Massimo Guiggiani

Massimo Guiggiani
Born (1956-08-16) August 16, 1956 (age 68)
CitizenshipItalian
Occupationprofessor of applied mechanics
Known forGuiggiani's algorithm in the BEM, invariant approach for gears, The Science of Vehicle Dynamics
Awards2019 TAA Textbook Excellence Award
Academic work
DisciplineBoundary element method, theory of gear generation, vehicle dynamics

Massimo Guiggiani (born in Siena, 16 August 1956) is an Italian mechanical engineer and academic with interests in vehicle dynamics, gear drives and the boundary element method (BEM). He is professor of applied mechanics at the Università di Pisa. He created an algorithm, Guiggiani's method, for the evaluation of strongly singular and hypersingular integrals. He is the author of The Science of Vehicle Dynamics.[1][2]

In 2019 he received a Textbook Excellence Award[3][4] from TAA and the “Ordine del Cherubino”[5] from University of Pisa.

For several years, he was the faculty advisor of the E-Team Squadra Corse, the racing team of the Università di Pisa that every year designs and builds a single-seater racing car to participate in Formula SAE and Formula Student competitions.[6]

Guiggiani's Algorithm

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One of the main issues in the Boundary Element Method (BEM) is the evaluation of strongly singular and hypersingular surface integrals. It was commonly believed that they could not be evaluated directly. In a few papers published in 1987–1992,[7][8][9] Guiggiani was able to show that they were computable in a direct and effective way. This direct algorithm has now become classical (Guiggiani's method[10]). It has been applied in several fields like fracture mechanics, earthquake engineering, biology, particle physics, elasticity, plasticity, fluid mechanics, etc. and in commercial codes. Two MSc students, Paolo Casalini and Antonio Gigante, helped in the development of the algorithm for Cauchy principal value integrals. The non-trivial extension to hypersingular integrals was carried out while visiting Iowa State University in 1989-1990 and published in 1992. While Guiggiani was Maître de Recherche at Ecole Polytechnique, the direct approach was extended with Marc Bonnet to singular integrals in the Galerkin BEM.[11] The extension to higher-order singularities was done with Attilio Frangi.

Gear Generation and Optimization

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Since the year 2000, Guiggiani has led the Gear Group of the University of Pisa, contributing directly to the formulation of the Invariant Approach[12] of the theory of gear generation. The research on gears, carried out mostly by Marco Gabiccini and Alessio Artoni, has led to the development of algorithms for the optimization of the micro-geometry[13] and the identification of cutting parameters[14] much better than those previously available. Software codes based on these algorithms were implemented under contracts from Avio Aero and the GearLab of Ohio State University.

(The Science of) Vehicle Dynamics

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Since 1993 Guiggiani has been involved in Vehicle Dynamics, with the publication of books, including The Science of Vehicle Dynamics (2014, 2018 2nd ed.). Thanks to the contents of this work, he was invited to give long series of lessons at, among others, Ferrari F1 in Italy and Apple in the USA. In several parts, the book departs from commonly accepted explanations.

Awards

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Textbook Excellence Award for The Science of Vehicle Dynamics,[3][4] with the following motivation: The Science of Vehicle Dynamics is a masterful text written by an exceptional contributor in the field of applied mathematics. Students and professionals alike will benefit from this practical yet innovative treatment of the material, which has already impacted the industry.

References

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  1. ^ Guiggiani, Massimo (5 May 2018). The science of vehicle dynamics : handling, braking, and ride of road and race cars (Second ed.). Cham. ISBN 978-3-319-73220-6. OCLC 1034987067.{{cite book}}: CS1 maint: location missing publisher (link)
  2. ^ Guiggiani, Massimo (2018). The Science of Vehicle Dynamics. doi:10.1007/978-3-319-73220-6. ISBN 978-3-319-73219-0.
  3. ^ a b "TAA announces 2019 Textbook Award winners". Textbook and Academic Authors Association (TAA). 25 February 2019. Retrieved 2021-02-04.
  4. ^ a b "Università: un libro del professor Guiggiani tra i vincitori del 'Textbook Excellence Award'". PisaToday (in Italian). Retrieved 2021-01-26.
  5. ^ "Massimo Guiggiani". 11 April 2019.
  6. ^ "Svelata KeruBlast, monoposto dell'Università di Pisa - Prove e Novità". ANSA.it (in Italian). 2019-07-12. Retrieved 2021-01-26.
  7. ^ Guiggiani, M.; Casalini, P. (1987). "Direct computation of Cauchy principal value integrals in advanced boundary elements". International Journal for Numerical Methods in Engineering. 24 (9): 1711–1720. Bibcode:1987IJNME..24.1711G. doi:10.1002/nme.1620240908.
  8. ^ Guiggiani, M.; Gigante, A. (1990). "A General Algorithm for Multidimensional Cauchy Principal Value Integrals in the Boundary Element Method". Journal of Applied Mechanics. 57 (4): 906–915. Bibcode:1990JAM....57..906G. doi:10.1115/1.2897660.
  9. ^ Guiggiani, M.; Krishnasamy, G.; Rudolphi, T. J.; Rizzo, F. J. (1992). "A General Algorithm for the Numerical Solution of Hypersingular Boundary Integral Equations". Journal of Applied Mechanics. 59 (3): 604–614. Bibcode:1992JAM....59..604G. doi:10.1115/1.2893766. ISSN 0021-8936.
  10. ^ Fiala, P.; Rucz, P. (2014). "NiHu: An open source C++ BEM library". Advances in Engineering Software. 75: 101–112. doi:10.1016/j.advengsoft.2014.05.011.
  11. ^ Bonnet, M.; Guiggiani, M. (2003). "Direct evaluation of double singular integrals and new free terms in 2D (symmetric) Galerkin BEM". Computer Methods in Applied Mechanics and Engineering. 192 (22–24): 2565–2596. Bibcode:2003CMAME.192.2565B. doi:10.1016/S0045-7825(03)00286-X. S2CID 121979187.
  12. ^ Di Puccio, F.; Gabiccini, M.; Guiggiani, M. (2005). "Alternative formulation of the theory of gearing". Mechanism and Machine Theory. 40 (5): 613–637. doi:10.1016/j.mechmachtheory.2004.10.003.
  13. ^ Artoni, A.; Gabiccini, M.; Guiggiani, M.; Kahraman, A. (2011). "Multi-objective ease-off optimization of hypoid gears for their efficiency, noise, and durability performances". Journal of Mechanical Design. 133 (12): 121007 (9 pages). doi:10.1115/1.4005234.
  14. ^ Artoni, A.; Gabiccini, M.; Guiggiani, M. (2008). "Nonlinear identification of machine settings for flank form modifications in hypoid gears". Journal of Mechanical Design. 130 (11): 112602 (8 pages). doi:10.1115/1.2976454.
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