Bibliometric Analysis of Social Robotics Research: Identifying Research Trends and Knowledgebase
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[1] Yoshiyuki Takeda,et al. Nanobiotechnology as an emerging research domain from nanotechnology: A bibliometric approach , 2009, Scientometrics.
[2] Edward Hall,et al. The hidden dimension: an anthropologist examines man's use of space in public and private , 1969 .
[3] R. K. Buter,et al. Identification and analysis of the highly cited knowledge base of sustainability science , 2012, Sustainability Science.
[4] Clifford Nass,et al. The media equation - how people treat computers, television, and new media like real people and places , 1996 .
[5] Brett Browning,et al. A survey of robot learning from demonstration , 2009, Robotics Auton. Syst..
[6] Alin Albu-Schäffer,et al. Requirements for Safe Robots: Measurements, Analysis and New Insights , 2009, Int. J. Robotics Res..
[7] M. M. Kessler,et al. An experimental study of bibliographic coupling between technical papers (Corresp.) , 1963, IEEE Trans. Inf. Theory.
[8] Cynthia Breazeal,et al. Emotion and sociable humanoid robots , 2003, Int. J. Hum. Comput. Stud..
[9] Dana Kulic,et al. Measurement Instruments for the Anthropomorphism, Animacy, Likeability, Perceived Intelligence, and Perceived Safety of Robots , 2009, Int. J. Soc. Robotics.
[10] Paolo Dario,et al. Humanoids and personal robots: Design and experiments , 2001, J. Field Robotics.
[11] Joelle Pineau,et al. Towards robotic assistants in nursing homes: Challenges and results , 2003, Robotics Auton. Syst..
[12] M. Newman,et al. Hierarchical structure and the prediction of missing links in networks , 2008, Nature.
[13] C. Nass,et al. Machines and Mindlessness , 2000 .
[14] Kevin W. Boyack,et al. Mapping the backbone of science , 2004, Scientometrics.
[15] Mark Moll,et al. Modular Self-reconfigurable Robot Systems: Challenges and Opportunities for the Future , 2007 .
[16] Yanghee Kim,et al. Research-Based Design of Pedagogical Agent Roles: a Review, Progress, and Recommendations , 2016, International Journal of Artificial Intelligence in Education.
[17] Karon E. MacLean,et al. The Role of Affective Touch in Human-Robot Interaction: Human Intent and Expectations in Touching the Haptic Creature , 2012, Int. J. Soc. Robotics.
[18] Ronald N. Kostoff,et al. Science and technology roadmaps , 2001, IEEE Trans. Engineering Management.
[19] Cynthia Breazeal,et al. Designing sociable robots , 2002 .
[20] Christopher M. Schlick,et al. Human-robot Cooperation in Future Production Systems: Analysis of Requirements for Designing an Ergonomic Work System☆ , 2015 .
[21] Gerard Salton,et al. Term-Weighting Approaches in Automatic Text Retrieval , 1988, Inf. Process. Manag..
[22] C. Basaran. Preface , 1934, The Yale Journal of Biology and Medicine.
[23] Bruce A. MacDonald,et al. Acceptance of Healthcare Robots for the Older Population: Review and Future Directions , 2009, Int. J. Soc. Robotics.
[24] Gregory S. Chirikjian,et al. Modular Self-Reconfigurable Robot Systems [Grand Challenges of Robotics] , 2007, IEEE Robotics & Automation Magazine.
[25] Maja J. Mataric,et al. Using Socially Assistive Human–Robot Interaction to Motivate Physical Exercise for Older Adults , 2012, Proceedings of the IEEE.
[26] Christine L. Lisetti. Affective computing , 1998, Pattern Analysis and Applications.
[27] G. Theraulaz,et al. Inspiration for optimization from social insect behaviour , 2000, Nature.
[28] Robin R. Murphy,et al. Human-robot interactions during the robot-assisted urban search and rescue response at the World Trade Center , 2003, IEEE Trans. Syst. Man Cybern. Part B.
[29] Edward M Marcotte,et al. LGL: creating a map of protein function with an algorithm for visualizing very large biological networks. , 2004, Journal of molecular biology.
[30] Elizabeth A. Croft,et al. A human-inspired object handover controller , 2013, Int. J. Robotics Res..
[31] Yuya Kajikawa,et al. Actual State of the Robotic Study Changed by the Implementation in the Real World , 2013 .
[32] J. Broekens,et al. Assistive social robots in elderly care: a review , 2009 .
[33] R. A. Brooks,et al. Intelligence without Representation , 1991, Artif. Intell..
[34] Chih-Wei Chang,et al. Improving the authentic learning experience by integrating robots into the mixed-reality environment , 2010, Comput. Educ..
[35] B. Duffy,et al. What is a social robot , 1999 .
[36] Travis J. Wiltshire,et al. Toward understanding social cues and signals in human–robot interaction: effects of robot gaze and proxemic behavior , 2013, Front. Psychol..
[37] Gerhard Sagerer,et al. Understanding Social Robots , 2009, 2009 Second International Conferences on Advances in Computer-Human Interactions.
[38] Blaise Cronin,et al. The Scholar's Courtesy: a Survey of acknowledgement behaviour , 1994, J. Documentation.
[39] Yoshiyuki Takeda,et al. Detecting emerging research fronts based on topological measures in citation networks of scientific publications , 2008 .
[40] Cornelius Herstatt,et al. The emergence of care robotics — A patent and publication analysis , 2015 .
[41] Colin Allen,et al. Prolegomena to any future artificial moral agent , 2000, J. Exp. Theor. Artif. Intell..
[42] Selma Sabanovic,et al. Robots in Society, Society in Robots , 2010, Int. J. Soc. Robotics.
[43] Yuya Kajikawa,et al. Assessing the Sentiment of Social Expectations of Robotic Technologies , 2017, 2017 Portland International Conference on Management of Engineering and Technology (PICMET).
[44] Andreas Krause,et al. Robot navigation in dense human crowds: Statistical models and experimental studies of human–robot cooperation , 2015, Int. J. Robotics Res..
[45] F Mondada,et al. Social Integration of Robots into Groups of Cockroaches to Control Self-Organized Choices , 2007, Science.
[46] Pierre-Yves Oudeyer,et al. An Alternative to Mapping a Word onto a Concept in Language Acquisition: Pragmatic Frames , 2016, Front. Psychol..
[47] Kerstin Dautenhahn,et al. Getting to know each other - Artificial social intelligence for autonomous robots , 1995, Robotics Auton. Syst..
[48] K. Kiguchi,et al. Modular fuzzy-neuro controller driven by spoken language commands , 2004, IEEE Transactions on Systems, Man, and Cybernetics, Part B (Cybernetics).
[49] Keigo Watanabe,et al. Controlling a robot manipulator with fuzzy voice commands using a probabilistic neural network , 2007, Neural Computing and Applications.
[50] Terrence J Sejnowski,et al. Foundations for a New Science of Learning , 2009, Science.
[51] Vicki Bruce. What the human face tells the human mind: some challenges for the robot-human interface , 1993, Adv. Robotics.
[52] Selma Sabanovic. Socializing co-robots: Incorporating users and situated interaction in the design of collaborative robots , 2014, 2014 International Conference on Collaboration Technologies and Systems (CTS).
[53] E. Vesterinen,et al. Affective Computing , 2009, Encyclopedia of Biometrics.
[54] Futoshi Naya,et al. Differences in effect of robot and screen agent recommendations on human decision-making , 2005, Int. J. Hum. Comput. Stud..
[55] Giovanni Pezzulo,et al. The intentional stance as structure learning: a computational perspective on mindreading , 2015, Biological Cybernetics.
[56] Yuya Kajikawa,et al. The field of social robotics as means of technology selection to address country specific social issues , 2016, 2016 Portland International Conference on Management of Engineering and Technology (PICMET).
[57] K. Dautenhahn,et al. Towards interactive robots in autism therapy: background, motivation and challenges , 2004 .
[58] Karl F. MacDorman,et al. The Uncanny Valley [From the Field] , 2012, IEEE Robotics Autom. Mag..
[59] Beno Benhabib,et al. A Survey of Autonomous Human Affect Detection Methods for Social Robots Engaged in Natural HRI , 2016, J. Intell. Robotic Syst..
[60] Marco Dorigo,et al. Swarm intelligence: from natural to artificial systems , 1999 .
[61] Cynthia Breazeal,et al. Cost-Based Anticipatory Action Selection for Human–Robot Fluency , 2007, IEEE Transactions on Robotics.
[62] Takayuki Kanda,et al. Interactive Robots as Social Partners and Peer Tutors for Children: A Field Trial , 2004, Hum. Comput. Interact..
[63] Kevin W. Boyack,et al. Which Type of Citation Analysis Generates the Most Accurate Taxonomy of Scientific and Technical Knowledge? , 2015, J. Assoc. Inf. Sci. Technol..
[64] Candace L. Sidner,et al. Explorations in engagement for humans and robots , 2005, Artif. Intell..
[65] Henry G. Small,et al. Co-citation in the scientific literature: A new measure of the relationship between two documents , 1973, J. Am. Soc. Inf. Sci..
[66] Maya B. Mathur,et al. Navigating a social world with robot partners: A quantitative cartography of the Uncanny Valley , 2016, Cognition.
[67] Shuichi Nishio,et al. Cloud networked robotics , 2012, IEEE Network.
[68] Heloir,et al. The Uncanny Valley , 2019, The Animation Studies Reader.
[69] Antonios Gasteratos,et al. Recent trends in social aware robot navigation: A survey , 2017, Robotics Auton. Syst..
[70] Sotiris Makris,et al. Human–robot interaction review and challenges on task planning and programming , 2016, Int. J. Comput. Integr. Manuf..
[71] Francesc Serratosa,et al. Cooperative pose estimation of a fleet of robots based on interactive points alignment , 2016, Expert Syst. Appl..
[72] Jeremy N. Bailenson,et al. Virtual Interpersonal Touch: Expressing and Recognizing Emotions Through Haptic Devices , 2007, Hum. Comput. Interact..
[73] Maja J. Mataric,et al. Designing and Understanding Adaptive Group Behavior , 1995, Adapt. Behav..
[74] B. Scassellati,et al. Robots for use in autism research. , 2012, Annual review of biomedical engineering.
[75] K. Fujita,et al. Finding linkage between technology and social issues: A literature based discovery approach , 2012, 2012 Proceedings of PICMET '12: Technology Management for Emerging Technologies.
[76] Selmer Bringsjord,et al. Toward a General Logicist Methodology for Engineering Ethically Correct Robots , 2006, IEEE Intelligent Systems.
[77] Steffen Steinert,et al. The Five Robots—A Taxonomy for Roboethics , 2014, Int. J. Soc. Robotics.
[78] Illah R. Nourbakhsh,et al. A survey of socially interactive robots , 2003, Robotics Auton. Syst..
[79] Robert Sparrow. Predators or plowshares? arms control of robotic weapons , 2009, IEEE Technology and Society Magazine.
[80] Sotiris Makris,et al. Augmented reality system for operator support in human–robot collaborative assembly , 2016 .
[81] Brian R. Duffy,et al. Anthropomorphism and the social robot , 2003, Robotics Auton. Syst..
[82] J. Kaouk,et al. Robotic versus laparoscopic partial nephrectomy: single-surgeon matched cohort study of 150 patients. , 2010, Urology.
[83] Aude Billard,et al. Robotic assistants in therapy and education of children with autism: can a small humanoid robot help encourage social interaction skills? , 2005, Universal Access in the Information Society.
[84] Eliseo Ferrante,et al. Swarm robotics: a review from the swarm engineering perspective , 2013, Swarm Intelligence.
[85] Ana Paiva,et al. Social Robots for Long-Term Interaction: A Survey , 2013, International Journal of Social Robotics.
[86] Lauren M. Schmitt,et al. The Clinical Use of Robots for Individuals with Autism Spectrum Disorders: A Critical Review. , 2012, Research in autism spectrum disorders.
[87] Helmut Hoyer,et al. Autonomous robot technology for advanced wheelchair and robotic aids for people with disabilities , 1995, Robotics Auton. Syst..