Abstract
This survey provides an overview of implemented systems, theoretical work, as well as studies of biological systems relevant to the design of artificial learners trying to figure out what a human teacher would like them to do. Implementations of artificial learners are covered, with a focus on experiments trying to find better interpretations of human behavior, as well as algorithms that autonomously improve a model of the teacher. A distinction is made between learners trying to interpret teacher behavior in order to learn what the teacher would like the learner to do on the one hand, and learners whose explicit or implicit goal is to get something from the teacher on the other hand (for example rewards, or knowledge about how the world works). The survey covers the former type of systems. Human teachers are covered, focusing on studies that say something concrete about how one should interpret the behavior of a human teacher that is interacting with an artificial learner. Certain types of biological learners are interesting as inspiration for the types of artificial systems we are concerned with. The survey focus on studies of biological learners adopting normative conventions, as well as joint intentionality team efforts.
References
[1] C. L. Isbell, C. Shelton, M. Kearns, S. Singh, P. Stone, A social reinforcement learning agent, In Proceedings of the Fifth International Conference on Autonomous Agents, 200110.1145/375735.376334Search in Google Scholar
[2] C. L. Isbell, M. Kearns, S. Singh, C. Shelton, P. Stone, D. Kormann, Cobot in LambdaMOO: An adaptive social statistics agent, Autonomous Agents and Multiagent Systems, 13(3) (2006)10.1007/s10458-006-0005-zSearch in Google Scholar
[3] A. L. Thomaz, G. Hoffman, C. Breazeal, Reinforcement learning with human teachers: Understanding how people want to teach robots, In Proceedings of the 15th IEEE International Symposium on Robot and Human Interactive Communication (ROMAN), 200610.1109/ROMAN.2006.314459Search in Google Scholar
[4] M. Ho, M. Littman, F. Cushman, J. Austerweil, Teaching with rewards and punishments: Reinforcement or communication?, In Proceedings of the 36th Annual Meeting of the Cognitive Science Society, 2015Search in Google Scholar
[5] S. Griflth, K. Subramanian, J. Scholz, C. L. Isbell, A. L. Thomaz, Policy shaping: Integrating human feedback with reinforcement learning, In Proceedings of the International Conference on Neural Information Processing Systems (NIPS), 2013Search in Google Scholar
[6] T. Cederborg, I. Grover, C. L. Isbell, A. L. Thomaz, Policy shaping with human teachers, In Proceedings of the Twenty-Fourth International Joint Conference on Artificial Intelligence (IJCAI), 2015Search in Google Scholar
[7] M. K. Ho, J. MacGlashan, M. L. Littman, F. Cushman, Social is special: A normative framework for teaching with and learning from evaluative feedback, Cognition, 2017Search in Google Scholar
[8] C. Nehaniv, K. Dautenhahn, Of hummingbirds and helicopters: An algebraic framework for interdisciplinary studies of imitation and its applications. Interdisciplinary approaches to robot learning, World Scientific Press, 24 (2000), 136-16110.1142/9789812792747_0007Search in Google Scholar
[9] M. Stolle, C. G. Atkeson, Knowledge transfer using local features, In Proceedings of the IEEE International Symposium on Approximate Dynamic Programming and Reinforcement Learning, 200710.1109/ADPRL.2007.368165Search in Google Scholar
[10] P. Abbeel, A. Coates, A. Y. Ng, Autonomous helicopter aerobatics through apprenticeship learning, International Journal of Robotics Research, 29(13) (2010), 1608-163910.1177/0278364910371999Search in Google Scholar
[11] B. D. Argall, S. Chernova, M. Veloso, B. Brett, A survey of robot learning from demonstration, Robot. Auton. Syst, 57(5) (2009), 469-48310.1016/j.robot.2008.10.024Search in Google Scholar
[12] C. L. Nehaniv, Nine billion correspondence problems, In C. L. Nehaniv, K. Dautenhahn (Eds.), Imitation and Social Learning in Robots, Humans and Animals: Behavioural, Social and Communicative Dimensions, Cambridge University Press, 200710.1017/CBO9780511489808Search in Google Scholar
[13] M. Lopes, F. S. Melo, B. Kenward, J. Santos-Victor, A computational model of social-learning mechanisms, Adaptive Behaviour, 200910.1177/1059712309342757Search in Google Scholar
[14] K. Dautenhahn, C. L. Nehaniv, The agent-based perspective on imitation, In Imitation in animals and artifacts, MIT Press, (2002), 1-4010.7551/mitpress/3676.001.0001Search in Google Scholar
[15] S. M. Nguyen, P.-Y. Oudeyer, Socially guided intrinsic motivation for robot learning of motor skills, Autonomous Robots, Springer, 36(3) (2014), 273-29410.1007/s10514-013-9339-ySearch in Google Scholar
[16] E. A. Billing, T. Hellstrom, A formalism for learning from demonstration, Paladyn. Journal of Behavioral Robotics, 1(1) (2010), 1-1310.2478/s13230-010-0001-5Search in Google Scholar
[17] T. Cederborg, P.-Y. Oudeyer, A social learning formalism for learners trying to figure out what a teacher wants them to do, Paladyn. Journal of Behavioral Robotics, 5 (2014), 64-9910.2478/pjbr-2014-0005Search in Google Scholar
[18] P. Bessiere, C. Laugier, R. Siegwart, Probabilistic reasoning and decision making in sensory motor systems, Springer Tracts in Advanced Robotics, 200810.1007/978-3-540-79007-5Search in Google Scholar
[19] J. F. Ferreira, J. Dias, Probabilistic approaches to robotic perception, Springer Tracts in Advanced Robotics, 201410.1007/978-3-319-02006-8Search in Google Scholar
[20] A. Y. Ng, S. Russell, Algorithms for inverse reinforcement learning, In Proceedings of the Seventeenth International Conference on Machine Learning, 2000, 663-670Search in Google Scholar
[21] P. Abbeel, A. Ng, Apprenticeship learning via inverse reinforcement learning, ICML, 200410.1145/1015330.1015430Search in Google Scholar
[22] G. Neu, C. Szepesvári, Training parsers by inverse reinforcement learning. Machine learning, 77(2) (2009), 303-33710.1007/s10994-009-5110-1Search in Google Scholar
[23] C. Breazeal, A. Brooks, J. Gray, G. Hoffman, J. Lieberman, H. Lee, A. L. Thomaz, D. Mulanda, Tutelage and collaboration for humanoid robots, International Journal of Humanoid Robotics, 1(2) (2004)10.1142/S0219843604000150Search in Google Scholar
[24] A.-L. Vollmer, M.Muhlig, J. J. Steil, K. Pitsch, J. Fritsch, K. J. Rohlfing, B. Wrede, Robots show us how to teach them: Feedback from robots shapes tutoring behavior during action learning, PloS one, 9(3) (2014), 39-5810.1371/journal.pone.0091349Search in Google Scholar PubMed PubMed Central
[25] A.-L. Vollmer, J. Grizou, M. Lopes, K. Rohlfing, P.-Y. Oudeyer, Studying the co-construction of interaction protocols in collaborative tasks with humans, In The Fourth Joint IEEE International Conference on Development and Learning and on Epigenetic Robotics, 201410.1109/DEVLRN.2014.6982983Search in Google Scholar
[26] D. Hadfield-Menell, A. D. Dragan, P. Abbeel, S. Russell, Cooperative inverse reinforcement learning, Neural Information Processing Systems (NIPS), 2016Search in Google Scholar
[27] S. Singh, R. L. Lewis, A. G. Barto, Where do rewards come from?, Proceedings of the Annual Conference of the Cognitive Science Society (CogSci), 2009Search in Google Scholar
[28] S. Singh, R. L. Lewis, A. G. Barto, J. Sorg, Intrinsically motivated reinforcement learning: An evolutionary perspective, IEEE Transactions on Autonomous Mental Development, 2(2) (2010), 70-8210.1109/TAMD.2010.2051031Search in Google Scholar
[29] R. L. Lewis, A. Howes, S. Singh, Computational rationality: Linking mechanism and behavior through bounded utility maximization, Topics in Cognitive Science, 201410.1111/tops.12086Search in Google Scholar PubMed
[30] A. Howes, R. L. Lewis, S. Singh, Utilitymaximization and bounds on human information processing, Topics in Cognitive Science, 201410.1111/tops.12089Search in Google Scholar PubMed
[31] N. Bostrom, Superintelligence: Paths, dangers, strategies, Oxford University Press, 2014Search in Google Scholar
[32] S. Milli, D. Hadfield-Menell, A. D. Dragan, S. Russell, Should robots be obedient?, International Joint Conference on Artificial Intelligence (IJCAI), 201710.24963/ijcai.2017/662Search in Google Scholar
[33] K. Sotala, Concept learning for safe autonomous AI, In AAAI Ethics and Artificial Intelligence Workshop, 2015Search in Google Scholar
[34] A. Vinciarelli, M. Pantic, D. Heylen, C. Pelachaud, I. Poggi, F. D’Errico, M. Schroeder, Bridging the gap between social animal and unsocial machine: A survey of social signal processing, IEEE Transactions on Affective Computing, 3(1) (2012), 69-8710.1109/T-AFFC.2011.27Search in Google Scholar
[35] A. Vinciarelli, M. Pantic, Social signal processing, In R. Calvo, S. D’Mello, J. Gratch, A. Kappas (Eds.), Oxford Handbook of Affective Computing, Oxford University Press, 2013Search in Google Scholar
[36] Z. Zeng, M. Pantic, G. Roisman, T. Huang, A survey of affect recognition methods: Audio, visual and spontaneous expressions. IEEE Transactions on Pattern Analysis andMachine Intelligence, 31(1) (2009), 39-5810.1109/TPAMI.2008.52Search in Google Scholar PubMed
[37] H. Gunes, B. Schuller, Categorical and dimensional affect analysis in continuous input: Current trends and future directions, Image and Vision Computing, 31(2) (2013),120-13610.1016/j.imavis.2012.06.016Search in Google Scholar
[38] E. Sariyanidi, H. Gunes, A. Cavallaro, Automatic analysis of facial affect: A survey of registration, representation, and recognition, IEEE Transactions on Pattern Recognition and Machine Intelligence, 37(6) (2015), 1113-113310.1109/TPAMI.2014.2366127Search in Google Scholar PubMed
[39] S. Eleftheriadis, O. Rudovic, M. P. Deisenroth, M. Pantic, Gaussian process domain experts for model adaptation in facial behavior analysis, In International Conference on Computer Vision and Pattern Recognition (CVPRW16), 4th Workshop on Context Based Affect Recognition, 201610.1109/CVPRW.2016.184Search in Google Scholar
[40] A. L. Thomaz, M. Berlin., C. Breazeal, Robot science meets social science: An embodied computational model of social referencing, Workshop toward social mechanisms of android science (CogSci), (2005), 7-17Search in Google Scholar
[41] J. Grizou, I. Iturrate, L. Montesano, P.-Y. Oudeyer, M. Lopes, Interactive learning from unlabeled instructions, In Proceedings of the Thirtieth Conference on Uncertainty in Artificial Intelligence, 2014Search in Google Scholar
[42] S. Ehrlich, A. Wykowska, K. Ramirez-Amaro, G. Cheng, When to engage in interaction, and how: Eeg-based enhancement of robot’s ability to sense social signals, In International Conference on Humanoid Robots, (2014), 1104-110910.1109/HUMANOIDS.2014.7041506Search in Google Scholar
[43] M. O. Riedl, B. Harrison, Using stories to teach human values to artificial agents, In Proceedings of the 2nd International Workshop on AI, Ethics and Society, 2016Search in Google Scholar
[44] M. Tomasello, A natural history of human thinking, In Harvard University Press, 201410.4159/9780674726369Search in Google Scholar
[45] S. Krening, B. Harrison, K. Feigh, C. Isbell, M. Riedl, A. Thomaz, Learning from explanations using sentiment and advice in RL, IEEE Transactions on Cognitive and Developmental Systems, 201610.1109/TCDS.2016.2628365Search in Google Scholar
[46] D. Hadfield-Menell, A. D. Dragan, P. Abbeel, S. Russell, The off-switch game, International Joint Conference on Artificial Intelligence (IJCAI), 201710.24963/ijcai.2017/32Search in Google Scholar
[47] O. Evans, A. Stuhlmüller, N. D. Goodman, Learning the preferences of ignorant, inconsistent agents, In AAAI, 201610.1609/aaai.v30i1.10010Search in Google Scholar
[48] C. Breazeal, J. Gray, M. Berlin, An embodied cognition approach to mindreading skills for socially intelligent robots, International Journal of Robotics Research, 28(5) (2009), 656-68010.1177/0278364909102796Search in Google Scholar
[49] T. Cederborg, P.-Y. Oudeyer, From language to motor gavagai: Unified imitation learning of multiple linguistic and nonlinguistic sensorimotor skills, IEEE Transactions on Autonomous Mental Development, 201310.1109/TAMD.2013.2279277Search in Google Scholar
[50] K. Ramirez-Amaro, M. Beetz, G. Cheng, Transferring skills to humanoid robots by extracting semantic representations from observations of human activities, Artificial Intelligence, 201510.1109/HUMANOIDS.2014.7041398Search in Google Scholar
[51] S. Chernova, A. L. Thomaz, Robot learning from human teachers, In Synthesis Lectures on Artificial Intelligence and Machine Learning, Morgan Claypool Publishers, 201410.2200/S00568ED1V01Y201402AIM028Search in Google Scholar
[52] M. Lopes, T. Cederborg, P.-Y. Oudeyer, Simultaneous acquisition of task and feedback models, In International Conference on Development and Learning (ICDL), 201110.1109/DEVLRN.2011.6037359Search in Google Scholar
[53] J. Grizou, M. Lopes, P.-Y. Oudeyer, Robot learning simultaneously a task and how to interpret human instructions, In Joint IEEE International Conference on Development and Learning and on Epigenetic Robotics (ICDLEpiRob), 201310.1109/DevLrn.2013.6652523Search in Google Scholar
[54] J. Grizou, I. Iturrate, L. Montesano, P.-Y. Oudeyer, M. Lopes, Calibration-free BCI based control, In AAAI Conference on Artificial Intelligence, 201410.1609/aaai.v28i1.8923Search in Google Scholar
[55] J. Grizou, Learning from unlabeled interaction frames, Ph.D Thesis, 2014Search in Google Scholar
[56] I. Iturrate, J. Grizou, J. Omedes, P.-Y. Oudeyer, M. Lopes, L. Montesano, Exploiting task constraints for self-calibrated brainmachine interface control using error-related potentials, Plos One, 201510.1371/journal.pone.0131491Search in Google Scholar PubMed PubMed Central
[57] R. Loftin, B. Peng, J. MacGlashan, M. L. Littman, M. E. Taylor, J. Huang, D. L. Roberts, Learning something from nothing: Leveraging implicit human feedback strategies, In Proceedings of the Twenty-Third IEEE International Symposium on Robot and Human Communication (ROMAN), 201410.1109/ROMAN.2014.6926319Search in Google Scholar
[58] R. Loftin, B. Peng, J. MacGlashan, M. L. Littman, M. E. Taylor, J. Huang, D. L. Roberts, Learning behaviors via human-delivered discrete feedback: modeling implicit feedback strategies to speed up learning, In Journal of autonomous agents and multiagent systems, 201510.1007/s10458-015-9283-7Search in Google Scholar
[59] J. Thomason, S. Zhang, R. Mooney, P. Stone, Learning to interpret natural language commands through human-robot dialog. In International Joint Conference on Artificial Intelligence (IJCAI), 2015Search in Google Scholar
[60] P. M. Pilarski, M. R. Dawson, T. Degris, F. Fahimi, J. P. Carey, R. S. Sutton, Online human training of a myoelectric prosthesis controller via actor-critic reinforcement learning, In IEEE International Conference on Rehabilitation Robotics (ICORR), 201110.1109/ICORR.2011.5975338Search in Google Scholar PubMed
[61] K. W. Mathewson, P. M. Pilarski, Simultaneous control and human feedback in the training of a robotic agent with actor-critic reinforcement learning, In IJCAI Workshop on Interactive Machine Learning, 2016Search in Google Scholar
[62] A. L. Thomaz, C. Breazeal, Teachable robots: Understanding human teaching behavior to build more effective robot learners, Artificial Intelligence Journal, (2008), 716-73710.1016/j.artint.2007.09.009Search in Google Scholar
[63] M. Cakmak, M. Lopes, Algorithmic and human teaching of sequential decision tasks, In AAAI Conference on Artificial Intelligence, 2012Search in Google Scholar
[64] V. Veeriah, P. M. Pilarski, R. S. Sutton, Face valuing: Training user interfaces with facial expressions and reinforcement learning, In IJCAI Workshop on Interactive Machine Learning, 2016Search in Google Scholar
[65] M. Cakmak, A. L. Thomaz, Designing robot learners that ask good questions, In International Conference on Human-Robot Interaction (HRI), 201210.1145/2157689.2157693Search in Google Scholar
[66] K. Subramanian, C. L. Isbell, A. L. Thomaz, Exploration from demonstration for interactive reinforcement learning, In Proceedings of the 15th International Conference on Autonomous Agents and Multiagent Systems (AAMAS), 2016Search in Google Scholar
[67] K.W. Strabala, M. K. Lee, A. D. Dragan, J. L. Forlizzi, S. Srinivasa, M. Cakmak, V. Micelli, Towards seamless human-robot handovers, Journal of Human-Robot Interaction, 2(1) (2013), 112-13210.5898/JHRI.2.1.StrabalaSearch in Google Scholar
[68] A. D. Dragan, S. Srinivasa, Generating legible motion, Robotics: Science and Systems, 201310.15607/RSS.2013.IX.024Search in Google Scholar
[69] S. Nikolaidis, A. D. Dragan, S. Srinivasa, Viewpoint-based legibility optimization, Robotics: Science and Systems (RSS), 201610.1109/HRI.2016.7451762Search in Google Scholar
[70] F. Stulp, J. Grizou, B. Busch, M. Lopes, Facilitating intention prediction for humans by optimizing robot motions, In International Conference on Intelligent Robots and Systems (IROS), 201510.1109/IROS.2015.7353529Search in Google Scholar
[71] P. Lanillos, J. F. Ferreira, J. Dias, Designing an artificial attention system for social robots, In International Conference on Intelligent Robots and Systems (IROS), 201510.1109/IROS.2015.7353967Search in Google Scholar
[72] J. F. Ferreira, J. Dias, Attentional mechanisms for socially interactive robots, a survey, Transactions on Autonomous Mental Development, 6(2) (2014), 110-12510.1109/TAMD.2014.2303072Search in Google Scholar
[73] B. Peng, J. MacGlashan, R. Loftin, M. L. Littman, D. L. Roberts, M. E. Taylor, A need for speed: Adapting agent action speed to improve task learning from non-expert humans, In Proceedings of the International Conference on Autonomous Agents and Multiagent Systems, 2016Search in Google Scholar
[74] D. Sadigh, S. Sastry, S. A. Seshia, A. D. Dragan, Information gathering actions over human internal state, International Conference on Intelligent Robots and Systems (IROS), 201610.1109/IROS.2016.7759036Search in Google Scholar
[75] I. M. Pepperberg, D. V. Sherman, Training behavior by imitation: from parrots to people ... to robots?, In C. L. Nehaniv, K. Dautenhahn (Eds.), Imitation and Social Learning in Robots, Humans and Animals: Behavioural, Social and Communicative Dimensions, Cambridge University Press, (2007), 383-406Search in Google Scholar
[76] A. L. Thomaz, C. Breazeal, Asymmetric interpretations of positive and negative human feedback for a social learning agent, In Proceedings of the 16th IEEE International Symposium on Robot and Human Interactive Communication (RO-MAN), 200710.1109/ROMAN.2007.4415180Search in Google Scholar
[77] A. L. Thomaz, C. Breazeal, Reinforcement learning with human teachers: Evidence of feedback and guidance with implications for learning performance, AAAI, 2006Search in Google Scholar
[78] A. L. Thomaz, C. Breazeal, Experiments in socially guided exploration: Lessons learned in building robots that learn with and without human teachers, Connection Science, Special Issue on Social Learning in Embodied Agents, (2008), 91-110Search in Google Scholar
[79] A. Wykowska, T. Chaminade, G. Cheng, Embodied artificial agents for understanding human social cognition, Philosophical Transactions of the Royal Society B, 201610.1098/rstb.2015.0375Search in Google Scholar PubMed PubMed Central
[80] M. Cakmak, C. Chao, A. L. Thomaz, Designing interactions for robot active learners, IEEE Transactions on Autonomous Mental Development, 2(3) (2010), 108-11810.1109/TAMD.2010.2051030Search in Google Scholar
[81] B. Akgun, M. Cakmak, J. Yoo, A. L. Thomaz, Trajectories and keyframes for kinesthetic teaching: A human-robot interaction perspective, International Conference on Human-Robot Interaction, 201210.1145/2157689.2157815Search in Google Scholar
[82] W. B. Knox, B. D. Glass, B. C. Love, W. T. Maddox, P. Stone, How humans teach agents: A new experimental perspective, In International Journal of Social Robotics, 201210.1007/s12369-012-0163-xSearch in Google Scholar
[83] W. B. Knox, C. Breazeal, P. Stone, Learning from feedback on actions past and intended, In Proceedings of 7th ACM/IEEE International Conference on Human-Robot Interaction (HRI), 2012Search in Google Scholar
[84] W. B. Knox, P. Stone, Interactively shaping agents via human reinforcement: The tamer framework, In the 5th International Conference on Knowledge Capture, 200910.1145/1597735.1597738Search in Google Scholar
[85] W. B. Knox, C. Breazeal, P. Stone, Training a robot via human feedback: A case study, In Proceedings of the International Conference on Social Robotics (ICSR), 201310.1007/978-3-319-02675-6_46Search in Google Scholar
[86] J. MacGlashan, M. K. Ho, R. Loftin, B. Peng, G. Wang, D. L. Roberts, M. E. Taylor, M. L. Littman, Interactive learning from policy-dependent human feedback, In Proceedings of the 34th International Conference on Machine Learning (ICML), 2017Search in Google Scholar
[87] C. Basu, Q. Yang, D. Hungerman, M.Singhal, A. D. Dragan, Do you want your autonomous car to drive like you?, International Conference on Human-Robot Interaction (HRI), 201710.1145/2909824.3020250Search in Google Scholar
[88] D. Sadigh, A. D. Dragan, S. Sastry, S. A. Seshia, Active preference-based learning of reward functions, Robotics: Science and Systems (RSS), 201710.15607/RSS.2017.XIII.053Search in Google Scholar
[89] B. F. Skinner, The behavior of organisms: An experimental analysis, In New York: Appleton-Century, 1938Search in Google Scholar
[90] B. F. Skinner, Science and human behavior, In New York: Macmillan, 1953Search in Google Scholar
[91] M. Gilbert, On social facts, In London: Routledge, 1989Search in Google Scholar
[92] M. Bratman, Shared cooperative activity, Philosophical Review, 101(2) (1992), 327-34010.2307/2185537Search in Google Scholar
[93] J. Searle, The construction of social reality, In New York: Free Press, 1995Search in Google Scholar
[94] R. Tuomela, The philosophy of sociality: The shared point of view, Oxford University Press, 200710.1093/acprof:oso/9780195313390.001.0001Search in Google Scholar
[95] M. Bratman, Shared agency: A planning theory of acting together, Oxford University Press, 201410.1093/acprof:oso/9780199897933.001.0001Search in Google Scholar
[96] M. Gilbert, Joint commitment: How we make the social world, Oxford University Press, 201410.1093/acprof:oso/9780199970148.001.0001Search in Google Scholar
[97] M. Tomasello, Why we cooperate, MIT press, 200910.7551/mitpress/8470.001.0001Search in Google Scholar
[98] M. Tomasello, Origins of human communication, MIT press, 200810.7551/mitpress/7551.001.0001Search in Google Scholar
[99] M. Tomasello, A natural history of human morality, Harvard University Press, 201610.4159/9780674915855Search in Google Scholar
[100] R. Tuomela, The philosophy of sociality: The shared point of view, Oxford University Press, 200710.1093/acprof:oso/9780195313390.001.0001Search in Google Scholar
[101] H. P. Grice, Logic and conversation, In P. Cole, J. Morgan (Eds.), Syntax and semantics, New York: Academic Press, 1975Search in Google Scholar
[102] J. Call, B. Hare, M. Carpenter, M. Tomasello, Unwilling versus unable: chimpanzees’ understanding of human intentional action, Developmental Science, 7(4) (2004), 488-49810.1111/j.1467-7687.2004.00368.xSearch in Google Scholar PubMed
[103] M. Schmelz, J. Call, M. Tomasello, Chimpanzees know that others make inferences, In Proceedings of the National Academy of Sciences, 201110.1073/pnas.1000469108Search in Google Scholar
[104] J. Call, M. Tomasello, Does the chimpanzee have a theory of mind? 30 years later, Trends in Cognitive Science, 200810.1016/j.tics.2008.02.010Search in Google Scholar
[105] M. Tomasello, Why don’t apes point?, In N. Enfield, S.C. Levinson (Eds.), Roots of human sociality: Culture, cognition and interaction, (2006), 506-52410.4324/9781003135517-25Search in Google Scholar
[106] W. V. O. Quine, Word and object, MIT press, 1960Search in Google Scholar
[107] M. Tomasello, M. Carpenter, J. Call, T. Behne, H. Moll, Understanding and sharing intentions: The origins of cultural cognition, Behavioral and Brain Sciences, 200510.1017/S0140525X05000129Search in Google Scholar
[108] A. Cangelosi, G. Metta, G. Sagerer, S. Nolfi, C. Nehaniv, K. Fischer, J. Tani, T. Belpaeme, G. Sandini, L. Fadiga, B. Wrede, K. Rohlfing, E.Tuci, K. Dautenhahn, J. Saunders, A. Zeschel, Integration of action and language knowledge: A roadmap for developmental robotics, IEEE Transactions on Autonomous Mental Development, 201010.1109/TAMD.2010.2053034Search in Google Scholar
[109] G. Rizzolatti, M. A. Arbib, Language within our grasp, Trends in Neurosciences, 21(5) (1998), 188-19410.1016/S0166-2236(98)01260-0Search in Google Scholar
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