Перемещение предметов перебросом — это перспективный способ робототехнической транспортировки деталей в гибких производственных системах. В данном обзоре рассматриваются задачи, связанные с реализацией этого подхода. В кратком введении в современные системы транспортировки обсуждаются недостатки традиционного конвейерной подхода. Дается обзор исследований по транспортировке путем броска и захвата (Transport-by-Throwing, TbT). Обсуждается важный аспект перемещения перебросом, связанный с прогнозированием траектории летящего тела. Рассматриваются соответствующие задачи и подходы к их решению.

робототехническая система; гибкая производственная система; транспортировка материальных объектов; переброс; захват; прогнозирование траектории

Sule, D. R.: Manufacturing Facilities: location, planning, and design. Third edition. CRC Press, Boca Raton, 2009.

Frank, H., Wellerdick-Wojtasik, N., Hagebeuker, B., Novak, G., Mahlknecht, S.: Throwing Objects: a bio-inspired Approach for the Transportation of Parts, IEEE International Conference on Robotics and Biomimetics, Kunming, China, pp. 91 to 96, December 2006.

Pongratz, M., Pollhammer, K., Szep, A.: KOROS Initiative: Automatized Throwing and Cathcing for Material Transportation, ISoLA 2011 Workshops, pp. 136 to 143, 2012.

Frank, H., Barteit, D., Meyer, M., Mittnacht, A., Novak, G., Mahlknecht, S.: Optimized Control Methods for Capturing Flying Objects with a Cartesian Robot, IEEE Conference on Robotics, Automation and Mechatronics, Chengdu, China, pp. 160 to 165, September 2008.

Frank, H.: Design and Simulation of a Numerical Controlled Throwing Device, Second Asia International Conference on Modeling and Simulation AICMS 08, Kuala Lumpur, Malaysia, pp. 777 to 782, May 2008.

Barteit, D., Frank, H., Kupzog, F.: Accurate prediction of interception positions for catching thrown objects in production systems, IEEE International Conference on Industrial Informatics. Daejeon, Korea, pp. 893 to 898, July 2008.

Pongratz, M., Pollhammer, K., Szep, A.: KOROS Initiative: Automatized Throwing and Catching for Material Transportation, ISoLA 2011 Workshops, pp. 136 to 143, 2012.

Frank, T., Janoske, U., Schroedter, C.: Detection of Position and Orientation of Flying Cylinder Shaped Objects by Distance Sensors, IEEE International Conference on Mechatronics, Istanbul, Turkey, pp. 1623 to 1629, April 2011.

Frank, T., Janoske, U., Mittnacht, A., Schroedter, C.: Automated Throwing and Capturing of Cylinder-Shaped Objects, IEEE International Conference on Robotic and Automation, Saint Paul, Minnesota, USA, pp. 5264 to 5270, May 2012.

Frank, H.: Design and Simulation of a Numerical Controlled Throwing Device, Second Asia International Conference on Modeling and Simulation AICMS 08, Kuala Lumpur, Malaysia, pp. 777 to 782, May 2008.

Miyashita, H., Yamavaki, T., Yashima, M.: Learning Control Method for Throwing an Object More Accurately with One Degree of Freedom Robot, IEEE/ASME International Conference on Advanced Intelligent Mechatronics, Montréal, Canada, pp. 397 to 402, July 2010.

Kober, J., Peters, J.: Learning Elementary Movements Jointly with a Higher Level Task, IEEE/RSJ International Conference on Intelligent Robots and Systems, San Francisco, USA, pp. 338 to 343, September 2011.

Nemec, B., Vuga, R., Ude, A.: Exploiting Previous Experience to Constrain Robot Sensorimotor Learning, IEEE-RAS International Conference on Humanoid Robots, Bled, Slovenia, pp. 727 to 732, October 2011.

Zhang, Y., Luo, J., Hauser, K.: Sampling-based Motion Planning with Dynamic Intermediate State Objectives: Application to Throwing, IEEE International Conference on Robotics and Automation, Saint Paul, Minnesota, USA, pp. 2551 to 2556, May 2012.

Kang, H., Park, F. C.: Humanoid Motion Optimization via Nonlinear Dimension Reduction, IEEE International Conference on Robotics and Automation. River Centre, Saint Paul, Minnesota, USA, pp. 1444 to 1449, May 2012.

Pongratz, M., Mironov, K. V., Bauer F.: A soft-catching strategy for transport by throwing and catching, Vestnik UGATU, Vol. 17, No. 6(59), pp. 28 to 32, December 2013.

Kajikawa, S., Saito, M., Ohba, K., Inooka, H.: Analysis of Human Arm Movement for Catching a Moving Object, IEEE International Conference on Systems, Man and Cybernetics, Tokyo, Japan, Vol. 2, pp. 698 to 703, October 1999.

Barteit, D., Frank, H., Pongratz, M., Kupzog, F.: Measuring the Intersection of a Thrown Object with a Vertical Plane, IEEE International Conference on Industrial Informatics, Cardiff, UK, pp. 680 to 685, June 2009.

Pongratz, M.: Object Touchdown Position Prediction, Diploma Thesis, Faculty of Electrical Engineering, Vienna University of Technology, September 2009.

Pongratz, M., Pollhammer, K., Szep, A.: KOROS Initiative: Automatized Throwing and Cathcing for Material Transportation, ISoLA 2011 Workshops, pp. 136 to 143, 2012.

Cooke, A. J.: An Overview of Tennis Ball Aerodynamics, Sports Engineering, No. 3 2000, pp.123 to 129, February 2000.

Ishii, I., Nakabo, Y., Ishikawa, M.: Target Tracking Algorithm for lms Visual Feedback System Using Massively Parallel Processing, IEEE International Conference on Robotics and Automation, Minneapolis, Minnesota, USA, pp. 2309 to 2314, April 1996.

Namiki, A., Nakabo, Y., Ishii, I., Ishikawa, M.: High Speed Grasping Using Visual and Force Feedback, IEEE International Conference on Robotics & Automation, Detroit, Michigan, USA, pp. 3195 to 3200, May 1999.

Imai, Y., Namiki, A., Hashimoto, K., Ishikawa, M.: Dynamic Active Catching Using a Highspeed Multifingered Hand and a High-speed Vision System, IEEE International Conference on Robotics & Automation, New Orlean, USA, pp. 1849 to 1854, April 2004.

Furukawa, N., Namiki, A., Taku, S., Ishikawa, M.: Dynamic Regrasping Using a High-speed Multifingered Hand and a High-speed Vision System, IEEE International Conference on Robotics and Automation, Orlando, Florida, USA, pp. 181 to 187, May 2006.

Hove, B., Slotine, J.-J.: Experiments in Robotic Catching, American Control Conference, Boston, USA, pp. 381 to 386, June 1991.

Frese, U., Baeuml, B., Haidacher, S., Schreiber, G., Schaefer, I., Haehnle, M., Hirzinger, G.: On-the-Shelf Vision for a Robotic Ball Catcher, IEEE/RSJ International Conference on Intelligent Robots and Systems, Maui, Hawaii, USA, pp. 591 to 596, November 2001.

Birbach, O., Frese, U., Baeuml, B.: Realtime Perception for Catching a Flying Ball with a Mobile Humanoid, IEEE International Conference on Robotics and Automation, Shanghai, China, pp. 5955 to 5962, October 2010.

Baeuml, B., Schmidt, F., Wimboeck, T., Birbach, O., Dietrich, A., Fuchs, M., Friedl, W., Frese, U., Borst, C., Grebenstein, M., Eiberger, O., Hirzinger, G.: Catching Flying Balls and Preparing Coffee: Humanoid Rollin’Justin Performs Dynamic and Sensitive Tasks, IEEE International Conference on Robotics and Automation, Shanghai, China, pp. 3443 to 3444, May 2011.

Namiki, A., Ishikawa, M.: Robotic Catching Using a Direct Mapping from Visual Information to Motor Command, IEEE International Conference on Robotics &Automation, Taipei, Taiwan, pp. 2400 to 2405, September 2003.

Birbach, O., Frese, U., Baeuml, B.: Realtime Perception for Catching a Flying Ball with a Mobile Humanoid, IEEE International Conference on Robotics and Automation, Shanghai, China, pp. 5955 to 5962, October 2010.

Kim, S., Billard, A.: Estimating the non-linear dynamics of free-flying objects, Robotics and Autonomous Systems, Vol. 60, pp. 1108-1122, June 2012.

Karman, T. von: Aerodynamics. Selected Topics in the Light of Their Historical Development, Cornell University Press, Ithaca, New York, March 1954.

Herrejon, R., Kagami, S., Hashimoto, K.: Position Based Visual Servoing for Catching a 3-D Flying Object Using RLS Trajectory Estimation from a Monocular Image Sequence, IEEE International Conference on Robotics and Biomimetics, Guilin, China, pp. 665 to 670, December 2009.

Baeuml, B., Wimboeck, T., Hirzinger, G.: Kinematically Optimal Catching a Flying Ball with a Hand-Arm-System, IEEE/RSJ International Conference on Intelligent Robots and Systems, Taipei, Taiwan, pp. 2592 to 2599, October 2010.

Gillies, M. F. P., Dodgson, N. A.: Ball Catching: An Example of Psychologically-based Behavioural Animation, Eurographics UK 17th Annual Conference, Cambridge, UK, pp. 229 to 236, April 1999.

Mao, A.: Ball Catching: The Inspiration to Power System Stability Control, A Fast Algorithm for the Generator’s Disturbed Trajectory Prediction, IEEE Power Engineering Society General Meeting, Tampa, Florida, USA, pp. 1 to 7, June 2007.

Akhter, N: Visual Tracking of Mechanically Thrown Objects with Planar Surfaces, Dissertation, Faculty of Electrical Engineering, Vienna University of Technology, September 2011.

Achenbach, E.: Experiments on the flow past spheres at very high Reynolds number, Journal of Fluid Mechanics, No. 54, pp. 565 to 575, August 1972.

Stepanek, A., The aerodynamics of tennis balls – the topspin lob, American Journal of Physics, No. 56, pp.138 to 142, February 1988.

Chadwick, S. G., Haake, S. J.: The drag coefficient of tennis balls, International Conference on the Engineering of Sport, Sydney, Australia, pp. 169 to 176, June 2000.

Mehta, R., Alam, F., Subic, A.: Review of tennis ball aerodynamics, Sports technology review, John Wiley and Sons Asia Pte Ltd, 2008, No. 1, pp. 7 to 16, January 2008.