2026|1|Refereed Journal Papers|7.A|Deep Learning|Kamal-2026-A-Systematic-Review-Hand-Rehabilitation-IET-Computer_Vision|Kamal, Neog, D. R., Bhuyan, M. K., MacDorman, K. F., Karsh, R. K., & Laskar, R. H. (2026). A systematic review and critical analysis of vision-based and wearable sensor technologies for hand rehabilitation in stroke survivors. IET Computer Vision, e70066.|10.1049/cvi2.70066|
2026|1|Refereed Journal Papers|7.A|Deep Learning|Patnaik-2026-Parallel-Lattice-Attention-Network-JSTARS.pdf|Patnaik, A., Gour, A., Bhuyan, M. K., MacDorman, K. F., Alfarhood, S., & Safran, M. (2026). Super-resolution of remote sensing images via the parallel lattice attention network. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 19, 6067–6078.||
2025|1|Refereed Journal Papers|7.A|Deep Learning|Kundu-2025-Despeckling-SAR-Images-TGRSi.pdf|Kundu, S., Bhuyan, M. K., MacDorman, K. F., Sharma, N. K., & Bhatt, M. (2025). Despeckling of synthetic aperture radar images using linear–angular attention transformer. IEEE Transactions on Geoscience and Remote Sensing.|10.1109/TGRS.2025.3628887|
2025|1|Refereed Journal Papers|1.C|Uncanny Valley|Diel-2025-Eerie-Edibles-Uncanny-Valley-AI-Food.pdf|Diel, A., Lalgi, T., Teufel, M., Bäuerle, A., & MacDorman, K. F. (2025). Eerie edibles: Realism and food neophobia predict an uncanny valley in AI-generated food images. Appetite, 208, 107926.|10.1016/j.appet.2025.107926|
2025|1|Refereed Journal Papers|1.C|Uncanny Valley|MacDorman-2025-Chikamatsu-Mori-and-the-Uncanny-Valley.pdf|MacDorman, K. F. (2025). Chikamatsu, Mori, and the uncanny valley. i-Perception, 16(0), 1–18.|10.1177/20416695251317469|
2024|1|Refereed Journal Papers|6.A|Human-Computer Interaction|Diel-2024-Human-Performance-Detecting-Deepfakes-Meta-Analysis.pdf|Diel, A., Lalgi, T., Schröter, I. C., MacDorman, K. F., Teufel, M., & Bäuerle, A. (2024). Human performance in detecting deepfakes: A systematic review and meta-analysis of 56 papers. Computers in Human Behavior Reports, 16, 100538.|10.1016/j.chbr.2024.100538|
2024|1|Refereed Journal Papers|1.C|Uncanny Valley|MacDorman-2024-Mind-Perception-Meta-Regression-Dehumanization.pdf|MacDorman, K. F. (2024). Does mind perception explain the uncanny valley effect? A meta-regression analysis and (de)humanization experiment. Computers in Human Behavior: Artificial Humans, 2(1), 100065.|10.1016/j.chbah.2024.100065|
2024|1|Refereed Journal Papers|1.C|Uncanny Valley|Stein-2024-After-confronting-one-uncanny-valley-Nature-Reviews.pdf|Stein, J.-P., & MacDorman, K. F. (2024). After confronting one uncanny valley, another awaits. Nature Reviews Electrical Engineering, 1, 1, 276–277.|10.1038/s44287-024-00041-w|
2024|1|Refereed Journal Papers|6.A|Human-Computer Interaction|Patnaik-2024-Two-Branch-Multi-Scale-Residual-Attention-Network-JSTARS.pdf|Patnaik, A., Bhuyan, M. K., & MacDorman, K. F. (2024). A two-branch multi-scale residual attention network for single image super-resolution in remote sensing imagery. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 17, 6003–6013;|10.1109/JSTARS.2024.3371710|
2023|1|Refereed Journal Papers|6.A|Human-Computer Interaction|Dutta-2023-Hand-Segmentation-for-Rehabilitation-ESWA.pdf|Dutta, H. P. J., Bhuyan, M. K., Neog, D. R., MacDorman, K. F., and Laskar, R. H. (2023). Efficient hand segmentation for rehabilitation tasks using a convolution neural network with attention. Expert Systems with Applications, 234, 121046.|10.1016/j.eswa.2023.121046|
2023|1|Refereed Journal Papers|6.A|Human-Computer Interaction|Dutta-2023-Patient-Assistance-System-IEEE-TIM.pdf|Dutta, H. P. J., Bhuyan, M. K., Neog, D. R., MacDorman, K. F., & Laskar, R. H. (2023). Patient assistance system based on hand gesture recognition. IEEE Transactions on Instrumentation and Measurement, 72, 1–13, Art. No. 5018013.|10.1109/TIM.2023.3282655|
2023|1|Refereed Journal Papers|6.A|Human-Computer Interaction|Dutta-Bhuyan-2023-Hand-Gesture-Rehabilitation-IEEE-Transactions-AI.pdf|Dutta, H. P. J., Bhuyan, M. K., Neog, D. R., MacDorman, K. F., and Laskar, R. H. (2023). A hand gesture-operated system for rehabilitation using an end-to-end detection framework. IEEE Transactions on Artificial Intelligence.|10.1109/TAI.2023.3251309|
2022|1|Refereed Journal Papers|1.C|Uncanny Valley|Diel-2022-Meta-Analysis-Uncanny-Valley-ACM.pdf|Diel, A., Weigelt, S., & MacDorman, K. F. (2022). A meta-analysis of the uncanny valley's independent and dependent variables. ACM Transactions on Human–Robot Interaction, 11(1), 1, 1–33.|10.1145/3470742|
2021|1|Refereed Journal Papers|1.C|Uncanny Valley|Dai-2021-Creepy-but-persuasive-Frontiers.pdf|Dai, Z., & MacDorman, K. F. (2021). Creepy, but persuasive: In a virtual consultation, physician bedside manner, rather than the uncanny valley, predicts adherence. Frontiers in Virtual Reality, 2 (739038), 1–18.|10.3389/frvir.2021.739038|
2021|1|Refereed Journal Papers|1.C|Uncanny Valley|Lin-2021-Parental-Acceptance-Storytelling-Robots-Frontiers.pdf|Lin, C., Šabanović, S., Dombrowski, L., Miller, A. D., Brady, E., & MacDorman, K. F. (2021). Parental acceptance of children’s storytelling robots: A projection of the uncanny valley of AI. Frontiers in Robotics and AI, 8(579993), 1–15.|10.3389/frobt.2021.579993|
2021|1|Refereed Journal Papers|1.C|Uncanny Valley|Diel-MacDorman-2021-Journal-of-Vision.pdf|Diel, A., & MacDorman, K. F. (2021). Creepy cats and strange high houses: Support for configural processing in testing predictions of nine uncanny valley theories. Journal of Vision, 21(4), 1–20.|10.1167/jov.21.4.1|
2021|1|Refereed Journal Papers|6.A|Human-Computer Interaction|Spatola-2021-Why-Artificial-Leaders-ACM.pdf|Spatola, N. & MacDorman, K. F. (2021). Why real citizens would turn to artificial leaders. ACM Digital Government: Research and Practice, 2(3), 26, 1–24.|10.1145/3447954|
2021|1|Refereed Journal Papers|6.A|Human-Computer Interaction|Chakraborty-2021-Skin-detection-uncontrolled-illumination-MTA.pdf|Chakraborty, B. K., Bhuyan, M. K., & MacDorman, K. F. (2021). Skin detection in video under uncontrolled illumination. Multimedia Tools and Applications, 80, 24319–24341.|10.1007/s11042-021-10728-z|
2021|1|Refereed Journal Papers|1.C|Uncanny Valley|MacDorman-2021-Chikamatsu-Monzaemon-et-la-Vallee-de-l-etrange-ephaistos.pdf|MacDorman, K. F. (2021). La critique théâtrale de Chikamatsu Monzaemon et sa relation à la vallée de l’étrange : Traduction et commentaire de la préface de Naniwa Miyage. e-Phaïstos : Revue d’histoire des techniques, 9(1), 1–20.|10.4000/ephaistos.8706|
2019|1|Refereed Journal Papers|1.C|Uncanny Valley|MacDorman-2019-Narrative-Empathy.pdf|MacDorman, K. F. (2019). In the uncanny valley, transportation predicts narrative enjoyment more than empathy, but only for the tragic hero. Computers in Human Behavior, 94, 140–153.|10.1016/j.chb.2019.01.011|
2019|1|Refereed Journal Papers|1.C|Uncanny Valley|MacDorman-2019-La-vallee-de-l-etrange-ephaistos.pdf|MacDorman, K. F. (2019). La vallée de l’étrange de Mori Masahiro : Importance et impact sur l’esthétique et la conception des robots. e-Phaïstos : Revue d’histoire des techniques, 7(2), 1–18.|10.4000/ephaistos.5333|
2018|1|Refereed Journal Papers|1.C|Uncanny Valley|Dai-MacDorman-2018-Doctors-Digital-Double-PeerJ.pdf|Dai, Z., & MacDorman, K. F. (2018). The doctor’s digital double: How warmth, competence, and animation promote adherence intention. PeerJ Computer Science, 4(e168), 1–29.|10.7717/peerj-cs.168|
2017|1|Refereed Journal Papers|6.A|Human-Computer Interaction|Chakraborty-2017-Review-of-Constraints-on-Vision-Based-Gesture-Recognition-for-HCI.pdf|Chakraborty, B. K., Sarma, D., Bhuyan, M. K., & MacDorman, K. F. (2017). A review of constraints on vision-based gesture recognition for human–computer interaction. IET Computer Vision, 11(8), 1–13.|10.1049/iet-cvi.2017.0052|
2017|1|Refereed Journal Papers|1.C|Uncanny Valley|MacDorman-Chattopadhyay-2017-Categorization-based-Stranger-Avoidance-Rebuttal-Cognition.pdf|MacDorman, K. F., & Chattopadhyay, D. (2017). Categorization-based stranger avoidance does not explain the uncanny valley. Cognition, 161, 129–135.|10.1016/j.cognition.2017.01.009|
2017|1|Refereed Journal Papers|1.C|Uncanny Valley|Ho-MacDorman-2017-Measuring-Uncanny-Valley-Effect-Refinements-to-Indices-for-Perceived-Humanness-Attractiveness-Eeriness-IJSR.pdf|Ho, C.-C., & MacDorman, K. F. (2017). Measuring the uncanny valley effect: Refinements to indices for perceived humanness, attractiveness, and eeriness. International Journal of Social Robotics, 9(1), 129–139.|10.1007/s12369-016-0380-9|
2016|1|Refereed Journal Papers|1.C|Uncanny Valley|Chattopadhyay-MacDorman-2016-Familiar-Faces-Rendered-Strange-Why-Inconsistent-Realism-Drives-Characters-into-the-Uncanny-Valley-JOV.pdf|Chattopadhyay, D., & MacDorman, K. F. (2016). Familiar faces rendered strange: Why inconsistent realism drives characters into the uncanny valley. Journal of Vision, 16(11):7, 1–25.|10.1167/16.11.7|
2016|1|Refereed Journal Papers|1.C|Uncanny Valley|MacDorman-Chattopadhyay-2016-Reducing-Consistency-in-Human-Realism-Increases-the-Uncanny-Valley-Effect-Cognition.pdf|MacDorman, K. F., & Chattopadhyay, D. (2016). Reducing consistency in human realism increases the uncanny valley effect; increasing category uncertainty does not. Cognition, 146, 190–205.|10.1016/j.cognition.2015.09.019|
2015|1|Refereed Journal Papers|1.C|Uncanny Valley|MacDorman-Entezari-2015-Individual-differences-Interaction-Studies.pdf|MacDorman, K. F., & Entezari, S. (2015). Individual differences predict sensitivity to the uncanny valley. Interaction Studies, 16(2), 141–172.|10.1075/is.16.2.01mac|
2015|1|Refereed Journal Papers|1.C|Uncanny Valley|Patel-MacDorman-2015-Sending-an-Avatar-to-Do-a-Humans-Job-Presence.pdf|Patel, H., & MacDorman, K. F. (2015). Sending an avatar to do a human’s job: Compliance with authority persists despite the uncanny valley. Presence, 24(1), 1–23.|10.1162/PRES_a_00212|
2015|1|Refereed Journal Papers|6.A|Human-Computer Interaction|Bhuyan-2015-Hand-Pose-Recognition.pdf|Bhuyan, M. K., MacDorman, K. F., Kar, M. K., Neog, D. R., Lovell, B. C., & Gadde, P. (2015). Hand pose recognition from monocular images by geometrical and texture analysis. Journal of Visual Languages and Computing, 28, 39–55.|10.1016/j.jvlc.2014.12.001|
2014|1|Refereed Journal Papers|6.A|Human-Computer Interaction|Bhuyan-2014-Continuous-Hand-Gesture-Recognition.pdf|Bhuyan, M. K., Kumar, D. A., MacDorman, K. F., & Iwahori, Y. (2014). A novel set of features for continuous hand gesture recognition. Journal on Multimodal User Interfaces, JMUI-D-12-00038R3.|10.1007/s12193-014-0165-0|
2014|1|Refereed Journal Papers|1.C|Uncanny Valley|Patel-2014-Receptive-to-Bad-Reception-Computers-in-Human-Behavior.pdf|Patel, H., Bayliss L. C., Ivory, J. D., Woodard, K., & McCarthy, A., & MacDorman, K. F. (2014). Receptive to bad reception: Jerky motion can make persuasive messages more effective. Computers in Human Behavior, 32, 32–39.|10.1016/j.chb.2013.11.012|
2013|1|Refereed Journal Papers|1.C|Uncanny Valley|MacDorman2013UncannyValleyVisualPerspectiveTaking.pdf|MacDorman, K. F., Srinivas, P., & Patel, H. (2013). The uncanny valley does not interfere with level 1 visual perspective taking. Computers in Human Behavior, 29(4), 1671–1685.|10.1016/j.chb.2013.01.051|
2012|1|Refereed Journal Papers|5.A|Bioinformatics|Huang2012PAGEDBMCBioinformatics.pdf|Huang, H., Wu, X., Sonachalam, M., Mandape, S. N., Pandey, R., MacDorman, K. F., Wan, P. & Chen, J. Y. (2012). PAGED: A pathway and gene-set enrichment database to enable molecular phenotype discoveries. BMC Bioinformatics, 13(Suppl 15), S2.|10.1186/1471-2105-13-S15-S2|
2011|1|Refereed Journal Papers|1.A|Android Science: General|Gadde2011RehabilitationRobotics.pdf|Gadde, P., Kharrazi, H., Patel, H., & MacDorman, K. F. (2011). Toward monitoring and increasing exercise adherence in older adults by robotic intervention: A proof of concept study. Journal of Robotics, 2011(Article ID 438514), 1–11.|10.1155/2011/438514|
2011|1|Refereed Journal Papers|1.C|Uncanny Valley|Mitchell2011HumanRealismMismatch.pdf|Mitchell, W. J., Szerszen, Sr., K. A., Lu, A. S., Schermerhorn, P. W., Scheutz, M., & MacDorman, K. F. (2011). A mismatch in the human realism of face and voice produces an uncanny valley. i-Perception, 2(1), 10–12.|10.1068/i0415|
2011|1|Refereed Journal Papers|6.A|Human-Computer Interaction|BenMessaoud2011RoboticSurgery.pdf|BenMessaoud, C. B., Kharrazi, H., & MacDorman, K. F. (2011). Facilitators and barriers to adopting robotic-assisted surgery: Contextualizing the Unified Theory of Acceptance and Use of Technology. PLoS ONE, 6(1): e16395.|10.1371/journal.pone.0016395|
2011|1|Refereed Journal Papers|6.A|Human-Computer Interaction|Faiola2011AestheticUSKoreanHomePages.pdf|Faiola, A., Ho, C.-C., Tarrant, M. A., & MacDorman, K. F. (2011). The aesthetic dimensions of US and South Korean responses to web home pages: A cross-cultural comparison. International Journal of Human-Computer Interaction, 27(2), 131–150.|10.1080/10447318.2011.537173|
2011|1|Refereed Journal Papers|6.A|Human-Computer Interaction|MacDorman2011NoviceExpertUsability.pdf|MacDorman, K. F., Whalen, T. J., Ho, C.-C., & Patel, H. (2011). An improved scale for measuring usability from novice and expert performance. International Journal of Human-Computer Interaction, 27(3), 1–23.|10.1080/10447318.2011.540472|
2011|1|Refereed Journal Papers|6.A|Human-Computer Interaction|Mitchell2010DoesSocialDesirabilityBiasFavorHumans.pdf|Mitchell, W. J., Ho, C.-C., Patel, H., & MacDorman, K. F. (2011). Does social desirability bias favor humans? Explicit–implicit evaluations of synthesized speech support a new HCI model of impression management. Computers in Human Behavior, 27(1), 402–412.|10.1016/j.chb.2010.09.002|
2010|1|Refereed Journal Papers|1.C|Uncanny Valley|Ho2010UncannyValleyIndices.pdf|Ho, C.-C., & MacDorman, K. F. (2010). Revisiting the uncanny valley theory: Developing and validating an alternative to the Godspeed indices. Computers in Human Behavior, 26(6), 1508–1518|10.1016/j.chb.2010.05.015|
2010|1|Refereed Journal Papers|1.C|Uncanny Valley|MacDorman2010ImpactPresentationDecision.pdf|MacDorman, K. F., Coram, J. A., Ho, C.-C., & Patel, H. (2010). Gender differences in the impact of presentational factors in human character animation on decisions in ethical dilemmas. Presence: Teleoperators and Virtual Environments, 19(3), 213–229.|10.1162/pres.19.3.213|
2009|0|Refereed Edited Volume|2.A|Symbol Emergence||Belpaeme, T., Cowley, S. J., & MacDorman, K. F. (Eds.). (2009). Symbol grounding. Amsterdam: John Benjamins. (167 pages)||
2009|1|Refereed Journal Papers|1.C|Uncanny Valley|MacDorman2009TooRealForComfort.pdf|MacDorman, K. F., Green, R. D., Ho, C.-C., & Koch, C. (2009). Too real for comfort: Uncanny responses to computer generated faces. Computers in Human Behavior, 25(3), 695–710.|10.1016/j.chb.2008.12.026|
2009|1|Refereed Journal Papers|1.C|Uncanny Valley|MacDorman2008DoesJapan.pdf|MacDorman, K. F., Vasudevan, S. K., & Ho, C.-C. (2009). Does Japan really have robot mania? Comparing attitudes by implicit and explicit measures. AI & Society, 23(4), 485–510.|10.1007/s00146-008-0181-2|
2009|1|Refereed Journal Papers|2.A|Symbol Emergence|Chalodhorn2009AutomaticSegmentation.pdf|Chalodhorn, R., MacDorman, K. F., & Asada, M. (2009). Humanoid robot motion recognition and reproduction. Advanced Robotics, 23(3), 349–366.|10.1163/156855308X397569|
2008|1|Refereed Journal Papers|1.C|Uncanny Valley|Green2008CHBsensitivity.pdf|Green, R. D., MacDorman, K. F., Ho, C.-C., & Vasudevan, S. K. (2008). Sensitivity to the proportions of faces that vary in human likeness. Computers in Human Behavior, 24(5), 2456–2474.|10.1016/j.chb.2008.02.019|
2008|1|Refereed Journal Papers|6.A|Human-Computer Interaction|Faiola2008HolisticAnalyticCognitiveStyles.pdf|Faiola, A., & MacDorman, K. F. (2008). The influence of holistic and analytic cognitive styles on online information design: Toward a communication theory of cultural cognitive design. Information, Communication & Society, 11(3), 46–72.|10.1080/13691180802025418|
2008|1|Refereed Journal Papers|5.A|Bioinformatics|Wee2008CoTranscriptionalPremRNAfoldingPLoS.pdf|Wee, K. B., Pramono, Z. A. D., Wang, J. L., MacDorman, K. F., Lai, P. S., & Yee, W. C. (2008). Dynamics of co-transcriptional pre-mRNA folding influences the induction of dystrophin exon skipping by antisense oligonucleotides. PLoS ONE 3(3), e1844, 1–14. PMID: 18365002|10.1371/journal.pone.0001844|
2007|1|Refereed Journal Papers|1.B|Android Science: Normative Interaction|MacDorman2008SongEmotionPrediction.pdf|MacDorman, K. F., Ough, S., & Ho, C.-C. (2007). Automatic emotion prediction of song excerpts: Index construction, algorithm design, and empirical comparison. Journal of New Music Research, 36(4), 283–301.|10.1080/09298210801927846|
2007|1|Refereed Journal Papers|5.A|Bioinformatics||Wee, K. B., Pramono, Z. A. D., Wang, J. L., MacDorman, K. F., Yee, W. C., & Lai, P. S. (2007). Accounting for pre-mRNA co-transcriptional folding in selection of antisense oligonucleotide targets for induction of exon skipping in DMD. Neuromuscular Disorders, 17(9–10), 782–783.|10.1016/j.nmd.2007.06.078|
2007|1|Refereed Journal Papers|2.A|Symbol Emergence|MacDormanMemAttnCtl2007MultimediaRevised.pdf|MacDorman, K. F., Nobuta, H., Koizumi, S., & Ishiguro, H. (April 2007). Memory-based attention control in a distributed vision system that recognizes group activity at a subway station. IEEE Multimedia, 14(2), 38–49.|10.1109/MMUL.2007.39|
2007|1|Refereed Journal Papers|2.A|Symbol Emergence|MacDorman2007SymbolSystemMetaphor.pdf|MacDorman, K. F. (2007). Life after the symbol system metaphor. Interaction Studies, 8(1), 143–158.|10.1075/bct.21.08mac|
2006|1|Refereed Journal Papers|1.B|Android Science: Normative Interaction|CowleyMacD2006BaboonsBabiesTetris.pdf|Cowley, S. J., & MacDorman, K. F. (2006). What baboons, babies, and Tetris players tell us about interaction: A biosocial view of norm-based social learning. Connection Science, 18(4), 363–378.|10.1080/09540090600879703|
2006|1|Refereed Journal Papers|1.A|Android Science: General|MacDorman2006AndroidScience.pdf|MacDorman, K. F., & Ishiguro, H. (2006). The uncanny advantage of using androids in social and cognitive science research. Interaction Studies, 7(3), 297–337.|10.1075/is.7.3.03mac|
2006|1|Refereed Journal Papers|1.A|Android Science: General|MacDorman2006OpeningPandorasUncannyBox.pdf|MacDorman, K. F., & Ishiguro, H. (2006). Opening Pandora’s uncanny box: Reply to commentaries on “The uncanny advantage of using androids in social and cognitive science research.” Interaction Studies, 7(3), 361–368.|10.1075/is.7.3.10mac|
2004|1|Refereed Journal Papers|2.A|Symbol Emergence||Chalodhorn, R., MacDorman, K. F., & Asada, M. (2004). An algorithm that recognizes and reproduces distinct types of humanoid motion based on periodically-constrained nonlinear PCA. In D. Nardi, M. Riedmiller, C. Sammut, & J. Santos-Victor (Eds.), RoboCup 2004: Robot Soccer World Cup VIII (Lecture Notes in Artificial Intelligence, Vol. 3276, pp. 370–380). Berlin: Springer.||
2004|1|Refereed Journal Papers|4.A|Consciousness|MacDorman2004ExtTheMedHypMindAndBehavior.pdf|MacDorman, K. F. (2004). Extending the medium hypothesis: The Dennett-Mangan controversy and beyond. The Journal of Mind and Behavior, 25(3), 237–257.||
2002|1|Refereed Journal Papers|3.A|Sensorimotor Learning|Oyama2002ISLESNeurocomputing.pdf|Oyama, E., Maeda, T. Tachi, S., MacDorman, K. F., & Agah, A. (2002). On the use of forward kinematic models in visually guided hand position control: Analysis based on ISLES model. Neurocomputing, 44–46, 965–972.||
2001|1|Refereed Journal Papers|2.A|Symbol Emergence|Asada-MacDorman-Ishiguro-Kuniyoshi-Cognitive-Developmental-Robotics-Robotics-and-Automation.pdf|Asada, M., MacDorman, K. F., Ishiguro, H., & Kuniyoshi, Y. (2001). Cognitive developmental robotics as a new paradigm for the design of humanoid robots. Robotics and Autonomous Systems, 37(2–3), 185–193.||
2001|1|Refereed Journal Papers|3.A|Sensorimotor Learning|Oyama-MacDorman-2001-Coordinate-Transform-Learning-Neurocomputing.pdf|Oyama, E., MacDorman, K. F., Agah, A., Maeda, T., & Tachi, S. (2001). Coordinate transformation learning of a hand position feedback controller with time delay. Neurocomputing, 38–40(1–4), 1503–1509.||
2001|1|Refereed Journal Papers|3.A|Sensorimotor Learning|Oyama2001InverseKinematicsNeurocomputing.pdf|Oyama, E., Agah, A., MacDorman, K. F., Maeda, T., & Tachi, S. (2001). A modular neural network architecture for inverse kinematics model learning. Neurocomputing, 38–40(1–4), 797–805.||
1995|1|Refereed Journal Papers|1.B|Android Science: Normative Interaction|CowleyMacDorman1995SimulatingConversations.pdf|Cowley, S. J., & MacDorman, K. F. (1995). Simulating conversations: The communion game. AI & Society, 9(2–3), 116–137.|10.1007/BF01210600|
1994|1|Refereed Journal Papers|4.A|Consciousness|Sommerhoff1994Consciousness.pdf|Sommerhoff, G., & MacDorman, K. F. (1994). An account of consciousness in physical and functional terms: A target for research in the neurosciences. Integrative Physiological and Behavioral Science, 29(2), 151–181.|10.1007/BF02691012|
2007|2|Invited Journal Papers|1.B|Android Science: Normative Interaction|MacDorman2007SpecialIssueIntro.pdf|MacDorman, K. F., & Kahn, P. H., Jr. (2007). Introduction to the special issue on psychological benchmarks of human–robot interaction. Interaction Studies, 8(3), 359–362.|10.1075/is.8.3.02mac|
2006|2|Invited Journal Papers|1.A|Android Science: General|MacDorman2006AndroidScienceEditorial.pdf|MacDorman, K. F. (2006). Introduction to the special issue on android science. Connection Science, 18(4), 313–318.|10.1080/09540090600906258|
2006|2|Invited Journal Papers|1.A|Android Science: General|MacDorman2005TowardSocMechIntStudies.pdf|MacDorman, K. F., & Ishiguro, H. (2006). Toward social mechanisms of android science: A CogSci 2005 workshop. Interaction Studies, 7(2), 289–296.|10.1075/is.7.2.12mac|
1999|2|Invited Journal Papers|2.A|Symbol Emergence|MacDorman-1999-Grounding-Symbols-through-Sensorimotor-Integration.pdf|MacDorman, K. F. (1999). Grounding symbols through sensorimotor integration. Journal of the Robotics Society of Japan, 17(1), 20–24.|10.7210/jrsj.17.20|
1999|2|Invited Journal Papers|2.A|Symbol Emergence|Nakamura-1999-Why-is-cognitive-robotics-promising.pdf|Nakamura, T., Sato, T., Kuniyoshi, Y., Hiraki, K. F., Shibata, T., Asada, M., MacDorman, K. F., & Tani, J. (1999). Why is cognitive robotics promising? (なぜ認知ロボティクスは有望なのか?) Journal of the Robotics Society of Japan, 17(1), 38–43. (in Japanese)|10.7210/jrsj.17.38|
1998|3|Refereed Journal Commentary|2.A|Symbol Emergence|MacDorman1998FeatureLearningBBS.pdf|MacDorman, K. F. (1998). Feature learning, multiresolution analysis, and symbol grounding: A peer commentary on Schyns, Goldstone, and Thibaut’s “The development of features in object concepts.” Behavioral and Brain Sciences, 21(1), 32–33.||
1997|3|Refereed Journal Commentary|2.A|Symbol Emergence|MacDorman1997MemoryMustAlsoMeshAffectBBS.pdf|MacDorman, K. F. (1997). Memory must also mesh affect: A peer commentary on Glenberg’s “What memory is for.” Behavioral and Brain Sciences, 20(1), 29.||
2009|4|Refereed Conference Papers|1.A|Android Science: General|Wairatpanij2009BabySteps.pdf|Wairatpanij, S., Patel, H., Cravens, G., & MacDorman, K. F. (2009). Baby steps: A design proposal for more believable motion in an infant-sized android. In K. Dautenhahn (Ed.), Proceedings of the New Frontiers in Human-Robot Interaction (pp. 139–144). The 23rd Convention of the Society for the Study of Artificial Intelligence and Simulation of Behaviour. April 6–9, 2009. Edinburgh, United Kingdom.||
2010|6|Book Chapters|6.A|Human-Computer Interaction|Pfaff2010InfoFusion.pdf|Pfaff, M. S., Newlon, C. M., Patel, H., & MacDorman, K. F. (2010). Information fusion for civilians: The prospects of mega-collaboration. In Hall, D. L., & Jordan, J. (Eds.), Human centered information fusion (pp. 211–229). Norwood, Mass.: Artech House.||
2020|4|Refereed Conference Papers|6.A|Human-Computer Interaction||Lin, C., MacDorman K. F., Šabanović, S., Miller, A. D., & Brady, E. L. (2020). Parental expectations, concerns, and acceptance of storytelling robots for children. HRI ’20: Companion of the 2020 ACM/IEEE International Conference on Human–Robot Interaction (pp. 346–348), March 2020.|10.1145/3371382.3378376|
2012|4|Refereed Conference Papers|1.C|Uncanny Valley||Bayliss, L., McCarthy, A., Woodard, K., Dennis, L., Ivory, J. D., Patel, H., & MacDorman, K. F. (2012). Receptive to bad reception: Can jerky video make persuasive messages more effective? Proceedings of the Conference of the International Communication Association, Information Systems Division. May 24–28, 2012. Phoenix, Arizona.||
2012|4|Refereed Conference Papers|5.A|Bioinformatics||Wu, X., Huang, H., Sonachalam, M., Pandey, R., MacDorman, K. F., & Chen, J. (2012). Network-mapping proteomics data analysis for identifying colorectal cancer biomarker candidates. Great Lakes Bioinformatics Conference (International Society of Computational Biology). May 15–17, 2012. Ann Arbor, Michigan.||
2009|4|Refereed Conference Papers|6.A|Human-Computer Interaction|Newlon2009MegacollaborationISCRAM.pdf|Newlon, C. M., Pfaff, M., Patel, H., de Vreede, G.-J., & MacDorman, K. F. (2009). Mega-collaboration: The inspiration and development of an interface for large-scale disaster response. In Proceedings of the Sixth International ISCRAM Conference. May 10–13, 2009. Gothenburg, Sweden. (8 pages)||
2008|4|Refereed Conference Papers|6.A|Human-Computer Interaction|Newlon2008MegaCollaborationVisualizationSupport.pdf|Newlon, C. M., Faiola, A., & MacDorman, K. F. (2008). Building the mega-collaboration interface: Behavioral, cultural, and cognitive factors in visualization support. Proceedings of the 12th International Conference on Information Visualisation (IV2008, pp. 509–514). July 8–11, 2008. London.||
2008|4|Refereed Conference Papers|6.A|Human-Computer Interaction|Newlon2008NewModelMega-Collaboration.pdf|Newlon, C. M., MacDorman, K. F., & Scerri, P. (2008). A new model for mega-collaboration. HCI for Emergencies, ACM SIGCHI (pp. 1–7). April 5–10, 2008. Florence, Italy.||
2013|4|Refereed Conference Papers|1.C|Uncanny Valley||MacDorman, K. F., & Srinivas, P. (2013). Uncanny valley and motor empathy: Identifying movement synchronization with humanlike characters. Grace Hopper Celebration of Women in Computing Conference. October 2–5. Minneapolis, MN.||
2008|4|Refereed Conference Papers|1.C|Uncanny Valley|Ho2007EmotionUncanny.pdf|Ho, C.-C., MacDorman, K. F., & Pramono, Z. A. D. (2008). Human emotion and the uncanny valley: A GLM, MDS, and ISOMAP analysis of robot video ratings. Proceedings of the Third ACM/IEEE International Conference on Human–Robot Interaction (pp. 169–176). March 11–14, 2008. Amsterdam.|10.1145/1349822.1349845|
2007|4|Refereed Conference Papers|5.A|Bioinformatics||Wee, K. B., Pramono, Z. A. D., Wang, J. L., MacDorman, K. F., Yee, W. C., & Lai, P. S. (2007). Accounting for pre-mRNA co-transcriptional folding in selection of antisense oligonucleotide targets for induction of exon skipping in DMD. Proceedings of the 12th International Congress of the World Muscle Society. October 17–20, 2007. Taormina, Italy.||
2006|4|Refereed Conference Papers|1.B|Android Science: Normative Interaction|MacDormanCowley2006LTRbenchmark.pdf|MacDorman, K. F., & Cowley, S. J. (2006). Long-term relationships as a benchmark for robot personhood. Proceedings of the 15th IEEE International Symposium on Robot and Human Interactive Communication((pp. 378–383). September 6–9, 2006. University of Hertfordshire, Hatfield, UK.||
2006|4|Refereed Conference Papers|1.C|Uncanny Valley|MacDorman2006SubjectiveRatings.pdf|MacDorman, K. F. (2006). Subjective ratings of robot video clips for human likeness, familiarity, and eeriness: An exploration of the uncanny valley. ICCS/CogSci-2006 Long Symposium: Toward Social Mechanisms of Android Science (pp. 26–29). July 26, 2006. Vancouver, Canada.||
2005|4|Refereed Conference Papers|1.C|Uncanny Valley|MacDorman2005MortalityUncannyValleyHumanoids.pdf|MacDorman, K. F. (2005). Mortality salience and the uncanny valley. Proceedings of the IEEE-RAS International Conference on Humanoid Robots (pp. 339–405). December 5–7, 2005. Tsukuba, Japan.|10.1109/ICHR.2005.1573600|
2005|4|Refereed Conference Papers|1.C|Uncanny Valley||MacDorman, K. F. (2005). Androids as experimental apparatus: Why is there an uncanny valley and can we exploit it? CogSci-2005 Workshop: Toward Social Mechanisms of Android Science (pp. 108–118). July 25–26, 2005. Stresa, Italy.||
2005|4|Refereed Conference Papers|1.B|Android Science: Normative Interaction|MacDormani2005AssessHumanLikenessCogSci.pdf|MacDorman, K. F., Minato, T., Shimada, M., Itakura, S., Cowley, S. J., & Ishiguro, H. (2005). Assessing human likeness by eye contact in an android testbed. Proceedings of the XXVII Annual Meeting of the Cognitive Science Society (pp. 1373–1378). July 21–23, 2005. Stresa, Italy. (6 pages)||
2005|4|Refereed Conference Papers|1.B|Android Science: Normative Interaction|Matsui2005NaturalMotionIROS.pdf|Matsui, D., Minato, T., MacDorman, K. F., & Ishiguro, H. (2005). Generating natural motion in an android by mapping human motion. Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems (pp. 1089–1096). August 2–6, 2005. Edmonton, Canada.|10.1109/IROS.2005.1545125|
2005|4|Refereed Conference Papers|1.B|Android Science: Normative Interaction||MacDorman, K. F., Minato, T., Shimada, M., Itakura, S., Cowley, S. J., & Ishiguro, H. (2005). Humanity is in the gaze of the beholder: Experiments with androids and people. Proceedings of the Second Conference of the International Society for Gesture Studies (p. 88). June 15–18, 2005. Lyon, France. (Abstract only)||
2005|4|Refereed Conference Papers|3.A|Sensorimotor Learning|Oyama2005InverseKinematicsIROS.pdf|Oyama, E., Maeda, T., Gan, J. Q., Rosales, E. M., MacDorman, K. F., Tachi, S. & Agah, A. (2005). Inverse kinematics learning for robotic arms with fewer degrees of freedom by modular neural network systems. Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems (pp. 833–840). August 2–6, 2005. Edmonton, Canada.|10.1109/IROS.2005.1545084|
2004|4|Refereed Conference Papers|2.A|Symbol Emergence|MacDorman2004LearnToRecogICDL.pdf|MacDorman, K. F., Chalodhorn, R., & Ishiguro, H. (2004). Learning to recognize and reproduce abstract actions from proprioception. Third International Conference on Development and Learning: Developing Social Brains. October 20–22, 2004. La Jolla, California.||
2004|4|Refereed Conference Papers|2.A|Symbol Emergence||Chalodhorn, R., MacDorman, K. F., & Asada, M. (2004). Automatic extraction of abstract actions from humanoid motion data. Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems (pp. 2781–2786). September 28–October 2, 2004. Sendai, Japan.||
2004|4|Refereed Conference Papers|2.A|Symbol Emergence||MacDorman, K. F., Nobuta, H., Ikeda, T., Koizumi, S., & Ishiguro, H. (2004). A memory-based distributed vision system that employs a form of attention to recognize group activity at a subway station. Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems (Vol. 2, pp. 1704–1709). September 28–October 2, 2004. Sendai, Japan.||
2004|4|Refereed Conference Papers|2.A|Symbol Emergence|MacDorman2003MemBasedRecIROS.pdf|MacDorman, K. F., Nobuta, H., Minato, T., & Ishiguro, H. (2004). Memory-based recognition of human behavior based on sensory data of high dimensionality. Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems (Vol. 1, pp. 571–576). September 28–October 2, 2004. Sendai, Japan.||
2004|4|Refereed Conference Papers|2.A|Symbol Emergence||MacDorman, K. F., Chalodhorn, R., Ishiguro, H., & Asada, M. (2004). Protosymbols that integrate recognition and response. Proceedings of the Fourth International Workshop on Epigenetic Robotics. August 25–27, 2004. Genoa, Italy.||
2004|4|Refereed Conference Papers|2.A|Symbol Emergence||MacDorman, K. F., Chalodhorn, R., & Asada, M. (2004). Periodic nonlinear principal component neural networks for humanoid motion segmentation, generalization, and generation. Proceedings of the Seventeenth International Conference on Pattern Recognition (pp. 537–540). August 23–26, 2004. Cambridge, UK.||
2004|4|Refereed Conference Papers|2.A|Symbol Emergence||Chalodhorn, R., MacDorman, K. F., & Asada, M. (2004). An algorithm that recognizes and reproduces distinct types of humanoid motion based on periodically constrained nonlinear PCA. Proceedings of the Eighth RoboCup International Symposium (pp. 370–380). July 5–7, 2004. Lisbon, Portugal.||
2002|4|Refereed Conference Papers|3.A|Sensorimotor Learning||Oyama, E., MacDorman, K. F., Maeda, T., Tachi, S., & Agah, A. (2002). A new model of the visual feedback coordinate transformation in humans based on disturbance noise and feedback error that accounts for time delays. IEEE/RSJ International Conference on Intelligent Robots and Systems (Vol. 2, pp. 950–957). September 30–October 4, 2002. EPFL, Lausanne, Switzerland.||
2001|4|Refereed Conference Papers|2.A|Symbol Emergence||MacDorman, K. F., Tatani, K., Miyazaki, Y., Koeda, M., & Nakamura, Y. (2001). Protosymbol emergence based on embodiment: Robot experiments. ICRA 2001: Proceedings of the IEEE International Conference on Robotics and Automation (pp. 1968–1974). May 21–26, 2001. Seoul National University, Seoul, Korea.||
2001|4|Refereed Conference Papers|2.A|Symbol Emergence||Tatani, K., MacDorman, K. F., & Nakamura, Y. (2001).原始記号を学習するサバイバルを目的とした移動ロボット A mobile robot that learns protosymbols for survival. Proceedings of the Japan Society of Mechanical Engineers Conference on Robotics and Mechatronics (ROBOMEC 2001), 608(2P1-B10), 1037-1802.||
2001|4|Refereed Conference Papers|3.A|Sensorimotor Learning|Oyama2001LearnACoordTrans.pdf|Oyama, E., Chong, N. Y., Agah, A., Maeda, T., Tachi, S., & MacDorman, K. F. (2001). Learning a coordinate transformation for a human visual feedback controller based on disturbance noise and the feedback error signal. ICRA 2001: Proceedings of the IEEE International Conference on Robotics and Automation (Vol. 4, pp. 4186–4193). May 21–26, 2001. Seoul National University, Seoul, Korea.||
2000|4|Refereed Conference Papers|2.A|Symbol Emergence|MacDorman2000ProtosymEmergenceIROS.pdf|MacDorman, K. F., Tatani, K., Miyazaki, Y., & Koeda, M. (2000). Proto-symbol emergence. Proceedings of IROS-2000: IEEE/RSJ International Conference on Intelligent Robots and Systems (pp. 1619–1625). October 30–November 5, 2000. Kagawa University, Takamatsu, Japan.||
2000|4|Refereed Conference Papers|2.A|Symbol Emergence||Asada, M., MacDorman, K. F., Ishiguro, H., & Kuniyoshi, Y. (2000). Cognitive developmental robotics as a new paradigm for the design of humanoid robots. Humanoids 2000: Proceedings of the First IEEE-RAS International Conference on Humanoid Robots, September 7–8, 2000. MIT, Cambridge, MA.||
2000|4|Refereed Conference Papers|2.A|Symbol Emergence||MacDorman, K. F., Tatani, K., & Nakamura, Y. (2000). Emergence of primitive symbols from robot dynamics. Proceedings of the 18th Annual Conference of the Robotics Society of Japan (pp. 787–788). September 12–14, 2000. Ritsumeikan University, Kusatsu, Japan. (in Japanese)||
2000|4|Refereed Conference Papers|2.A|Symbol Emergence||MacDorman, K. F. (2000). Responding to affordances: Learning and projecting a sensorimotor mapping. Proceedings of IEEE International Conference on Robotics and Automation (pp. 3253–3259). April 24–28, 2000. San Francisco, California.||
1999|4|Refereed Conference Papers|3.A|Sensorimotor Learning|MacDorman1999PartitionNets.pdf|MacDorman, K. F. (1999). Partition nets: An efficient on-line learning algorithm. Proceedings of ICAR-99: Ninth International Conference on Advanced Robotics (pp. 529–535), October 25–27, 1999. Tokyo.||
1999|4|Refereed Conference Papers|3.A|Sensorimotor Learning|MacDorman1999HeuristicsForProjecting.pdf|MacDorman, K. F. (1999). Heuristics for projecting a sensorimotor mapping. Proceedings of ISR-99: 30th International Symposium on Robotics (pp. 169–176). October 27–29, 1999. Tokyo.||
1999|4|Refereed Conference Papers|3.A|Sensorimotor Learning||Tatani, K., & MacDorman, K. F. (1999). Planning to learn versus learning to plan. Proceedings of the 17th Annual Conference of the Robotics Society of Japan (pp. 641–642). September 9–11, 1999. Tokai University, Hiratsuka. (in Japanese)||
1998|4|Refereed Conference Papers|3.A|Sensorimotor Learning||Mitsuda, T., Miyazaki, Y., Maru, N., MacDorman, K. F., Nishikawa, A., & Miyazaki, F. (1999). Visual servoing based on coarse optical flow. Proceedings of the Fourteenth IFAC World Congress (Vol. B, pp. 53–58). Beijing.||
1998|4|Refereed Conference Papers|3.A|Sensorimotor Learning||Mitsuda, T., Miyazaki, Y., Maru, N., MacDorman, K. F., & Miyazaki, F. (1998). Precise planar positioning using visual servoing based on coarse optical flow. Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems (Vol. 2, pp. 712–717). October 13–18, 1998. Victoria, Canada.||
1998|4|Refereed Conference Papers|2.A|Symbol Emergence||MacDorman, K. F., & Miyazaki, Y. (1998). Robots that recognize affordances: A predictive approach. Proceedings of the 16th Annual Conference of the Robotics Society of Japan (Vol. 2, pp. 901–902). September 18–20, 1998. Hokkaido University, Sapporo, Japan.||
1998|4|Refereed Conference Papers|3.A|Sensorimotor Learning||Nakawaki, D., Cisek, R., MacDorman, K. F., Joo, S., & Miyazaki, F. (1998). Coaching information determined from dynamic modeling based on a total energy analysis. Proceedings of the 16th Annual Conference of the Robotics Society of Japan (Vol. 1, pp. 45–46). September 18–20, 1998. Hokkaido University, Sapporo, Japan.||
1995|4|Refereed Conference Papers|2.A|Symbol Emergence||MacDorman, K. F. (1995). How to ground symbols adaptively: A preliminary report. Reaching for Mind: Foundations of Cognitive Science Workshop, AISB-95: Tenth Biennial Conference on Artificial Intelligence and Cognitive Science. April 3–4, 1995. Sheffield, UK.||
2008|5|Invited Workshop and Other Papers|1.B|Android Science: Normative Interaction||MacDorman, K. F., & Cowley, S. J. (2008). Long-term relationships as a benchmark for robot personhood. AAAI 2008 Spring Symposium on Emotion, Personality, and Social Behavior (SS-08-04, pp. 143–145). March 26–28, 2008. Stanford, California.||
2008|5|Invited Workshop and Other Papers|1.B|Android Science: Normative Interaction||Velonaki, M., Rye, D., Scheding, S., MacDorman, K. F., Cowley, S. J., Ishiguro, H., & Nishio, N. (2008). Engagement, trust and intimacy: Are these the essential elements for a ‘successful’ interaction between a human and a robot? AAAI 2008 Spring Symposium on Emotion, Personality, and Social Behavior (SS-08-04, pp. 141–148). March 26–28, 2008. Stanford, California.||
2007|5|Invited Workshop and Other Papers|1.C|Uncanny Valley||MacDorman, K. F. (2007). Charting the uncanny valley. International Conference on Computer Graphics and Interactive Techniques ACM SIGGRAPH 2007 panels. August 5–9. San Diego, USA.||
2007|5|Invited Workshop and Other Papers|1.C|Uncanny Valley||MacDorman, K. F. (2007). The future of very humanlike robots in science and society. 38th International Symposium on Robotics. June 12–14. Chicago, USA.||
2007|5|Invited Workshop and Other Papers|1.C|Uncanny Valley||MacDorman, K. F. (2007). The uncanny valley. 2007 NMC Summer Conference. June 6–9, 2007. Indianapolis, USA.||
2004|5|Invited Workshop and Other Papers|1.A|Android Science: General||MacDorman, K. F., & Ishiguro, H. (2004). The study of interaction through the development of androids. Computer Vision and Image Processing Workshop, Information Processing Society of Japan, SIG Technical Reports 2004-CVIM-146 (pp. 69–75), 2004(113). November 11–12, 2004. Tokyo, Japan.||
2004|5|Invited Workshop and Other Papers|1.B|Android Science: Normative Interaction||Minato, T., MacDorman, K. F., Shimada, M., Itakura, S., Lee, K., & Ishiguro, H. (2004). Evaluating humanlikeness by comparing gaze behaviors elicited by an android and a person. Proceedings of the Second International Workshop on Man–Machine Symbiotic Systems (pp. 373–383). November 23–24, 2004. Kyoto, Japan.||
2004|5|Invited Workshop and Other Papers|1.B|Android Science: Normative Interaction||Matsui, D., Minato, T., MacDorman, K. F., & Ishiguro, H. (2004). Generating an android’s humanlike motion by mapping from human motion. Proceedings of the Information Processing Society of Japan (pp. 97–100), Kansai Branch. October, 2004. Osaka, Japan. (In Japanese)||
2003|5|Invited Workshop and Other Papers|3.A|Sensorimotor Learning||MacDorman, K. F. (2003). Pattern recognition and intelligent systems: Partition networks. Proceedings of the Conference of the Information Processing Society (pp. 87–92), Kansai Branch. (In Japanese)||
1997|5|Invited Workshop and Other Papers|2.A|Symbol Emergence||MacDorman, K. F. (1997). A path to symbol-grounded robots. Meiji University International Exchange Programs Guest Lecture Series, 2. Center for International Programs, Meiji University.||
2019|6|Book Chapters|1.C|Uncanny Valley|Mori-2019-unheimliche-Tal-Uncanny-Interfaces.pdf|Mori, M. (2019). Das unheimliche Tal (K. F. MacDorman & V. Schwind, trans.). In K. D. Haensch, L. Nelke, & M. Planitzer (Eds.), Uncanny interfaces (pp. 212–219). Hamburg, Germany: Textem. ISBN 978-3864852176|10.5281/zenodo.3226987|
2019|6|Book Chapters|1.C|Uncanny Valley|MacDorman-2019-Mori-unheimliche-Tal-Retrospektive-Uncanny-Interfaces.pdf|MacDorman, K. F. (2019). Masahiro Mori und das unheimliche Tal: Eine Retrospektive. In K. D. Haensch, L. Nelke, & M. Planitzer (Eds.), Uncanny interfaces (pp. 220–234). Hamburg, Germany: Textem. ISBN 978-3864852176|10.5281/zenodo.3226274|
2018|6|Book Chapters|1.B|Android Science: Normative Interaction||Matsui, D., Minato, T., MacDorman, K. F., & Ishiguro, H. (2018). Generating natural motion in an android by mapping human motion. In H. Ishiguro & F. D. Libera (Eds.), Geminoid studies: Science and technologies for humanlike teleoperated androids (pp. 57–73). Singapore: Springer.||
2007|6|Book Chapters|1.B|Android Science: Normative Interaction|Matsui2007NaturalMotionHumanoid.pdf|Matsui, D., Minato, T., MacDorman, K. F., & Ishiguro, H. (2007). Generating natural motion in an android by mapping human motion. In M. Hackel (Ed.), Humanoid robots: Human-like machines (pp. 351–366). Vienna: I-Tech Education and Publishing.||
2002|6|Book Chapters|3.A|Sensorimotor Learning||Oyama, E., Maeda, T., Tachi, S., MacDorman, K. F., & Agah, A. (2002). On the use of forward kinematic models in visually guided hand position control: Analysis based on ISLES model. In J. M. Bower (Ed.), Computational Neuroscience: Trends in Research 2002 (pp. 965–972). New York: Elsevier.|10.1016/S0925-2312(02)00498-8||
1997|6|Book Chapters|2.A|Symbol Emergence||MacDorman, K. F. (1997). How to ground symbols adaptively. In S. O’Nuallain, P. McKevitt, & E. MacAogain (Eds.), Readings in computation, content and consciousness (pp. 137–178). Amsterdam: John Benjamins.||
1997|7|Technical Reports|2.A|Symbol Emergence||MacDorman, K. F. (1997). Symbol grounding: Learning categorical and sensorimotor predictions for coordination in autonomous robots. Technical Report No. 423. Computer Laboratory, Cambridge (e-mail librarian@cl.cam.ac.uk).||
2010|8|Posters|1.A|Android Science: General||MacDorman, K. F., Gadde, P., Ho, C.-C., Mitchell, W. J., Patel, H., Schermerhorn, P. W., & Scheutz, M. (2010). Probing people’s attitudes and behaviors using humanlike agents. IUPUI Research Day. April 9, 2010. Indianapolis, Indiana.||
2013|8|Posters|1.C|Uncanny Valley||Srinivas, P., MacDorman, K. F., & Patel, H. (2013). The uncanny valley and motor empathy. IUPUI Research Day. April 5, 2013. Indianapolis, Indiana.||
2012|8|Posters|1.C|Uncanny Valley||Srinivas, P., Patel, H., & MacDorman, K. F. (2012). The uncanny valley and empathy: A study of the effects of human likeness and eeriness on empathetic associations during an image categorization task. IUPUI Research Day. April 13, 2012. Indianapolis, Indiana.||
2012|8|Posters|1.C|Uncanny Valley||Mitchell, W. J., Szerszen, K. A., Sr., Lu, A. S. & MacDorman, K. F. (2012). A mismatch in the human realism of face and voice produces an uncanny valley. IUPUI Research Day. April 13, 2012. Indianapolis, Indiana.||
2011|8|Posters|1.C|Uncanny Valley||Srinivas, P., Patel, H., Ho, C.-C., & MacDorman, K. F. (2011). An uncanny valley of visual perspective taking: A study of the effect of character human likeness and eeriness on altercentric intrusions during a dot counting task. IUPUI Research Day. April 8, 2011. Indianapolis, Indiana.||
2009|8|Posters|1.A|Android Science: General||MacDorman, K. F., Wairatpanij, S., Chen, Y., Du, Y., Anwar, S., Yu, C. (2009). Humanizing robots. IUPUI Research Day. April 24, 2009. Indianapolis, Indiana.||
2004|8|Posters|4.A|Consciousness||MacDorman, K. F. (2004). What “unfilling in” says about the nature of representation in the brain. Proceedings of the Second International Symposium on Emergent Mechanisms of Communication in the Brain. March 1–3, 2004. Awaji Yumebutai, Japan.||
2004|8|Posters|2.A|Symbol Emergence||Marubayashi, N., & MacDorman, K. F. (2004). Inquiry into the mechanism of symbol emergence based on affect and its robotic implementation. Proceedings of the Second International Symposium on Emergent Mechanisms of Communication in the Brain. March 2004. Awaji Yumebutai, Japan.||
2012|9|Translations|1.C|Uncanny Valley|Mori1970-2012UncannyValleyIEEER&A.pdf|Mori, M. (2012). The uncanny valley (K. F. MacDorman & Norri Kageki, Trans.). IEEE Robotics and Automation, 19(2), 98–100. (Original work published in 1970).|10.1109/MRA.2012.2192811|