Scilingo “The Role of Contact Area Spread Rate in Haptic discrimination of Softness”, In Proc

(1)

Bibliography

[1] G. Ambrosi, A. Bicchi, D. De Rossi, and P. Scilingo “The Role of Contact Area Spread Rate in Haptic discrimination of Softness”, In Proc. of IEEE International Conference on Robotics and Automation, pp. 305-310, Detroit, Michigan, may 1999.

[2] Aristotle, De partibus animalium, IV, 10 687 a 7.

[3] A. Barbagli, K. Salisbury; M. Bergamasco, “Simulating human fingers: a soft finger proxy model and algorithm”, In Proc. 12th Int. Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems, 2004.

[4] Y. Bar-Cohen, C. Mavroidis, M. Bouzit, B. Dolgin, D. L. Harm, G. E. Kopchok, R. White, “Virtual reality robotic telesurgery simulations using MEMICA hap- tic system”, In Proc. of SPIE’s 8th Annual International Symposium on Smart Structures and Materials, 5-8 March, Newport, CA. Paper No. 4329-47 SPIE, 2001.

[5] C.D. Berg and P.E. Wellstead, “Journal of Intelligent Material Systems and Structures”, Vol. 9, No. 8, pp. 592-600, 1999.

[6] A. Bicchi “Hands for Dextrous Manipulation and Robust Grasping: a Dif- ficult Road Towards Simplicity”, IEEE Trans. on Robotics and Automation, 16(6):652-662, December 2000.

(2)

[7] A. Bicchi, G. Canepa, D. De Rossi, P. Iacconi, E. P. Scilingo: “A Sensorized Minimally Invasive Surgery Tool for detecting Tissutal Elastic Properties”, Pro- ceedings of the 1996 IEEE International Conference on Robotics and Automa- tion, pp. 884-888, Minneapolis, Minnesota, April 1996.

[8] A. Bicchi, D. De Rossi, and E. P. Scilingo, “The Role of Contact Area Spread Rate in Haptic Discrimination of Softness”, In IEEE Trans. on Robotics and Automation, 16(5):496-504, October 2000.

[9] A. Bicchi, E. P. Scilingo, N. Sgambelluri, D. De Rossi, “Haptic Interfaces based on magnetorheological fluid”, In Proceedings 2th International Conference Eu- rohaptics 2002, pp.6-11, Edinburgh, Scotland, July 2002.

[10] A. Bicchi, E.P. Scilingo, D. Dente, and N. Sgambelluri, “Tactile Flow and Haptic Discrimination of Softness”, In F. Barbagli, D. Prattichizzo, and K.

Salisbury, editors, Multi-point Interaction with Real and Virtual Objects, number 18 in STAR - Springer Tracts in Advanced Robotics, pages 165-176. Springer Verlag, 2005.

[11] G. Bossis and E. Lemaire, “Yield Stresses in Magnetic Suspensions,” Journal of Rheology, Vol. 35(7), pp. 1345-1354, 1991.

[12] G. Burdea, and P. Coiffet, Virtual Reality Technology, John Wiley and Sons:

New York, NY.

[13] S. Bondi, S. Zannella, A. Frisoni, “Superconduttivit: la tecnologia del futuro viene dal freddo”, Edizioni CUSL, 1993.

[14] C.A Borghi, M. Fabbri, “A global optimization method for the solution of a magnetic field synthesis problem”, IEEE Trans. on Magn., v. 32, May 1996, pp.

1897-1904.

[15] H.BB¨ose, G.J. Monkman, H. Freimuth, H. Ermert, M. Baumann, S. Egersdrfer, and O. T. Bruhns, “ER Fluid Based Haptic System for Virtual Reality”, 8th

(3)

Int. Conference on New Actuators & 2nd Int. Exhibition on Smart Actuators and Drive Systems , pp.351-354, 10-12 June 2002, Bremen, Germany.

[16] G. Bossis and E. Lemaire, “Yield Stresses in Magnetic Suspensions”, Journal of Rheology, 1991, Vol 35(7), pp. 1345-1354.

[17] N. Brooks, T. Baldwin, “Methodology for universal synthesis of magnetic de- signs based on field specifications”, In Proc. of the Thirty-Fourth Southeastern Symposium on System Theory, pp. 113-117, 2002.

[18] G. Burdea and P. Coiffet,“Virtual Reality Technology”. John Wiley and Sons:

New York, NY, 1994.

[19] J.D. Carlson, “The Promise of Controllable Fluids” , Proc. of Actuator 94 (H. Borgmann and K. Lenz, Eds.), AXON Technologies Consult GmbH, pp.

266-270, 1994.

[20] J.D. Carlson, D.N. Catanzarite and K.A. St Clair,“Commercial Magneto- Rheological Fluid Device”, Proceedings 5th Int. Conf. on ER Fluids, MR Suspen- sions and Associated Technology, W. Bullough, Ed., World Scientific, Singapore, pp.20-28, 1996.

[21] J.D. Carlson, and K.D. Weiss, “A Growing Attraction to Magnetic Fluids”, Machine Design, August, pp. 61-64, 1994.

[22] J.D. Carlson, “Portable hand and wrist rehabilitation device”, US Patent No., 6117093.

[23] S.B. Choi, Y. T. Choi, D. W. Park and H. G. Lee, “Smart Structures and Integrated Systems”, In Proc. of SPIE - The International Society for Optical Engineering, Smart Structures and Materials 1998, Vol. 3329, pp. 439-450, San Diego, CA, USA, 1998.

(4)

[24] Y.T. Choi and N. Wereley, In 8th International Conference on Electrorheolog- ical (ER) Fluids and Magneto-rheological (MR) Suspensions, July 9-13, Nice, France.2001,

[25] J.P. Coulter, D. L. Don, M. Yalcintas and P. J. Biermann, P. J., 1993a, ASME,

“Aerospace Division: Adaptive Structures and Material Systems”, Vol. 35, pp.

287-296.

[26] A. Cuschieri and G. Berci, “Laparoscopic Biliar Surgery”, Blackwell Scientific Pubblications, Oxford, GB, 1993.

[27] Delphi Automotive,

http://www.delphiauto.com/pdf/chassispdfs/ma gneride.pdf, 2002.

[28] J.C. Falmagne “Psychophysical Measurement and Theory”, In Handbook of Perception and Human Performance, K. R. Roff, L. Kaufman, and J. P. Thomas, USA, eds., Wiley Interscience Publ., 1986, Vol. I, chapt. 1, pp 1-66.

[29] V.A. Fedorov , “Features of Experimental Research into the Characteristics of Magnetorheological and Electrorheological Shock Absorbers on Special Test Stands”, In Magnetohydrodynamics, 1992,Vol. 28, No. 1, p. 96.

[30] J. Fricke, and H. Baehring, “Design of a tactile graphic I/O tablet and its integration into a personal computer system for blind users”, Electronic proceedings of the 1994 EASI High Resolution Tactile Graphics Conference (http://www.rit.edu/ easi/easisem/easisemtactile.html).

[31] E. P. Furlani, “Permanent Magnet and Electromechanical Devices”, Academic Press, 2001.

[32] GE Medical Systems (ed), “MR Safety and MR Compatibility: Test Guidelines for Signa SPTM Version 1.0”,

http://www.ge.com/medical/mr/iomri/safety.htm, October 1997.

(5)

[33] S. Gen¸c , “Synthesis and properties of magnetorheological (MR) fluids”, PhD Thesis, University of Pittsburgh 2002.

[34] General Motors Corporation, http://www.cadillac.com/cadillacjsp/models/seville/ridecontrol.jsp

[35] H. Gong and M. K. Lim, “J. Intelligent Material Systems and Structures”, Vol.

7, pp. 89-96.

[36] Y. Grasselli, G. Bossis, and E. Lemaire, “Field-Induced Structure in Magneto- rheological Suspensions”, Progress in Colloid & Polymer Science, 1993,Vol. 93, p. 175.

[37] Y. Guozhi, M. Guang and F. Tong, “Machine Vibration”, 1995, Vol. 4, pp.

232-240.

[38] J. Jian-Ming, “Electromagnetics in Magnetic Resonance Imaging”, In IEEE Antennas and Propagation Magazine, v. 40, n. 6, December 1998, pp. 7-22.

[39] K.H. Hagele, M. Engelsdorf, M. Mettner, M. Panther, N. Q. Tran, and E.

Rubel, “Proceedings Society of Automotive Engineers”, Conference on the Promise of New Technology in the Automotive Industry, 1990 Vol. II, Torino, Italy, pp. 37-46.

[40] http://femm.berlios.de/

[41] http://www.glossary.oilfield.slb.com/

[42] http://history.hanover.edu/texts/presoc/anaxagor.htm

[43] http://www.lord.com

[44] http://etext.virginia.edu/toc/modeng/public/AriPaan.html

[45] http://www.voros.gr

(6)

[46] A.M. Kabakov and A. I. Pabat, “Development and Investigation of Control Systems of Magnetorheological Damper”, Soviet Electrical Engineering 1990, Vol. 61, No. 4, p. 55.

[47] B.E. Kashevskii,“Relaxation of Viscous Stresses in Magnetorheological Suspen- sion”, Magnetohydrodynamics, 1990, Vol. 26, No. 2, p. 140.

[48] R.A. Klatzky, S. Lederman, and C. Reed, “There’s more to touch than meets the eye: the salience of object attributes for haptics with and without vision”, Journal of Experimental Psychology: General, 1987, 116, 356-369.

[49] W.I. Kordonsky, (1993a), “Elements and Devices Based on Magnetorheological Effect”, Journal of Intelligent Material Systems and Structures, 1993a, Vol. 4, No. 1, p. 65.

[50] W.I. Kordonsky (1993b), “Magnetorheological Effect as a Base of New Devices and Technologies”, Journal of Magnetism and Magnetic Materials, 1993b, Vol.

122, No. 1 / 3, p. 395.

[51] W. Kordonsky, O. Ashour, and C.A. Rogers, “Magnetorheological Fluids: Ma- terials, Characterization, and Devices”. Journal of Intelligent Material Systems and Structures, 1996. 7: p. 123-130.

[52] D. Lahaye, “Efficient Algorithms for Inverse Magnetic Field Problems ”.

ERCIM News No. 56, January 2004.

[53] S.J. Lederman, and R. L. Klatzky, “Hand movements: a window into haptic object recognition”, Cognitive Psychology, 1987, 19:342-368.

[54] E. Lemaire, Y. Grasselli, and G. Bossis, “Field Induced Structure in Magneto and Electro-Rheological Fluids” Journal de Physique, Vol. 2, No. 3, p. 359.

[55] Lennox J., “The Place of Mankind in Aristotles Zoology”, G.PHILOSOPHICAL TOPICS VOL. 27, NO. 1, SPRING 1999.

(7)

[56] Z. Lou, R. D. Ervin, F. E. Filisko, and C. B. Winkler, “Aerospace Engineering (Warrendale, Pennsylvania)”, 1993, Vol. 13, No. 6, p 17-22.

[57] A. Lukharinen and K. Kaski,“J. Physics D: Applied“ Physics, 1996, Vol. 29, pp. 2729-2732.

[58] M. de Pascale, G. de Pascale, D. Prattichizzo, and F. Barbagli, “A new method for haptic gpu rendering of deformable objects.”, In Proc. of EuroHaptics 2004, Munich, Germany, 5-7 June 2004.

[59] C.W. Macosko, “Rheology: Principles, Measurements, and Applications”, 1994, New York: VCH Publishers, Inc.

[60] MEGA, “User Manual”, Bath University, UK, Nov. 2000.

[61] G.J. Monkman,(1992) “An Electrorheological Tactile Display”, in Presence (Journal of Teleoperators and Virtual Environments), Vol.1, issue 2, pp. 219- 228, MIT Press, July 1992.

[62] J.E. Moulder, “Static electric and magnetics fields and Human health”, Jan- uary 2004, http://www.mcw.edu/gcrc/cop/static-fields-cancer-FAQ/toc.html

[63] A.I. Pabat, “Controlled Magnetorheological Shock Absorbers”, Magnetohydro- dynamics, 1993, Vol. 26, No. 2, p. 222

[64] C.R. Paul, K. W. Whites, S. A. Nasar, “Introduction to Electromagnetic Fields”, McGraw-Hill, 1998.

[65] J. Rabinow, “The Magnetic Fluid Clutch”, AIEE Trans., 1948. 67: p. 1308.

[66] J. Rabinow, “Magnetic Fluid Torque and Force Transmitting Device”, in U.S.

Patent, 1951: USA.

[67] E. Ricciardi, N. Vanello, D. Dente, N. Sgambelluri, E.P. Scilingo, C. Gentili, L. Sani, V. Positano, F.M. Santarelli, M. Guazzelli, J.V. Haxby, L. Landini, A.

(8)

Bicchi, and P. Pietrini, “Perception of visual and tactile flow activates common cortical areas in the human brain”, In Proceedings of the EuroHaptics 2004, Germany June 5-7, 2004, pp. 290-292, 2004.

[68] R. Rizzo, “Design, Realization and Analysis of the Performance of a Device for the Energization and Characterization of Magneto-Rheological Fluids”, Proc.

of The 10th Int. IGTE Symposium on Numerical Field Calculation in Electrical Engineering, 16-18 September 2002, Graz, Austria, pp. 108-113.

[69] A. Savost’yanov, “Effects of Magnetomechanical Relaxation in a Magnetorheo- logical Suspension”, Magnetohydrodynamics, 1992, Vol. 28, No. 1, p. 42

[70] E.P. Scilingo, A. Bicchi, A. De Rossi, A. Scotto, “A magnetorheological fluid as a haptic display to replicate perceived compliance of biological tissues”, 1st Annual Int. IEEE-EMBS Special Topic Conference on Microtechnologies in Medicine & Biology, Lyon, France, October 12-14, 2000.

[71] E.P. Scilingo, N. Sgambelluri, D. De Rossi, A. Bicchi, “Haptic Displays Based on Magnetorheological Fluids: Design, Realization and Psychophysical Valida- tion”, 11th Symposium on Haptic Interfaces for Virtual Environment and Tele- operator Systems (HAPTICS’03), Los Angeles, California U.S.A., 22-26 March 2003, pp. 10-15.

[72] E.P. Scilingo, N. Sgambelluri, D. De Rossi, A. Bicchi, “Towards a Haptic Black Box: Magnetorheological fluid based display for softness and shape discrimi- nation”, In Proc. IEEE Int. Conf. on Robotics and Automation 2003, Taipei, Taiwan, September 2003, pp. 2412-2417.

[73] Z.P. Shulman, W.I. Kordonsky, and Zaitsgendler, “Structure, Physical Prop- erties and Dynamics of Magnetorheological Suspensions”, In Int. Journal of Multiphase Flow, 1986, Vol. 12, No. 6, pp. 935-955.

(9)

[74] B.F. Spencer, S.J. Dyke, M.K. Sain and J.D. Carlson, “Phenomenological Model of a Magnetorheological Damper”, In Journal of Engineering Mechan- ics, ASCE, 123, 1997, 230-238.

[75] M.A. Srinivasan, R.H. LaMotte, “Tactile Discrimination of Softness”, Journal of Neurophisiology, 1995, Vol. 73, No. 1, pp. 88-101

[76] J.L. Spronston, L.C. Yanyo, J. D. Carlson, A. K. El Wahed, “Controllable Fluids in 2002 - Status of ER and MR technology”, 8th International Conference on New Actuators

citewinslow-2 & 2nd International Exhibition on Smart Actuators and Drive Systems, pp.333-338, 10-12 June 2002, Bremen, Germany.

[77] R. Stanway, J.L. Spronston and N.G. Stevens,(1987), “Non-linear Modelling of an Electro-rheological Vibration Damper”, J. Electrostatics, Vol. 20, pp.167-184.

[78] P.M. Taylor, D.M. Pollet, A. Hosseini-Sianaki, C. J. Varley, “Advances in an Electrorheological Fluid Based Tactile Array”, Displays Vol. 18, pp.135-141, 1998.

[79] P.M. Taylor, A. Hosseini-Sianaki, C.J. Varley, “Surface Feedback for Virtual Environment Systems Using Electrorheological Fluids”, Int. Journal of Modern Physics B, Vol. 10, No. 23 & 24, 1996, pp. 3011-3018.

[80] H. Tokoro, K. Uchida, “High energy product Nd-Fe-B sintered magnets pro- duced by wet compacting process”, IEEE Trans on Magn. vol. 37, Jul. 2001, pp. 2463-2466.

[81] N. Vanello, E. Ricciardi, D. Dente, N. Sgambelluri, E. P. Scilingo, C. Gentili, L. Sani, V. Positano, F. M. Santarelli, M. Guazzelli, J. V. Haxby, L. Landini, A. Bicchi, and P. Pietrini. “Perception of Optic and Tactile Flow Both Activate V5/MT cortical complex in the human brain”, , In 10th Annual Meeting of the Organization for Human Brain Mapping, 2004.

(10)

[82] R.M. Jr. Voyles, G. Fedder and P. K. Khosla,“Design of a Modular Tactile Sensor and Actuator Based on Electrorheological Gel”, Int. Conf. on Robotics and Automation, April 1996, pp. 13-17.

[83] K.D. Weiss, et al., “High Strength Magneto- and Electro-rheological Fluids”, 1993: p. 425- 430.

[84] W.M. Winslow, “Method and Means for Translating Electrical Impulses into Mechanical Force”, in U.S Patent, 2417850. 1947: USA.

[85] W.M. Winslow, “Induced Fibration of Suspensions”, Journal of Applied Physics, 1949. 20: p. 1137-1140.

[86] O.C. Zienkiewicz, “The Finite Element Method”, McGRAW-HILL (UK), 1977.

[87] K.A. Zuker, W.W. Bailey, T. R. Gadacz and A.L. Imbembo. “Laparoscopic guided cholecystectomy”, Am J. Surgery, 161:36-44, 1991.