Western Switzerland (HES-SO) as a complementary and postgraduate program for students who have already achieved a bachelor level or an MBA.

Recently, after the crisis of the Swiss banking system due to whistle blowing and to the stealing and selling to intelligence services of sensitive data by bank personnel, numerous articles featured "human risks" as a major problem in organisations. According to de:Lutz von Rosenstiel [1] the "lack of meaning" and conflicts between personal and organisational values systems is becoming increasingly a problem; people have not any more the feeling to "belong" to an organization if every relation is to be seen as a commercial interaction. Chris Argyris sees the same problem from the point of view of learning interactions between the organization and personnel, where the organization expects from its personnel to learn in order to fulfil jobs, but the organization is not prepared to learn from its personnel through double-loop learning. [2]

To handle these issues, in HSE, the organization is seen as a living system according to J.G. Millers theory of open and self organizing systems. [3] In HSE, the 3 systemic levels "individual", "group" and "organization" are considered as main entities and targets to influence, whereas the levels "society" and "supranational system" supply the criteria for a positive insertion of the organization in its environment. This approach is intended to help managers to understand the organization as a complex and organic system where functional relations, hierarchy and processes are only the visible and tangible part of the "iceberg". HSE claims the invisible part is as important as the tangible and structural aspects of the organizations. HSE sees the invisible as the unconscious part of both the individual and the organization as a collective entity. Fritjof Capra describes the subtle interactions between the tangible and the invisible in one of his books. [4]

From an epistemological point of view HSE refers explicitly to Edgar Morin's proposal to link sciences and practices [5] and to Jean Piaget's concept of "transdisciplinarity".

As a result of the program, human risks and the resources deriving from a positive interaction are now better understood. [6] [7] [8] [9] [10] As in a part of the Swiss academic system (University of Applied Sciences) Master Thesis' include applications of contents and learned skills, HSE is becoming increasingly popular amongst private or public organizations when resolving problems on the intangible side becomes critical for survival or for success. Further, 7 cohorts of students who achieved their master's degree "teach the gospel" in and around Switzerland.

HSE was first launched in French in 2002 at the University of Applied Sciences Western Switzerland and in 2004 at the Zurich University of Applied Sciences in German language.

The program was founded in 2002 by two professors of the university:

The program in Zürich was abandoned after a few years. In 2018, the French program was renamed "Développement Humain dans les Organisations" (human development in organizations). [13]

Recently Massachusetts Institute of Technology started using the term "Human Systems Engineering" in its Engineering Systems Division, putting the focus on how people and organizations, conceive, develop and handle technological systems. Specialised courses focus on topics such as "The Human Side of Technology" or more human risk oriented courses as for example "Managing Nuclear Technology".

A similar program exists at Concordia University in Canada: Human Systems Intervention. [14]

Several departments and academic programs at the Georgia Institute of Technology focus on Human Systems Engineering and related theory. Namely their Masters program in Human Computer Interaction, which explores intersections of industrial design, psychology, interactive computing, and media, [15] and the professional education short course "Introduction to Human Systems Integration [16] ," which considers Human Systems Engineering as it relates to addressing human-related issues in design. The Georgia Tech Research Institute, the applied research arm of the Georgia Institute of Technology, houses a Human Systems Engineering branch that focuses primarily on applications of Human Systems Engineering in the defense domain. [17]


Related Research Articles

Intellectual capital is the result of mental processes that form a set of intangible objects that can be used in economic activity and bring income to its owner (organization), covering the competencies of its people, the value relating to its relationships, and everything that is left when the employees go home, of which intellectual property (IP) is but one component. It is the sum of everything everybody in a company knows that gives it a competitive edge. The term is used in academia in an attempt to account for the value of intangible assets not listed explicitly on a company's balance sheets. On a national level, intellectual capital refers to national intangible capital (NIC).

The following outline is provided as an overview of and topical guide to human–computer interaction:

<span class="mw-page-title-main">Customer service</span> Provision of service to customers

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A value network is a graphical illustration of social and technical resources within/between organizations and how they are utilized. The nodes in a value network represent people or, more abstractly, roles. The nodes are connected by interactions that represent deliverables. These deliverables can be objects, knowledge or money. Value networks record interdependence. They account for the worth of products and services. Companies have both internal and external value networks.


Service design is the activity of planning and arranging people, infrastructure, communication and material components of a service in order to improve its quality, and the interaction between the service provider and its users. Service design may function as a way to inform changes to an existing service or create a new service entirely.

<span class="mw-page-title-main">Design management</span> Field of inquiry in business

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<span class="mw-page-title-main">Biological engineering</span> Application of biology and engineering to create useful products

Biological engineering or bioengineering is the application of principles of biology and the tools of engineering to create usable, tangible, economically-viable products. Biological engineering employs knowledge and expertise from a number of pure and applied sciences, such as mass and heat transfer, kinetics, biocatalysts, biomechanics, bioinformatics, separation and purification processes, bioreactor design, surface science, fluid mechanics, thermodynamics, and polymer science. It is used in the design of medical devices, diagnostic equipment, biocompatible materials, renewable energy, ecological engineering, agricultural engineering, process engineering and catalysis, and other areas that improve the living standards of societies.

<span class="mw-page-title-main">Paul Dourish</span> British-American computer scientist

Paul Dourish is a computer scientist best known for his work and research at the intersection of computer science and social science. Born in Scotland, he holds the Steckler Endowed Chair of Information and Computer Science at the University of California, Irvine, where he joined the faculty in 2000, and where he directs the Steckler Center for Responsible, Ethical, and Accessible Technology. He is a Fellow of the AAAS, the ACM, and the British Computer Society, and is a two-time winner of the ACM CSCW "Lasting Impact" award, in 2016 and 2021.

Industrial management is a branch of engineering which facilitates creation of management system and integrates the diverse engineering processes. Industrial Management deals with industrial design, construction, management, and application of science and engineering principles to improve the entire industrial infrastructure and industrial processes.

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Ekaterini Panagiotou Sycara is a Greek computer scientist. She is an Edward Fredkin Research Professor of Robotics in the Robotics Institute, School of Computer Science at Carnegie Mellon University internationally known for her research in artificial intelligence, particularly in the fields of negotiation, autonomous agents and multi-agent systems. She directs the Advanced Agent-Robotics Technology Lab at Robotics Institute, Carnegie Mellon University. She also serves as academic advisor for PhD students at both Robotics Institute and Tepper School of Business.

<span class="mw-page-title-main">Anind Dey</span> Canadian academic (born 1970)

Anind Dey is a computer scientist. He is the Dean of the University of Washington Information School. Dey is formerly the director of the Human-Computer Interaction Institute at Carnegie Mellon University. His research interests lie at the intersection of human–computer interaction and ubiquitous computing, focusing on how to make novel technologies more usable and useful. In particular, he builds tools that make it easier to build useful ubiquitous computing applications and supporting end users in controlling their ubiquitous computing systems.

<span class="mw-page-title-main">Industrial engineering</span> Branch of engineering which deals with the optimization of complex processes or systems

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<span class="mw-page-title-main">Christa Muth</span> German systems scientist (born 1949)

Christa Muth is a German systems scientist, management professor and management consultant. She spent most of her life in Switzerland and is notable for emphasizing the importance of the intangible aspects in organizations and in business strategies. She coined the term “Human Systems Engineering” and gave it to a Master of Advanced Studies Program she developed at the HES-SO. After she handed over the direction of this program to a successor, she developed a new area of interest in the field of “societal innovation."

<span class="mw-page-title-main">SUPSI</span> Swiss university

The University of Applied Sciences and Arts of Southern Switzerland is one of the Universities of Applied Sciences of the Swiss Confederation. SUPSI offers more than 30 bachelor and master courses, complementing theoretical scientific knowledge and practical technological advances applied to real projects. Various departments of SUPSI are mainly based in Southern Switzerland. Instruction is mainly in Swiss Italian, with some courses delivered in English and German.

<span class="mw-page-title-main">Human factors and ergonomics</span> Designing systems to suit their users

Human factors and ergonomics is the application of psychological and physiological principles to the engineering and design of products, processes, and systems. Primary goals of human factors engineering are to reduce human error, increase productivity and system availability, and enhance safety, health and comfort with a specific focus on the interaction between the human and equipment.

Team Based Learning Organisation (TBLO)

<span class="mw-page-title-main">Guy André Boy</span>

Guy André Boy is a French and American scientist and engineer, Fellow of the International Council on Systems Engineering (INCOSE), the Air and Space Academy and the International Academy of Astronautics. He is FlexTech chair holder and university professor at CentraleSupélec and ESTIA Institute of Technology. He was university professor and dean (2015–2017) at Florida Institute of Technology (FIT), where he created the Human-Centered Design Institute in 2010. He was senior research scientist at Florida Institute for Human and Machine Cognition (IHMC). He was Chief Scientist for Human-Centered Design at NASA Kennedy Space Center (KSC) from 2010 to 2016. He is known for his work on intelligent assistance, cognitive function analysis, human-centered design (HCD), orchestration of life-critical systems, tangible interactive systems and human systems integration.

References

  1. von Rosenstiel L., Nerdinger F., Spiess E., Was morgen alles anders läuft, Econ Verlag 1991
  2. Argyris C., Organizational Learning II. Theory, Method and Practice, Addison-Wesley Pub. Co, 1996
  3. Miller J.G., Living Systems, McGraw-Hill, 1978
  4. Capra F., The Hidden Connections: A Science for Sustainable Living,Doubleday 2002
  5. Morin E., Relier les connaissances – Le défi du XXIe siècle, Ed. Seuil 1999
  6. Dubouloz C., Le bonheur des collaborateurs est un facteur décisif du succès, in Le Temps, 29.04.2005,
  7. Bloch E. Entreprises: gros protentiels pour les biens intangibles, in AGEFI 04.07.2005,
  8. Bodard Senn J., Maîtriser les facteurs humains, in Swiss Engineering, 12–2003,
  9. Stöcklin V., L'entreprise, un système vivant, in 24 heures, 20.11.2003
  10. Baillod G., Le secret des processus humains, in Bilan, 1–2005
  11. Dorier R, Muth C., Comment utiliser la complexité – Outils, attitudes et compétences à développer, jobindex media ag, 2010
  12. Leonardo 3.4.5
  13. "MAS HES-SO Développement humain dans les organisations / MAS DHO". heig-vd.ch. Retrieved 2020-12-22.
  14. "Human Systems Intervention (MA)". www.concordia.ca. Retrieved 2020-12-22.
  15. "MS-HCI at Georgia Tech".
  16. "Georgia Tech Professional Education: Introduction to Human Systems Integration".
  17. "GTRI Core Competencies, Human Systems".
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