@article {2627, title = {No More Heavy Lifting: Robotic Solutions to the Container Unloading Problem}, journal = {IEEE Robotics and Automation Magazine}, volume = {23}, year = {2016}, month = {08/2016}, chapter = {94}, keywords = {Robotics}, doi = {https://doi.org/10.1109/MRA.2016.2535098}, url = {https://ieeexplore.ieee.org/document/7553531}, author = {T. Stoyanov and N. Vaskeviciusz and C. A. Mueller and T. Fromm and R. Krug and V. Tincani and R. Mojtahedzadeh and S. Kunaschk and R. M. Ernits and D. R. Canelhas and M. Bonilla and S. Schwertfeger and M. Bonini and H. Halfar and K. Pathak and M. Rohde and G Fantoni and A. Bicchi and A. Birk and A. Lilienthal and W. Echelmeyer} } @article {2178, title = {Grasping devices and methods in automated production processes }, journal = {CIRP Annals - Manufacturing Technology}, volume = {63}, year = {2014}, pages = {679-701}, abstract = {
In automated production processes grasping devices and methods play a crucial role in the handling of many parts, components and products. This keynote paper starts with a classification of grasping phases, describes how different principles are adopted at different scales in different applications and continues explaining different releasing strategies and principles. Then the paper classifies the numerous sensors used to monitor the effectiveness of grasping (part presence, exchanged force, stick-slip transitions, etc.). Later the grasping and releasing problems in different fields (from mechanical assembly to disassembly, from aerospace to food industry, from textile to logistics) are discussed. Finally, the most recent research is reviewed in order to introduce the new trends in grasping. They provide an outlook on the future of both grippers and robotic hands in automated production processes.
}, keywords = {Robotics}, doi = {10.1016/j.cirp.2014.05.006}, url = {http://www.sciencedirect.com/science/article/pii/S0007850614001887}, author = {G Fantoni and Santochi, M. and Dini, G. and Tracht, K. and Scholz-Reiter, B. and Fleischer, J. and Kristoffer Lien, T. and Seliger, G. and Reinhart, G. and Franke, J. and N{\o}rgaard Hansen, H. and Verl, A.} } @conference {2179, title = {Gripping device for heavy and deformable materials handling: concept, design, selection and test}, booktitle = {24th CIRP Design Conference}, year = {2014}, address = {Milan, April 14 - 16}, keywords = {Robotics}, author = {Tilli, J. and Brando, A. and G Fantoni} } @conference {2180, title = {Method for supporting the selection of robot grippers}, booktitle = {24th CIRP Design Conference}, year = {2014}, address = {Milan, April 14 - 16}, keywords = {Robotics}, author = {G Fantoni and Capiferri, S. and Tilli, J.} } @conference {2183, title = {Object shaping with a sonotrode}, booktitle = { 25th symposium on Free Form Fabrication}, year = {2014}, keywords = {Robotics}, author = {Tilli, J. and G Fantoni and Currenti, S. and Razionale, A. V.} } @conference {2181, title = {Shaping of foam-like materials through the use of a sonotrode}, booktitle = { International Conference On Innovative Design And Manufacturing}, year = {2014}, address = {Montreal, Quebec, Canada, August 13-15}, keywords = {Robotics}, author = {G Fantoni and Tilli, J. and F. A. W. Belo and Ishak, R.} } @conference {2182, title = {Underwater drilling of foam-like materials and wax using ultrasound technology}, booktitle = {International Conference On Innovative Design And Manufacturing}, year = {2014}, address = {Montreal, Quebec, Canada, August 13-15}, keywords = {Robotics}, author = {Tilli, J. and G Fantoni and Currenti, S.} } @conference {2037, title = {Velvet Fingers: Grasp Planning and Execution for an Underactuated Gripper with Active Surfaces}, booktitle = {2014 IEEE International Conference on Robotics and Automation}, year = {2014}, pages = {3669 - 3675}, publisher = {IEEE}, organization = {IEEE}, address = {Hong Kong, May 31 2014-June 7 2014}, abstract = {In this work we tackle the problem of planning grasps for an underactuated gripper which enable it to retrieve target objects from a cluttered environment. Furthermore, we investigate how additional manipulation capabilities of the gripping device, provided by active surfaces on the inside of the fingers, can lead to performance improvement in the grasp execution process. To this end, we employ a simple strategy, in which the target object is {\textquoteleft}pulled-in{\textquoteright} towards the palm during grasping which results in firm enveloping grasps. We show the effectiveness of the suggested methods by means of experiments conducted in a real-world scenario.
}, keywords = {Haptics, Robotics}, doi = {10.1109/ICRA.2014.6907390 }, url = {http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=\&arnumber=6907390}, author = {R. Krug and T. Stoyanov and M. Bonilla and V. Tincani and N. Vaskeviciusz and G Fantoni and A. Birkz and A. Lilienthal and A. Bicchi} } @conference {1667, title = {Controlling the active surfaces of the Velvet Fingers: sticky to slippy fingers}, booktitle = {IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS 2013}, year = {2013}, month = {November 3-7}, pages = {5494 - 5499}, address = {Tokyo, Japan}, abstract = {Industrial grippers are often used for grasping, while in-hand re-orientation and positioning are dealt with by other means. Contact surface engineering has been recently proposed as a possible mean to introduce dexterity in simple grippers, as in the Velvet Fingers smart gripper, a novel concept of end-effector combining simple under-actuated mechanics and high manipulation possibilities, thanks to conveyors which are built in the finger pads. This paper undergoes the modeling and control of the active conveyors of the Velvet Fingers gripper which are rendered able to emulate different levels of friction and to apply tangential thrusts to the contacted objects. Through the paper particular attention is dedicated to the mechanical implementation, sense drive and control electronics of the device. The capabilities of the prototype are showed in some grasping and manipulation experiments.
}, keywords = {Robotics}, doi = {10.1109/IROS.2013.6697152}, url = {http://ieeexplore.ieee.org/xpl/login.jsp?tp=\&arnumber=6697152\&url=http\%3A\%2F\%2Fieeexplore.ieee.org\%2Fxpls\%2Fabs_all.jsp\%3Farnumber\%3D6697152}, author = {V. Tincani and G. Grioli and M. G. Catalano and M. Bonilla and M. Garabini and G Fantoni and A. Bicchi} } @conference {1438, title = {Implementation and Control of the Velvet Fingers: a Dexterous Gripper with Active Surfaces}, booktitle = {IEEE International Conference on Robotics and Automation (ICRA2013)}, year = {2013}, pages = {2744 - 2750}, keywords = {Haptics, Robotics}, url = {10.1109/ICRA.2013.6630955 }, author = {V. Tincani and G. Grioli and M. G. Catalano and M. Garabini and S. Grechi and G Fantoni and A. Bicchi} } @conference {1243, title = { Velvet fingers: A dexterous gripper with active surfaces}, booktitle = {International Conference of Intelligent Robots and Systems - IROS 2012}, year = {2012}, month = {October 7 - 12}, pages = {1257 - 1263 }, address = {Vilamoura, Algarve, Portugal}, keywords = {Robotics}, author = {V. Tincani and M. G. Catalano and E. Farnioli and M. Garabini and G. Grioli and G Fantoni and A. Bicchi} } @article {1276, title = {Contenitore per alimenti caldi e simili}, year = {2010}, keywords = {Bioengineering}, issn = {PI2009A000145}, author = {M. Bonini and R. Casati and M. Falorni and G Fantoni and M. Massei and D. Mazzei and M. Mazzuoli and G. Renucci} }