learn or gain knowledge from experience. We believe this learning mechanismwill facilitate robots to adjust to or understand environments more efficientlyand reliably in the future.References1. Beetz, M., Mosenlechner, L., Tenorth, M. In: CRAM - A Cognitive Robot AbstractMachine for Everyday Manipulation in Human Environments. IEEE (2010) 1012–10172. Kelley, T.D.: Developing a psychologically inspired cognitive architecture forrobotic control : The symbolic and subsymbolic robotic intelligence control system.Advanced Robotic 3 (2006) 219–2223. Hanford, S.D., Janrathitikarn, O., Long, L.N.: Control <strong>of</strong> mobile robots usingthe soar cognitive architecture. Journal <strong>of</strong> Aerospace Computing Information andCommunication 5 (2009) 1–474. Hawes, N., Sloman, A., Wyatt, J., Zillich, M., Jacobsson, H., Kruijff, G., Brenner,M., Berginc, G., Skocaj, D. In: Towards an Integrated Robot with Multiple CognitiveFunctions. Volume 22. Menlo Park, CA; Cambridge, MA; London; AAAIPress; MIT Press; 1999 (2007) 1548–15535. Hindriks, K.: Programming rational agents in goal. In: Multi-Agent Programming:Languages, Tools and Applications. Springer US (2009) 119–1576. http://ii.tudelft.nl/trac/goal (2012)7. Hindriks, K.V., van Riemsdijk, M.B., Behrens, T.M., Korstanje, R., Kraaijenbrink,N., Pasman, W., de Rijk, L.: Unreal goal agents. In: AGS 2010. (2010)8. Behrens, T., Hindriks, K., Dix, J.: Towards an environment interface standard foragent platforms. Annals <strong>of</strong> Mathematics and Artificial Intelligence (2010) 1–359. Shanahan, M., Witkowski, M.: High-level robot control through logic. EventLondon (2000) 104–12110. Soutchanski, M. In: High-level Robot Programming and Program Execution.(2003)11. C<strong>of</strong>fey, S., Clark, K. In: A Hybrid, Teleo-Reactive Architecture for Robot Control.(2006)12. Burghart, C., Mikut, R., Stiefelhagen, R., Asfour, T., Holzapfel, H., Steinhaus, P.,Dillmann, R.: A cognitive architecture for a humanoid robot: a first approach.Architecture (2005) 357–36213. Anderson, J.R., Lebiere, C.: The atomic components <strong>of</strong> thought. Volume 3. Erlbaum(1998)14. Laird, J.E., Newell, A., Rosenbloom, P.S.: Soar: An architecture for general intelligence.Artificial Intelligence 33 (1987) 1–6415. Benjamin, P., Lyons, D., Lonsdale, D.: Designing a robot cognitive architecturewith concurrency and active perception. In: Proceedings <strong>of</strong> the AAAI Fall Symposiumon the Intersection <strong>of</strong> Cognitive Science and Robotics. (2004)16. Avery, E., Kelley, T., Davani, D.: Using cognitive architectures to improve robotcontrol : Integrating production systems , semantic networks , and sub-symbolicprocessing. System 77 (1990)17. Laird, J.E.: Toward cognitive robotics. Proceedings <strong>of</strong> SPIE 7332 (2009) 73320Z–73320Z–1118. Bekey, G.A.: Autonomous Robots: From Biological Inspiration to Implementationand Control. The MIT Press (2005)67
19. Baillie, J.C.: Urbi: Towards a universal robotic low-level programming language.2005 IEEERSJ International Conference on Intelligent Robots and Systems (2005)820–82520. Bradski, G.: The OpenCV Library. Dr. Dobb’s Journal <strong>of</strong> S<strong>of</strong>tware Tools (2000)21. Azad, P., Asfour, T., Dillmann, R.: Combining Harris interest points and theSIFT descriptor for fast scale-invariant object recognition. In: 2009 IEEE/RSJInternational Conference on Intelligent Robots and Systems, IEEE (2009) 4275–428022. Fischler, M.A., Bolles, R.C.: Random sample consensus: a paradigm for modelfitting with applications to image analysis and automated cartography. Communications<strong>of</strong> the ACM 24 (1981) 381–39523. Mika, S., Schaefer, C., Laskov, P., Tax, D., Mller, K.R. In: Support vector machines.Volume 1. Springer (2004) 1–3324. Qureshi, F., Terzopoulos, D., Gillett, R.: The cognitive controller: A hybrid, deliberative/reactivecontrol architecture for autonomous robots. Innovations in AppliedArtificial Intelligence 17th International Conference on Industrial and EngineeringApplications <strong>of</strong> Artificial Intelligence and Expert System IEAAIE 2004 3029(2004) 1102–111125. Arkin, R.C.: Integrating behavioral, perceptual, and world knowledge in reactivenavigation. Robotics and Autonomous Systems 6 (1990) 105–12226. Connell, J.H. In: SSS: a hybrid architecture applied to robot navigation. Volume 3.IEEE Comput. Soc. Press (1992) 2719–272427. Gat, E. In: Integrating Planning and Reacting in a Heterogeneous AsynchronousArchitecture for Controlling Real-World Mobile Robots. Citeseer (1992) 809–81528. Brooks, R.: A robust layered control system for a mobile robot. IEEE Journal <strong>of</strong>Robotics and Automation 2 (1986) 14–2329. Vernon, D., Metta, G., Sandini, G.: A survey <strong>of</strong> artificial cognitive systems: Implicationsfor the autonomous development <strong>of</strong> mental capabilities in computationalagents. Evolutionary Computation, IEEE Transactions on 11 (2007) 151 –18030. Johnson, M., Jonker, C.M., Riemsdijk, B.V., Feltovich, P.J., Bradshaw, J.M.: Jointactivity testbed: Blocks world for teams (bw4t). Engineering Societies in the <strong>Agents</strong>World X 442 (2009) 433–44268
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Proceedings of the Tenth Internatio
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OrganisationOrganising CommitteeMeh
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Table of ContentseJason: an impleme
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in Sect. 3 the translation of the J
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init_count(0).max_count(2000).(a)(b
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For instance, a failure in the ERES
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{plan, fun start_count_trigger/1,fu
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Caching the results of previous que
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querying an agent’s beliefs and g
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or relative performance of each pla
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were run for 1.5 minutes; 1.5 minut
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Size N K n p c qry U c upd Update c
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epresentation. The cache simply act
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6 ConclusionWe presented an abstrac
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Typing Multi-Agent Programs in simp
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1 // agent ag02 iterations (" zero
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3.1 simpAL OverviewThe main inspira
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3.2 Typing Agents with Tasks and Ro
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Defining Agent Scripts in simpAL (F
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that sends a message to the receive
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* error: wrong type for the param v
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Given an organization model, it is
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Learning to Improve Agent Behaviour
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2.1 Agent Programming LanguagesAgen
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choosing actions is to find a good
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1 init module {2 knowledge{3 block(
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of a module. For example, to change
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if bel(on(X,Y), clear(X)), a-goal(c
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mance. Figure 2d shows the same A f
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the current percepts of the agent.
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Author IndexAbdel-Naby, S., 69Alelc
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