Note:  This list of article is "in progress" - during lectures and assignments we will organize it;

Module 1 - articles

Agre, P., 2001. Changing places: Contexts of awareness in computing. Human Computer Interaction 16, 177–192.
Bainbridge, L., 1983. Ironies of automation, in: Analysis, Design and Evaluation of Man–Machine Systems 1982. Elsevier, pp. 129–135.
Breazeal, C. (1998). A Motivational System for Regulating Human-Robot Interaction. In AAAI-98 Proceedings - Google Search [WWW Document], n.d. URL,+C.+(1998).+A+Motivational+System+for+Regulating+Human-Robot+Interaction.+In+AAAI-98+Proceedings&spell=1&sa=X&ved=0ahUKEwino_DshpfdAhXltIsKHb94D34QBQgmKAA&biw=2560&bih=1263 (accessed 8.31.18b).
Brown, B., Weilenmann, A., McMillan, D., Lampinen, A., 2016. Five Provocations for Ethical HCI Research, in: Proceedings of the 2016 CHI Conference on Human Factors in Computing Systems, CHI ’16. ACM, New York, NY, USA, pp. 852–863.
Schulz, Classifying Human and Robot Movement at Home and Implementing Robot Movement Using the Slow In, Slow Out Animation Principle, n.d.
Cummings, M., 2004. Automation bias in intelligent time critical decision support systems, in: AIAA 1st Intelligent Systems Technical Conference. p. 6313.
Dautenhahn, K., 2018. Some Brief Thoughts on the Past and Future of Human-Robot Interaction. ACM Trans. Hum.-Robot Interact. 7, 4:1–4:3.
Designing robots with movement in mind [WWW Document], n.d. URL (accessed 8.31.18).
Dourish, P., 2004. What we talk about when we talk about context. Personal and ubiquitous computing 8, 19–30.
Giuliano, V.E., 1982. The Mechanization of Office Work. Scientific American 247, 148–165.
Jung, M., Hinds, P., 2018. Robots in the Wild: A Time for More Robust Theories of Human-Robot Interaction. ACM Trans. Hum.-Robot Interact. 7, 2:1–2:5.
Kanda, T., Hirano, T., Eaton, D., Ishiguro, H., 2004. Interactive robots as social partners and peer tutors for children: A field trial. Human–Computer Interaction 19, 61–84.
Norman, D.A., 1990. The ‘problem ’ with automation: inappropriate feedback and interaction, not ‘over-automation.’ Phil. Trans. R. Soc. Lond. B 327, 585–593.
Pacaux, M.-P., Godin, S.A.D., Rajaonah, B., Anceaux, F., Vanderhaegen, F., 2011. Levels of automation and human-machine cooperation: Application to human-robot interaction. IFAC Proceedings Volumes 44, 6484–6492.
Parasuraman, R., Riley, V., 1997. Humans and Automation: Use, Misuse, Disuse, Abuse. Hum Factors 39, 230–253.
Schilit, B.N., Hilbert, D.M., Trevor, J., 2002. Context-aware communication. Wireless Communications, IEEE [see also IEEE Personal Communications] 9, 46–54.
Somers, J., n.d. Progress in AI seems like it’s accelerating, but here’s why it could be plateauing [WWW Document]. MIT Technology Review. URL (accessed 8.31.18).
Suchman, L., 2011. Subject objects. Feminist Theory 12, 119–145.
Susi, T., Ziemke, T., 2005. On the Subject of Objects: Four Views on Object Perception and Tool Use. 1 3, 6–19.
Thrun, S., 2004. Toward a Framework for Human-robot Interaction. Hum.-Comput. Interact. 19, 9–24.
Ziemke, T., 2008. On the role of emotion in biological and robotic autonomy. BioSystems 91, 401–408
Verne, G, Bratteteig, 2018, Does AI make PD obsolete?; exploring challenges from Artificial Intelligence to Participatory design,

Module 1 books; check them out;) - you are not expected to read all

Agre, P.E., 1997. Computation and Human Experience. Cambridge University Press, New York, NY, USA.

Dreyfus, H.L., 1972. What computers can’t do; a critique of artificial reason. Harper & Row, New York.
Minsky, M., 1985. The Society of Mind. Touchstone by Simon & Schuster.
Newell, A., Simon, H.A., 1972. Human problem-solving. Prentice-Hall, Englewood Cliffs.
Simon, H., 1996. The Sciences of the artificial. The MIT Press, Cambridge.
Suchman, L., 1987. Plans and situated actions: the problem of human-machine communication. Cambridge University Press.
Weizenbaum, J., 1976. Computer Power and Human Reason: From Judgment to Calculation. W. H. Freeman & Co., New York, NY, USA.
Winograd, T., Flores, F., 1986. Understanding computers and cognition; a new foundation for design. Addison-Wesley, Reading.

Module 1 - films (check them out)

Plug and Pray; documentary with Weizenbaum and others

Do you trust this computer?

Module 2 articles

Luger, E., & Sellen, A. (2016, May). Like having a really bad PA: the gulf between user expectation and experience of conversational agents. In Proceedings of the 2016 CHI Conference on Human Factors in Computing Systems (pp. 5286-5297). ACM.

Følstad, A., & Brandtzæg, P. B. (2017). Chatbots and the new world of HCI. interactions, 24(4), 38-42.

Carter, S., & Nielsen, M. (2017). Using artificial intelligence to augment human intelligence. Distill, 2(12), e9.

Vinyals, O., & Le, Q. (2015). A neural conversational model. arXiv preprint:1506.05869

Frey, C. B., & Osborne, M. A. (2017). The future of employment: how susceptible are jobs to computerisation?. Technological forecasting and social change, 114, 254-280.

Bessi, A., & Ferrara, E. (2016). Social bots distort the 2016 US Presidential election online discussion. First Monday, 21(11)

Module 2 books

Noessel, C. (2017). Designing Agentive technology: AI that works for people. Rosenfeld Media.

Hall, E. (2018). Conversational design. A Book Apart

McAfee, A., & Brynjulfsson, E. (2016). Machine, Platform, Crowd. Harnessing Our Digital Future. Norton & Company.


Module 3 articles

Hernández-Orallo, Evaluation in artificial intelligence: from task-oriented to ability-oriented measurement , J. Artif Intell Rev (2017) 48: 397.

Buchner R., Wurhofer D., Weiss A., Tscheligi M. (2013) Robots in Time: How User Experience in Human-Robot Interaction Changes over Time. In: Herrmann G., Pearson M.J., Lenz A., Bremner P., Spiers A., Leonards U. (eds) Social Robotics. ICSR 2013. Lecture Notes in Computer Science, vol 8239. Springer, Cham

Elizabeth Phillips, Scott Ososky, Brittany Swigert, and Florian Jentsch, Human-animal teams as an analog for future human-robot teams, Proceedings of the Human Factors and Ergonomics Society Annual Meeting, Vol 56, Issue 1, (2016) pp. 1553 - 1557

Lindblom J., Andreasson R. (2016) Current Challenges for UX Evaluation of Human-Robot Interaction. In: Schlick C., Trzcieliński S. (eds) Advances in Ergonomics of Manufacturing: Managing the Enterprise of the Future. Advances in Intelligent Systems and Computing, vol 490. Springer, Cham

Sarah Woods 1 , Kerstin Dautenhahn, Christina Kaouri, René te Boekhorst, Kheng Lee Koay and Michael L. Walters , (2007) Are robots like people?: Relationships between participant and robot personality traits in human–robot interaction studies, Interaction Studies, Volume 8, Issue 2, Jan 2007, p. 281 – 305

Modul 3 book

Endsley, Mica R.. Designing for Situation Awareness: An Approach to User-Centered Design, Second Edition CRC Press. 2011 (chapters 2 and 10)


Publisert 26. aug. 2018 18:43 - Sist endret 16. okt. 2018 09:24