Shanker Keshavdas and Geert-Jan M. Kruijff


  1. [1] A. Nüchter and J. Hertzberg, Towards semantic maps for mobile robots, Robotics and Autonomous Systems, 56(11), 2008, 915–926.
  2. [2] A. Aydemir, M. Göbelbecker, A. Pronobis, K. Sjöö, and P. Jensfelt, Plan-based object search and exploration using semantic spatial knowledge in the real world, Proc. European Conf. on Mobile Robotics (ECMR 2011), Orebro, Sweden, 2011.
  3. [3] H. Zender, O.M. Mozos, P. Jensfelt, G.J.M. Kruijff, and W. Burgard, Conceptual spatial representations for indoor mobile robots, Robotics and Autonomous Systems, 56(6), 2008, 493– 502.
  4. [4] M. Tenorth and M. Beetz, Towards practical and grounded knowledge representation systems for autonomous household robots, Proc. 1st Int. Workshop on Cognition for Technical Systems, München, Germany, 2008.
  5. [5] G.A. Kaminka and I. Frenkel, Flexible teamwork in behaviorbased robots, Proc. of AAAI 2005, Pittsburgh, Pennsylvania, USA, 2005.
  6. [6] G.A. Kaminka and I. Frenkel, Integration of coordination mechanisms in the BITE multi-robot architecture, Proc. of ICRA 2007, Rome, Italy, 2007.
  7. [7] R.R. Hoffman, J.D. Lee, D.D. Woods, N. Shadbolt, J. Miller, and J.M. Bradshaw, The dynamics of trust in cyberdomains, IEEE Intelligent Systems, 24(6), 2009, 5–11.
  8. [8] G.-J. Kruijff, M. Janicek, S. Keshavdas, B. Larochelle, and H. Zender, Experience in system design for human-robot teaming 134 in urban search & rescue, Proc. of Field and Service Robotics (FSR) 2012, Matsushima, Japan, 2012.
  9. [9] K.R. Coventry and S.C. Garrod, Seeing, saying and acting: The psychological semantics of spatial prepositions (Psychology Press, Taylor & Francis, Hove and New York, 2004).
  10. [10] N. Goerke and S. Braun, Building semantic annotated maps by mobile robots. Proc. TAROS 2009: Toward Autonomous Robotic Systems, Londonderry, United Kingdom, 2009, 149– 156.
  11. [11] S. Vasudevan, S. G¨achter, V. Nguyen, and R. Siegwart, Cognitive maps for mobile robots-an object based approach, Robotics and Autonomous Systems, 55(5), 2007, 359–371.
  12. [12] H. Zender, P. Jensfelt, and G.J.M. Kruijff, Human and situation-aware people following, Proc. 16th IEEE Int. Symp. on Robot and Human Interactive Communication (ROMAN 2007), Jeju, Korea, August 2007, 1131–1136.
  13. [13] J.L. Wyatt, A. Aydemir, M. Brenner, M. Hanhiede, N. Hawes, P. Jensfelt, M. Kristan, G.J.M. Kruijff, P. Lison, A. Pronobis, K. Sjöö, D. Skocaj, and A. Vrecko, Self-understanding and self-extension: A systems and representational approach, IEEE Transactions on Autonomous Mental Development, 2(4), 2010, 282–303.
  14. [14] S. Thrun, W. Burgard, and D. Fox, Probabilistic robotics. Intelligent robotics and utonomous agents (Cambridge, MA: The MIT Press, 2005).
  15. [15] T.D. Garvey, Perceptual strategies for purposive vision, Technical Report, AI Center, SRI International, Menlo Park, CA, September 1976, Report No. 117.
  16. [16] J.K. Tsotsos, On the relative complexity of active vs. passive visual search, International Journal of Computer Vision, 7(2), 1992, 127–141.
  17. [17] A. Aydemir and P. Jensfelt, What can we learn from 38,000 rooms? Reasoning about unexplored space in indoor environments, Proc. of the 2012 IEEE/RSJ Int. Conf. on Intelligent Robots and Systems (IROS), Vilamoura-Algarve, Portugal, 2012.
  18. [18] A. Aydemir and P. Jensfelt, Exploiting and modeling local 3d structure for predicting object locations, Proc. 2012 IEEE/RSJ Int. Conf. on Intelligent Robots and Systems (IROS), Vilamoura-Algarve, Portugal, 2012.
  19. [19] M. Hanheide, N. Hawes, J. Wyatt, M. Göbelbecker, M. Brenner, K. Sjöö, A. Aydemir, P. Jensfelt, H. Zender and G.J. Kruijff, A framework for goal generation and management, Proc. of the AAAI Workshop on Goal-Directed Autonomy, Atlanta, USA, 2010.
  20. [20] H. Khambhaita, G.J.M. Kruijff, M. Mancas, M. Gianni, P. Papadakis, F. Pirri, and M. Pizzoli, Help me to help you: How to learn intentions, actions and plans, Proc. of the AAAI Spring Symposium 2011, Palo Alto, USA, March 2011.
  21. [21] E. Prince, The ZPG letter: Subjects, definiteness, and information status, in S. Thompson and W. Mann (eds.), Discourse description: Diverse analyses of a fund raising text (John Benjamins, 1992), Philidelphia, USA, 295–325.
  22. [22] M. Poesio and R. Vieira, A corpus-based investigation of definite description use. Computational Linguistics, 24(2), 1998, 183–216.
  23. [23] H.H. Clark, Bridging, in R.C. Schank and B.L. Nash-Webber (eds.), Theoretical issues in natural language processing (New York, NY: Association for Computing Machinery, 1975).
  24. [24] T.P. McNamara, Mental representations of spatial relations, Cognitive Psychology, 18, 1986, 87–121.
  25. [25] T.B. Sheridan and W.L. Verplank, Human and computer control of undersea teleoperators (Man-Machine Systems Laboratory Report), Technical Report, Massachusetts Institute of Technology, 1978.
  26. [26] M.R. Endsley, Theoretical underpinnings of situation awareness: A critical review, in M.R. Endsley and D.J. Garland (eds.), Situation awareness analysis and measurement (Mahwah, New Jersey, USA: Lawrence Erlbaum, 2000).
  27. [27] R. Parasuraman, T.B. Sheridan, and C.D. Wickens, A model for types and levels of human interaction with automation, IEEE Transactions on Systems, Man, and Cybernetics. Part A: Systems and Humans, 30, 2000, 286–297.
  28. [28] S. Keshavdas, H. Zender, G.J.M Kruijff, M. Liu, and F. Colas, Functional mapping: Spatial inferencing to aid human-robot rescue efforts in unstructured disaster environments, Proc. 2012 AAAI Spring Symposium on Designing Intelligent Robots, Stanford, USA, 2012.
  29. [29] H.U. Krieger and G.J.M. Kruijff, Combining uncertainty and description logic rule-based reasoning in situation-aware robots, Proc. AAAI 2011 Spring Symposium “Logical Formalizations of Commonsense Reasoning, SS-11, AAAI Press, Stanford, USA, March 2011.
  30. [30] H.U. Krieger, A temporal extension of the Hayes/ter Horst entailment rules and an alternative to w3c’s nary relations, 7th Int. Conf. on Formal Ontology in Information Systems. IOS Press, Graz, Austria, 2012.
  31. [31] D. Hurych, K. Zimmermann, and T. Svoboda, Fast learnable object tracking and detection in high resolution omnidirectional images, Int. Joint Conf. on Computer Vision, Imaging and Computer Graphics Theory and Applications, VilamouraAlgarve, Portugal, March 2011.

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