GRiSSH::Mediterranean archaeology & archaeometry : international journal | Vol.16, No.5, 2016 | Virtual agora : Representation of an ancient Greek agora in virtual worlds using biologically-inspired motivational agents

Information

Virtual agora : Representation of an ancient Greek agora in virtual worlds using biologically-inspired motivational agents

Part of : Mediterranean archaeology & archaeometry : international journal ; Vol.16, No.5, 2016, pages 29-41

Issue:

Vol.16, No.5, 2016

Pages:

29-41

Author:

Abstract:

Populating virtual worlds with computer controlled characters is a key issue in virtual heritage applications, an argument that can also be held as valid for the majority of virtual world applications. Virtual heritage worlds usually tend to be either devoid of people, or include computer-controlled characters that function as animated props, demonstrating pre-scripted and repetitive behaviour. In more advanced approaches, digital characters in special roles, such as virtual guides, may also be situated in the virtual world. Recent virtual heritage reconstruction works seem to acknowledge the necessity of incorporating non-human controlled characters that include intelligence in order to enhance presence and provide the user with an engaging experience. This paper presents the design and development of Virtual Agora, a virtual heritage application in the Open Simulator environment aiming to replicate daily life in an ancient Greek agora using biologically-inspired motivational agents. The application follows a multi-layered motivational model for agents that includes biological, as well as psychosocial needs. Every agent possesses a set of basic attributes that relate to its biological and physical characteristics, as well as its personality. Furthermore, agents are endowed with a set of behaviours that satisfy particular goals and consist of a sequence of actions towards achieving this goal. In addition to this generic action set, every agent possesses an extra set of actions, based on its assignment of a role or profession. The roles and the respective behaviours have been designed and selected based on available resources regarding life in the ancient agora of classical Athens. In the current implementation visitors can walk around the environment observing daily activities performed by the digital characters and interact with them by asking questions about aspects of their profession.

Subject:

History and Archaeology

Subject (LC):

Αρχαιολογία

Keywords:

virtual worlds, virtual heritage, intelligent agents, virtual humans, ancient Greece

Notes:

Περιέχει 5 εικόνες και 2 πίνακες

References (1):

Anderson, E. F., McLoughlin, L., Liarokapis, F., Peters, C., Petridis, P. and de Freitas, S. (2010). Developing serious games for cultural heritage: a state-of-the-art review. Virtual Reality, Vol. 14(4), 255–275.Avradinis, N., Panayiotopoulos, T. and Anastassakis, G. (2013) Behavior believability in virtual worlds: agents acting when they need to. Springerplus 2013, Vol 2:246Bailey, C., You, J., Acton, G., Rankin, A. and Katchabaw, M. (2012) Believability Through Psychosocial Behaviour: Creating Bots That Are More Engaging and Entertaining, in Hingston P. (Ed), Believable Bots, Springer Berlin, 2012, 29-68.Bates, J. (1994) The role of emotion in believable agents. Communications of the ACM, Vol. 37(7), 122-125.Becker-Asano C., Prendinger H., Ishizuka, M. and Wachsmuth, I. (2005) Evaluating Affective Feedback of the 3D Agent Max in a Competitive Cards Game, Proceedings of Affective Computing and Intelligent Interaction, LNCS 3784, 466–473.Bevacqua, E., Mancini, M., Niewiadomski, R. and Pelachaud, C. (2007) An expressive ECA showing complex emotions. Proceedings of the AISB Annual convention, Workshop on Language, Speech and Gesture for Expressive Characters, Newcastle UK, 208-216.Bogdanovych, A., Rodriguez-Aguilar, J. A., Simoff, S. and Cohen, A. (2010). Authentic Interactive Reenactment of Cultural Heritage With 3D Virtual Worlds and Artificial Intelligence. Applied Artificial Intelligence, Vol. 24(6), 617–647.Bogdanovych, A., Ijaz, K. and Simoff, S. (2012). The city of Uruk: Teaching ancient history in a virtual world. Lecture Notes in Computer Science, Vol. 7502, 28–35.Bordeux, C., Boulic, R. and Thalmann, D. An efficient and flexible perception pipeline for autonomous agents. Computer Graphics Forum, Vol. 18(3).Dautenhahn, K. (1998) The Art of Designing Socially Intelligent Agents - Science, Fiction, and the Human in the Loop. Applied Artificial Intelligence, Vol. 12, 573-617.De Rosis, F., Pelachaud, C. and Poggi, I. (2003) Transcultural Believability in Embodied Agents: A Matter of Consistent Adaptation. In Payr, S. & Trappl, R. (Eds.), Agent Culture: Designing Human-Agent Interaction in a Multicultural World, Lawrence Erlbaum Associates.De Sevin, E. and Thalmann, D. (2005) A motivational Model of Action Selection for Virtual Humans. Proceedings of Computer Graphics International 2005 (CGI), New York, USA: IEEE Computer Society Press.Dinsmoor, W.B. (1941) Observations of the Hephaesteion. Hesperia: Journal of the American School of Classical Studies at Athens, Suppl. 5, Swets-Zeitlinger Amsterdam (repr. 1975), 1-164Erol, K., Hendler, J. and Nau, D. S. (1994). HTN planning: Complexity and expressivity. Proceedings of AAAI, 1123-1128.Gaitatzes, A., Christopoulos, D. and Roussou, M. (2001) Reviving the past : Cultural Heritage meets Virtual Reality. Proceedings of the 2001 Conference on Virtual Reality, Archeology, and Cultural Heritage, 103–110.Ho, W.C. and Dautenhahn K. (2008) Towards a Narrative Mind: The Creation of Coherent Life Stories for Believable Virtual Agents. In: Prendinger, H, Lester, J, Ishizuka, M (Eds) Lecture Notes in Computer Science 5208, Springer Berlin-Heidelberg, 59-72.Lester, J.C. and Stone, B.A. (1997) Increasing believability in animated pedagogical agents. Proceedings of the first international conference on Autonomous agents (AGENTS ’97) New York, USA, 16–21.Lim M.Y. and Aylett R.S. (2007) Feel the difference: A Guide with Attitude! Proceedings of Intelligent Virtual Agents 2007, 317–330.Lombardo, V. and Damiano, R. (2012) Storytelling on mobile devices for cultural heritage. New Review of Hypermedia and Multimedia, Vol. 18, 11–35.Loyall, A.B. and Bates, J. (1997) Personality-rich believable agents that use language. Proceedings of the First International Conference on Autonomous Agents. ACM Press, NY USA, 106–113.Luck, M. and Aylett, R. (2000) Applying artificial intelligence to virtual reality: Intelligent virtual environments. Applied Artificial Intelligence, Vol. 14(1), 3–32.Maïm, J., Haegler, S., Yersin, B., Mueller, P., Thalmann, D. and Gool, L. Van. (2007) Populating Ancient Pompeii with Crowds of Virtual Romans. Proceedings of VAST: International Symposium on Virtual Reality, Archaeology and Intelligent Cultural Heritage.Magnenat-Thalmann, N., Kim, H.S., Egges, A. and Garchery, S. (2005) Believability and Interaction in Virtual Worlds. Proceedings of the 11th Intl. Multimedia Modelling Conference (MMM'05). IEEE Computer Society, Washington, DCMorgan, C. (2009) (Re)Building Catalhoyuk: Changing Virtual Reality in Archaeology. Archaeologies: Journal of the World Archaeological Congress, Vol. 5(3), 468-487.Mori, M. (1970) The Uncanny Valley, Energy, Vol. 7(4), 33–5.Nau, D. (2013) Game applications of HTN planning with state variables. Proceedings of ICAPS Workshop on Planning in Games.Oberlander, J., Karakatsiotis, G., Isard, A. and Androutsopoulos, I. (2008) Building an adaptive museum gallery in Second Life. Proceedings of Museums and the Web, Montreal, Quebec, Canada.Ortony, A. (2003) On making believable emotional agents believable. In: Trappl, R., Petta, P., Payr, S., (Eds) Emotions in humans and artifacts. Cambridge, MA: MIT Press.Papagiannakis, G., Schertenleib, S., O‟Kennedy, B., Arevalo-Poizat, M., Magnenat-Thalmann, N., Stoddart, A. and Thalmann, D. (2005) Mixing virtual and real scenes in the site of ancient Pompeii. Computer Animation and Virtual Worlds, Vol. 16(1), 11–24.Prendinger, H. and Ishizuka, M. (2001) Let's talk! Socially intelligent agents for language conversation training. IEEE Transactions on Systems, Man and Cybernetics, Part A: Systems and Humans, Vol. 31(5), 465–471.Pujol, L. and Champion, E. (2012) Evaluating presence in cultural heritage projects. International Journal of Heritage Studies, Vol. 18(1), 83–102.Riedl, M.O. and Young R.M. (2003) An objective character believability evaluation procedure for multi-agent story generation systems. Proceedings of Intelligent Virtual Agents, 278–291.Vosinakis, S., & Panayiotopoulos, T. (2003) Programmable agent perception in intelligent virtual environments. Proceedings of Intelligent Virtual Agents 2003 Conference.Wallace, R. S. (2009) The anatomy of ALICE. In Epstein, R., Roberts, G., Beber, G. (Eds) Parsing the Turing Test, Springer Netherlands