Follow
Marco Leonesio
Marco Leonesio
Researcher, CNR - Institute of Intelligent Industrial Technologies and Systems for Advanced
Verified email at stiima.cnr.it - Homepage
Title
Cited by
Cited by
Year
A model-based adaptive controller for chatter mitigation and productivity enhancement in CNC milling machines
CMG Bort, M Leonesio, P Bosetti
Robotics and Computer-Integrated Manufacturing 40, 34-43, 2016
552016
A time-domain surface grinding model for dynamic simulation
M Leonesio, P Parenti, A Cassinari, G Bianchi, M Monno
Procedia Cirp 4, 166-171, 2012
482012
Spindle speed variation in turning: technological effectiveness and applicability to real industrial cases
P Albertelli, S Musletti, M Leonesio, G Bianchi, M Monno
The International Journal of Advanced Manufacturing Technology 62 (1), 59-67, 2012
372012
Self-locking analysis in closed kinematic chains
M Leonesio, G Bianchi
Mechanism and Machine Theory 44 (11), 2038-2052, 2009
312009
Vibration analysis of robotic milling tasks
M Leonesio, E Villagrossi, M Beschi, A Marini, G Bianchi, N Pedrocchi, ...
Procedia Cirp 67, 262-267, 2018
252018
A general approach for self-locking analysis in closed kinematic chains
M Leonesio, G Bianchi, P Manara
Proceedings of the 12th world congress in mechanism and machine theory, 141-147, 2007
252007
On development of an optimal control system for real-time process optimization on milling machine tools
P Bosetti, M Leonesio, P Parenti
Procedia CIRP 12, 31-36, 2013
212013
An integrated approach to support the joint design of machine tools and process planning
M Leonesio, LM Tosatti, S Pellegrinelli, A Valente
CIRP Journal of Manufacturing Science and Technology 6 (3), 181-186, 2013
212013
Integrated energy analysis of cutting process and spindle subsystem in a turning machine
J Wójcicki, M Leonesio, G Bianchi
Journal of cleaner production 170, 1459-1472, 2018
192018
A reduced model for energy consumption analysis in milling
S Borgia, S Pellegrinelli, G Bianchi, M Leonesio
Procedia CIRP 17, 529-534, 2014
192014
Model-based adaptive process control for surface finish improvement in traverse grinding
P Parenti, M Leonesio, G Bianchi
Mechatronics 36, 97-111, 2016
172016
Force-field instability in surface grinding
M Leonesio, P Parenti, A Cassinari, G Bianchi
The International Journal of Advanced Manufacturing Technology 72, 1347-1360, 2014
162014
Frequency domain identification of grinding stiffness and damping
M Leonesio, P Parenti, G Bianchi
Mechanical Systems and Signal Processing 93, 545-558, 2017
122017
Holistic approach for jointly designing dematerialized machine tools and production systems enabling flexibility-oriented business models
G Copani, M Leonesio, L Molinari-Tosatti, S Pellegrinelli, M Urgo, ...
Leveraging Technology for a Sustainable World: Proceedings of the 19th CIRP …, 2012
122012
Parallel mechanisms design in a virtual prototyping environment
M Leonesio, I Fassi, G Bianchi, L Molinari-Tosatti
Proceedings of the 32nd ISR (International Symposium on Robotics) 19, 21, 2001
102001
Roundness prediction in centreless grinding using physics-enhanced machine learning techniques
H Safarzadeh, M Leonesio, G Bianchi, M Monno
The International Journal of Advanced Manufacturing Technology 112, 1051-1063, 2021
92021
A model-based approach for online estimation of surface waviness in roll grinding
P Parenti, M Leonesio, A Cassinari, G Bianchi, M Monno
The International Journal of Advanced Manufacturing Technology 79, 1195-1208, 2015
92015
Energy driven process planning and machine tool dynamic behavior assessment
S Borgia, M Leonesio, S Pellegrinelli, A Valente
Procedia CIRP 9, 91-96, 2013
92013
Integrated Machine Tool Design
N Cau, M Leonesio, E Zanotti, P Parenti, G Bianchi
2nd International Researchers Symposium on Innovative Production Machines …, 2009
92009
A double input describing function approach for stability analysis in centerless grinding under interrupted cut
G Bianchi, M Leonesio, H Safarzadeh
The International Journal of Advanced Manufacturing Technology 108, 439-453, 2020
82020
The system can't perform the operation now. Try again later.
Articles 1–20