Call for papers

Submission

» robocupsymposium2016@easychair.org

We solicit submissions of papers reporting high-quality, original research with relevance to the areas mentioned below. Researchers in these areas, even if not actively participating in RoboCup teams, are urged to submit their work. We welcome both papers describing real-world research and papers reporting theoretical results, as well as combinations thereof. We also encourage the submission of high-quality overview articles for any field related to the general scope of RoboCup.

The proceedings of the RoboCup International Symposium are published and archived within the Springer-Verlag Lecture Notes in Artificial Intelligence (LNAI) series. Submitted papers are limited to 12 pages formatted according to the LNAI requirements (See: http://www.springer.com/series/1244) and must be electronically submitted through the symposium website

All contributions are peer-reviewed by a number of reviewers, and evaluated by members of the senior program committee.

Developement Track

To encourage open-source release of hardware and software components, a special track on open-source development will be part of the 2016 RoboCup International Symposium.

Contributions to this track are limited to eight pages, formatted according to LNAI requirements.

Contributions should include evidence of impact of the released component on the RoboCup community. Review of these contributions will be based on technical contribution and benefit to the RoboCup community.

Symposium Co-Chairs

• Sven Behnke, University of Bonn, Bonn, Germany

• Daniel Lee, University of Pennsylvania, Philadelphia, USA

• Sanem Sariel, Istanbul Technical University, Istanbul, Turkey

• Raymond Sheh, Curtin University, Perth, Australia

Areas of interest

Robot Hardware and Software

• mobile robotics
• humanoid robotics
• sensors and actuators
• embedded and mobile devices
• robot construction and new materials
• robotic system integration
• robot software architectures
• robot programming environments and languages
• real-time and concurrent programming
• robot simulators

Perception and Action

• 3D perception
• distributed sensor integration
• sensor noise filtering
• real-time image processing and pattern recognition
• motion and sensor models
• sensory-motor control
• robot kinematics and dynamics
• high-dimensional motion control

Robot Cognition and Learning

• world modeling and knowledge representation
• learning from demonstration and imitation
• localization, navigation, and mapping
• planning and reasoning
• decision making under uncertainty
• reinforcement learning
• complex motor skill acquisition
• motion and sensor model learning

Multi-Robot Systems

• team coordination methods
• communication protocols
• learning and adaptive systems
• teamwork and heterogeneous agents
• dynamic resource allocation
• adjustable autonomy

Human-Robot Interaction

• human-robot interfaces
• speech synthesis and natural language generation
• visualization
• emotion recognition
• emotion recognition
• understanding human intent
• affect detection and synthesis
• robot response to external disturbances
• safety and dependability

Education and Edutainment

• robotics and artificial intelligence education
• educational robotics
• robot kits and programming tools
• robotic entertainment

Applications and Benchmarking

• search and rescue robots
• robotic surveillance
• service and social robots
• robots at home
• performance metrics