Abstract is missing.
- Time-Varying Affective Response for Humanoid RobotsLilia Moshkina, Ronald C. Arkin, Jamee K. Lee, HyunRyong Jung. 1-9 [doi]
- The Co-simulation of Humanoid Robot Based on Solidworks, ADAMS and SimulinkDalei Song, Lidan Zheng, Li Wang, Weiwei Qi, Yanli Li. 10-18 [doi]
- From RoboNova to HUBO: Platforms for Robot DanceDavid Grunberg, Robert Ellenberg, Youngmoo E. Kim, Paul Y. Oh. 19-24 [doi]
- BunnyBot: Humanoid Platform for Research and TeachingJoerg C. Wolf, Alexandre Vicente, Peter Gibbons, Nicholas Gardiner, Julian Tilbury, Guido Bugmann, Phil F. Culverhouse. 25-33 [doi]
- Teen Sized Humanoid Robot: ArchieJacky Baltes, Ahmad Byagowi, John W. Anderson, Peter Kopacek. 34-41 [doi]
- Interdisciplinary Construction and Implementation of a Human Sized Humanoid Robot by Master StudentsJan Helbo, Mads Sølver Svendsen. 42-52 [doi]
- Safety Aspects in a Human-Robot Interaction Scenario: A Human Worker Is Co-operating with an Industrial RobotMichael F. Zäh, Wolfgang Rösel. 53-62 [doi]
- Integration of a RFID System in a Social RobotA. Corrales, M. A. Salichs. 63-73 [doi]
- A Practical Study on the Design of a User-Interface Robot ApplicationMartin Saerbeck, Benoît Bleuzé, Albert J. N. van Breemen. 74-85 [doi]
- Infrared Remote Control with a Social RobotJ. Salichs, Álvaro Castro-González, Miguel Angel Salichs. 86-95 [doi]
- BlogRobot: Mobile Terminal for Blog Browse Using Physical RepresentationToshihiro Osumi, Kenta Fujimoto, Yuki Kuwayama, Masato Noda, Hirotaka Osawa, Michita Imai, Kazuhiko Shinozawa. 96-101 [doi]
- An Exploratory Investigation into the Effects of Adaptation in Child-Robot InteractionTamie Salter, François Michaud, Dominic Létourneau. 102-109 [doi]
- Devious Chatbots - Interactive Malware with a PlotJonathan Juin Yang Pan, Chun Che Fung, Kok Wai Wong. 110-118 [doi]
- Towards Better Human Robot Interaction: Understand Human Computer Interaction in Social Gaming Using a Video-Enhanced Diary MethodSee Swee Lan, Mitchell Tan, Looi Qin En. 119-127 [doi]
- Promotion of Efficient Cooperation by Sharing Environment with an Agent Having a Body in Real WorldHisashi Naito, Yugo Takeuchi. 128-133 [doi]
- Interaction Design for a Pet-Like Remote ControlKazuki Kobayashi, Yutaro Nakagawa, Seiji Yamada, Shinobu Nakagawa, Yasunori Saito. 134-139 [doi]
- Experiences with a Barista Robot, FusionBotDilip Kumar Limbu, Yeow Kee Tan, Chern Yuen Wong, Ridong Jiang, Hengxin Wu, Liyuan Li, Kah Eng Hoe, Xinguo Yu, Li Dong, Haizhou Li 0001. 140-151 [doi]
- Mutually Augmented CognitionFlorian Friesdorf, Dejan Pangercic, Heiner Bubb, Michael Beetz. 152-161 [doi]
- How Humans Optimize Their Interaction with the Environment: The Impact of Action Context on Human PerceptionAgnieszka Wykowska, Alexis Maldonado, Michael Beetz, Anna Schubö. 162-172 [doi]
- Development of a Virtual Presence Sharing System Using a Telework ChairYutaka Ishii, Tomio Watanabe. 173-178 [doi]
- PLEXIL-DL: Language and Runtime for Context-Aware Robot BehaviourHerwig Moser, Toni Reichelt, Norbert Oswald, Stefan Förster. 179-186 [doi]
- Ambient Intelligence in a Smart Home for Energy Efficiency and EldercareLiyanage C. De Silva, M. Iskandar Petra, G. Amal Punchihewa. 187-194 [doi]
- Intelligent Technologies for Edutainment Using Multiple RobotsNaoyuki Kubota, Yuki Wagatsuma, Shinya Ozawa. 195-203 [doi]
- Remote Education Based on Robot EdutainmentAkihiro Yorita, Takuya Hashimoto, Hiroshi Kobayashi, Naoyuki Kubota. 204-213 [doi]
- Not Just "Teaching Robotics" but "Teaching through Robotics"Andrew W. Eliasz. 214-223 [doi]
- A Proposal of Autonomous Robotic Systems Educative EnvironmentJorge Salvador Ierache, Ramón García-Martínez, Armando De Giusti. 224-231 [doi]
- Mechatronics Education: From Paper Design to Product Prototype Using LEGO NXT PartsDaniel M. Lofaro, Tony Truong Giang Le, Paul Oh. 232-239 [doi]
- Fostering Development of Students' Collective and Self-efficacy in Robotics ProjectsDavid Ahlgren, Igor M. Verner. 240-247 [doi]
- From an Idea to a Working Robot Prototype: Distributing Knowledge of Robotics through Science Museum WorkshopsAlexander Polishuk, Igor M. Verner, Ronen Mir. 248-254 [doi]
- Teaching Electronics through Constructing Sensors and Operating RobotsHanoch Taub, Igor M. Verner. 255-261 [doi]
- Learning from Analogies between Robotic World and Natural PhenomenaIgor M. Verner, Dan Cuperman. 262-270 [doi]
- Integrating Robot Design Competitions into the Curriculum and K-12 Outreach ActivitiesRobert Avanzato. 271-278 [doi]
- Teamwork and Robot Competitions in the Undergraduate Program at the Copenhagen University College of EngineeringAnna Friesel. 279-286 [doi]
- Multiagents System with Dynamic Box Change for MiroSotMikulás Hajduk, Marek Sukop. 287-292 [doi]
- Multi Block Localization of Multiple RobotsTaeKyung Yang, Jaehyun Park, JangMyung Lee. 293-299 [doi]
- Soty-Segment: Robust Color Patch Design to Lighting Condition VariationSeung-Hwan Choi, Seungbeom Han, Jong-Hwan Kim 0001. 300-309 [doi]
- Task-Based Flocking Algorithm for Mobile Robot CooperationHongsheng He, Shuzhi Sam Ge, Guofeng Tong. 310-321 [doi]
- Analysis of Spatially Limited Local Communication for Multi-Robot ForagingStephan Krannich, Erik Maehle. 322-331 [doi]
- AMiRESot - A New Robot Soccer League with Autonomous Miniature RobotsUlf Witkowski, Joaquin Sitte, Stefan Herbrechtsmeier, Ulrich Rückert 0001. 332-345 [doi]
- BeBot: A Modular Mobile Miniature Robot Platform Supporting Hardware Reconfiguration and Multi-standard CommunicationStefan Herbrechtsmeier, Ulf Witkowski, Ulrich Rückert 0001. 346-356 [doi]
- System Design for Semi-automatic AndroSotYong Zhu, Zhimin Ren, Yin Xu, Linquan Yang, Zhongwen Luo, Weixian Lv. 357-363 [doi]
- Extended TA Algorithm for Adapting a Situation OntologyOliver Zweigle, Kai Häussermann, Uwe-Philipp Käppeler, Paul Levi. 364-371 [doi]
- An Integer-Coded Chaotic Particle Swarm Optimization for Traveling Salesman ProblemChen Yue, Zhang Yan-duo, Lu Jing, Tian Hui. 372-379 [doi]
- USAR Robot Communication Using ZigBee TechnologyCharles Tsui, Dale A. Carnegie, Qing Wei Pan. 380-390 [doi]