| The Tournament Results of the Different Leagues of RoboCup-2001 | p. 1 |
| Champion Teams | |
| Global Planning from Local Eyeshot: An Implementation of Observation-Based Plan Coordination in RoboCup Simulation Games | p. 12 |
| LuckyStar II | p. 22 |
| CS Freiburg 2001 | p. 26 |
| The UNSW RoboCup 2001 Sony Legged Robot League Team | p. 39 |
| YabAI: The First Rescue Simulation League Champion | p. 49 |
| Challenge Award Finalists | |
| A Control Method for Humanoid Biped Walking with Limited Torque | p. 60 |
| A Fast Vision System for Middle Size Robots in RoboCup | p. 71 |
| Designing an Omnidirectional Vision System for a Goalkeeper Robot | p. 81 |
| RoboBase: An Extensible Framework Supporting Immediate Remote Access to Logfiles | p. 92 |
| Agent Based Approach in Disaster Rescue Simulation: From Test-Bed of Multiagent System to Practical Application | p. 102 |
| Technical Papers | |
| Full Papers | |
| Planning and Executing Joint Navigation Tasks in Autonomous Robot Soccer | p. 112 |
| A Case Study of How Mobile Robot Competitions Promote Future Research | p. 123 |
| CS Freiburg: Global View by Cooperative Sensing | p. 133 |
| Multi-sensor Navigation for Soccer Robots | p. 144 |
| Visual Attention Control by Sensor Space Segmentation for a Small Quadruped Robot Based on Information Criterion | p. 154 |
| Language Design for Rescue Agents | p. 164 |
| Specifying Rational Agents with Statecharts and Utility Functions | p. 173 |
| COACH UNILANG - A Standard Language for Coaching a (Robo)Soccer Team | p. 183 |
| Cooperative Probabilistic State Estimation for Vision-Based Autonomous Soccer Robots | p. 193 |
| High-Speed Obstacle Avoidance and Self-Localization for Mobile Robots Based on Omni-directional Imaging of Floor Region | p. 204 |
| Keepaway Soccer: A Machine Learning Testbed | p. 214 |
| Strategy Learning for a Team in Adversary Environments | p. 224 |
| Evolutionary Behavior Selection with Activation/Termination Constraints | p. 234 |
| Poster Descriptions | |
| Stereo Obstacle-Detection Method for a Hybrid Omni-directional/Pin-Hole Stereo Vision System | p. 244 |
| Self-Localisation Revisited | p. 251 |
| Yue-Fei: Object Orientation and ID without Additional Markers | p. 257 |
| Efficient Image Processing for Increased Resolution and Color Correctness of CMOS Image Sensors | p. 263 |
| Comparison of Several Machine Learning Techniques in Pursuit-EvasionGames | p. 269 |
| A Simple and Accurate Camera Calibration for the F180 RoboCup League | p. 275 |
| Implementing Computer Vision Algorithms in Hardware: An FPGA/VHDL-Based Vision System for a Mobile Robot | p. 281 |
| A Framework for Robust Sensing in Multi-agent Systems | p. 287 |
| Fast Parametric Transitions for Smooth Quadrupedal Motion | p. 293 |
| Biter: A Platform for the Teaching and Research of Multiagent Systems' Design Using Robocup | p. 299 |
| ViperRoos: Developing a Low Cost Local Vision Team for the Small Size League | p. 305 |
| Design and Implementation of Cognitive Soccer Robots | p. 312 |
| Genetic Programming for Robot Soccer | p. 319 |
| "As Time Goes By" - Using Time Series Based Decision Tree Induction to Analyze the Behaviour of Opponent Players | p. 325 |
| KENSEI-chan: Design of a Humanoid for Running | p. 331 |
| Supervision of Robot Control | p. 337 |
| Walkie Talkie MIKE | p. 343 |
| Quadruped Robot Navigation Considering the Observational Cost | p. 350 |
| Evolving Fuzzy Logic Controllers for Sony Legged Robots | p. 356 |
| A Method for Incorporation of New Evidence to Improve World State Estimation | p. 362 |
| Omnidirectional Locomotion for Quadruped Robots | p. 368 |
| An Omnidirectional Vision System That Finds and Tracks Color Edges and Blobs | p. 374 |
| A Generalised Approach to Position Selection for Simulated Soccer Agents | p. 380 |
| On the Motion Control of a Nonholonomic Soccer Playing Robot | p. 387 |
| Evaluation of the Performance of CS Freiburg 1999 and CS Freiburg 2000 | p. 393 |
| Using the Electric Field Approach in the RoboCup Domain | p. 399 |
| A Two-Tiered Approach to Self-Localization | p. 405 |
| Miro - Middleware for Cooperative Robotics | p. 411 |
| Building User Models for RoboCup-Rescue Visualization | p. 417 |
| A Modular Hierarchical Behavior-Based Architecture | p. 423 |
| Localization and Obstacles Detection Using Omni-directional Vertical Stereo Vision | |
| Karlsruhe Brainstormers - A Reinforcement Learning Approach to Robotic Soccer | p. 435 |
| Interpretation of Spatio-temporal Relations in Real-Time and Dynamic Environments | p. 441 |
| Stochastic Gradient Descent Localisation in Quadruped Robots | p. 447 |
| Recognizing Probabilistic Opponent Movement Models | p. 453 |
| Design and Implementation of a Soccer Robot with Modularized Control Circuits | p. 459 |
| Cooperation-Based Behavior Design | p. 465 |
| Multi-platform Soccer Robot Development System | p. 471 |
| On-line Navigation of Mobile Robot Among Moving Obstacles Using Ultrasonic Sensors | |
| Team Descriptions | |
| Simulation League | |
| 11 monkeys 3 Team Description | p. 484 |
| 3T Architecture for the SBCe Simulator Team | p. 487 |
| Architecture of TsinghuAeolus | p. 491 |
| ATTUnited-2001: Using Heterogeneous Players | p. 495 |
| Behavior Combination and Swarm Programming | p. 499 |
| ChaMeleons-01 Team Description | p. 503 |
| Cyberoos'2001: "Deep Behaviour Projection" Agent Architecture | p. 507 |
| Essex Wizards 2001 Team Description | p. 511 |
| FC Portugal 2001 Team Description: Flexible Teamwork and Configurable Strategy | p. 515 |
| Helli-Respina 2001 Team Description Paper | p. 519 |
| Lazarus Team Description | p. 522 |
| RoboLog Koblenz 2001 | p. 526 |
| Team Description Mainz Rolling Brains 2001 | p. 531 |
| Team Description of NITStones2001 | p. 535 |
| Team YowAI-2001 Description | p. 539 |
| The Dirty Dozen Team and Coach Description | p. 543 |
| UQ CrocaRoos: An Initial Entry to the Simulation League | p. 547 |
| UvA Trilearn 2001 Team Description | p. 551 |
| Zeng01 Team Description: Formation Decision Method Using Game Theory | p. 555 |
| Small-Size Robot (F180) League | |
| 4 Stooges | p. 559 |
| 5dpo Team Description | p. 563 |
| CM-Dragons'01 - Vision-Based Motion Tracking and Heteregenous Robots | p. 567 |
| FU-Fighters 2001 (Global Vision) | p. 571 |
| FU-Fighters Omni 2001 (Local Vision) | p. 575 |
| Owaribito - A Team Description | p. 579 |
| RoboCup 2001 (F180) Team Description: RoboSix UPMC-CFA (France) | p. 583 |
| Rogi Team Description | p. 587 |
| Roobots | p. 591 |
| Sharif CESR Small Size Robocup Team | p. 595 |
| The Team Description of the Team OMNI | p. 599 |
| UQ RoboRoos: Achieving Power and Agility in a Small Size Robot | p. 603 |
| ViperRoos 2001 | p. 607 |
| Middle-Size Robot (F2000) League | |
| AGILO RoboCuppers 2001: Utility- and Plan-Based Action Selection Based on Probabilistically Estimated Game Situations | p. 611 |
| Artisti Veneti: An Heterogeneous Robot Team for the 2001 Middle-Size League | p. 616 |
| Basic Requirements for a Teamwork in Middle Size RoboCup | p. 621 |
| Clockwork Orange: The Dutch RoboSoccer Team | p. 627 |
| CMU Hammerheads 2001 Team Description | p. 631 |
| CoPS-Team Description | p. 635 |
| Fun2Mas: The Milan Robocup Team | p. 639 |
| Fusion | p. 643 |
| GMD Robots | p. 648 |
| ISocRob 2001 Team Description | p. 653 |
| MINHO Robot Football Team for 2001 | p. 657 |
| Osaka University "Trackies 2001" | p. 661 |
| ROBOSIX UPMC-CFA : RoboCup Team Description | p. 665 |
| S.P.Q.R. Wheeled Team | p. 669 |
| Team Description Eigen | p. 673 |
| The Ulm Sparrows 2001 | p. 677 |
| Sony Legged Robot League | |
| ASURA: Kyushu United Team in the Four Legged Robot League | p. 681 |
| BabyTigers 2001: Osaka Legged Robot Team | p. 685 |
| Cerberus 2001 Team Description | p. 689 |
| CM-Pack'01: Fast Legged Robot Walking, Robust Localization, and TeamBehaviors | p. 693 |
| Essex Rovers 2001 Team Description | p. 697 |
| French LRP Team's Description | p. 701 |
| GermanTeam 2001 | p. 705 |
| McGill Reddogs | p. 709 |
| RoboMutts++ | p. 713 |
| S.P.Q.R. Legged Team | p. 717 |
| Team Description: UW Huskies-01 | p. 721 |
| Team Sweden | p. 725 |
| The Team Description of ARAIBO | p. 730 |
| The University of Pennsylvania RoboCup Legged Soccer Team | p. 734 |
| Wright Eagle 2001 - Sony Legged Robot Team | p. 739 |
| Rescue Simulation League | |
| A Design of Agents for the Disaster Simulator on RoboCup-Rescue | p. 743 |
| An Approach to Multi-agent Communication Used in RobocupRescue | p. 747 |
| Task Allocation in the RoboCup Rescue Simulation Domain: A Short Note | p. 751 |
| Team Description for RMIT-on-Fire: Robocup Rescue Simulation Team 2001 | p. 755 |
| Author Index | p. 759 |
| Table of Contents provided by Publisher. All Rights Reserved. |
