The Mechanical and thermal measurement group of the department of Engineeringof the University of Perugia.In this research group teachers, research assistants and PhD students works in order to develop and apply new measurement techniques with the best compromise of reliability, cost, efficiency, at acceptable level of uncertainty.The research group operate in a laboratory using the most recent measurement techniques, sensors, data acquisition and processing systems for experimental mechanics studies, including a laboratory for Dynamic Mechanical Aanalysis (DMA).The research group works in cooperation with many partners: Industries, Research center and other University.The Group also offers measurement services at companies.Do not hesitate to contact us for any informations, for partnership in the frame of research projects.Bon voyage inside this web site !
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.” Galileo Galilei
University of Perugia
About us
The Mechanical and thermal measurement group of the department of Engineering of the University of Perugia.In this research group teachers, research assistants and PhD students works in order to develop and apply new measurement techniques with the best compromise of reliability, cost, efficiency, at acceptable level of uncertainty.The research group operate in a laboratory using the most recent measurement techniques, sensors, data acquisition and processing systems for experimental mechanics studies, including a laboratory for Dynamic Mechanical Aanalysis (DMA).The research group works in cooperation with many partners: Industries, Research center and other University.The Group also offers measurement services at companies.Do not hesitate to contact us for any informations, for partnership in the frame of research projects.Bon voyage inside this web site !
The Mechanical and thermal measurement group of the department of Engineering of the University of Perugia.In this research group teachers, research assistants and PhD students works in order to develop and apply new measurement techniques with the best compromise of reliability, cost, efficiency, at acceptable level of uncertainty.The research group operate in a laboratory using the most recent measurement techniques, sensors, data acquisition and processing systems for experimental mechanics studies, including a laboratory for Dynamic Mechanical Aanalysis (DMA).The research group works in cooperation with manypartners: Industries, Research center and other University.The Group also offers measurement services at companies.Do not hesitate to contact us for any informations, for partnership in the frame of research projects.Bon voyage inside this web site !
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.” Galileo Galilei
"I often say that when you can measure what you are speaking about, and express it in numbers, you know something about it; but when you cannot measure it, when you cannot express it in numbers, your knowledge is of a meagre and unsatisfactory kind; it may be the beginning of knowledge, but you have scarcely, in your thoughts, advanced to the stage of "science", whatever the matter may be." (William Thomson - Lord Kelvin)
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Gianluca Rossi
Professor
Industrial Engineering Department Faculty of engineering of Perugia University – Italy 075 585 3744 Monday - Friday 16:00 - 17:00gianluca.rossi@unipg.it
Roberto Marsili
Researcher
Industrial Engineering Department Faculty of engineering of Perugia University – Italy 075 585 3744 Monday - Friday 16:00 - 17:00roberto.marsili@unipg.it
Lorenzo Capponi
PhD Student
33rd Cycle of Centro di Studi e Attività Spaziali G. Colombo (C.I.S.A.S.) Faculty of engineering of Padova University – Italy 075 585 3751 Monday - Friday 9:00 - 18:00lorenzo.capponi@phd.unipd.it
Tommaso Tocci
PhD Student
35th Cycle of Industrial Engineering Department Faculty of engineering of Perugia University – Italy 075 585 3751 Monday - Friday 9:00 - 18:00tommaso.tocci@outlook.it
Iva Xhimitiku
PhD Student
35th Cycle of Centro di Studi e Attività Spaziali G. Colombo (C.I.S.A.S.) Faculty of engineering of Padova University – Italy 075 585 3751 Monday - Friday 9:00 - 18:00iva.xhimitiku@studenti.unipd.it
"I often say that when you can measure what you are speaking about, and express it in numbers, you know something about it; but when you cannot measure it, when you cannot express it in numbers, your knowledge is of a meagre and unsatisfactory kind; it may be the beginning of knowledge, but you have scarcely, in your thoughts, advanced to the stage of "science", whatever the matter may be." (William Thomson - Lord Kelvin)
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Gianluca Rossi
Professor
Industrial Engineering Department Faculty of engineering of Perugia University – Italy 075 585 3744 Monday - Friday 16:00 - 17:00gianluca.rossi@unipg.it
Roberto Marsili
Researcher
Industrial Engineering Department Faculty of engineering of Perugia University – Italy 075 585 3744 Monday - Friday 16:00 - 17:00roberto.marsili@unipg.it
Lorenzo Capponi
PhD Student
33rd Cycle of C.I.S.A.S. Faculty of engineering of Padova – Italy 075 585 3751 Monday - Friday 9:00 - 18:00lorenzo.capponi@phd.unipd.it
Tommaso Tocci
PhD Student
35th Cycle of Industrial Engineering Department Faculty of engineering of Perugia University – Italy 075 585 3751 Monday - Friday 9:00 - 18:00tommaso.tocci@outlook.it
Iva Xhimitiku
PhD Student
35th Cycle of C.I.S.A.S. Faculty of engineering of Padova – Italy 075 585 3751 Monday - Friday 9:00 - 18:00iva.xhimitiku@studenti.unipd.it
"I often say that when you can measure what you are speaking about, and express it in numbers, you know something about it; but when you cannot measure it, when you cannot express it in numbers, your knowledge is of a meagre and unsatisfactory kind; it may be the beginning of knowledge, but you have scarcely, in your thoughts, advanced to the stage of "science", whatever the matter may be." (William Thomson - Lord Kelvin)
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Gianluca Rossi
Professor
075 585 3744Industrial Engineering Department Faculty of engineering of Perugia University Mon - Fri 16-17 gianluca.rossi@unipg.it
Roberto Marsili
Researcher
075 585 3744Industrial Engineering Department Faculty of engineering of Perugia University Mon- Fri 16-17roberto.marsili@unipg.it
Industrial Engineering Department Faculty of engineering of Perugia Univerity 075 585 3744 Monday - Friday 16:00 - 17:00gianluca.rossi@unipg.it
Gianluca Rossi is a first-class professor and owner of the following courses at the Engineering Department of the University of Perugia:- "Measurements and controls on mechanical systems" in the Bachelor of Science in Industrial Engineering and the- "Sensors and instruments for mechanical and thermal measurements" during the Master's Degree in Mechanics.He is pro-tempore president of the Council of Mechanical Engineering of the University of Perugia, is a member of the teaching staff of the doctorate, indirectly Mechanical and Thermal Measures, at the University of Padua.
Academic career
Full Professor of “Mechanical and Thermal Measurements” at University of Perugia – Department of Engineering. He teaches ”Mechanical and Thermal Measurements” in Mechanical Engineering Bachelor’s Degree Course and “Sensors and instruments for mechanical and thermal measures” in Mechanical Engineering Master Course. At University of Padua he teaches “Measurement techniques for Industrial diagnostics” in the PhD program in Space Sciences, Technologies and measurement techniques.President of Tucep association, an instititution of 12 italian Universities, Industries and public institutions with the mission of technology transfer, founding student mobility in Erasmus programs, training and research, actually managing 18 EU projects in parallel.Gianluca Rossi is the author of more than 130 scientific publications, of which more than 30 are published on international journals. He is the author of the book “Mechanical and Thermal Measurements”, November 2010. He is the owner of three patents.
Scientific activity
Since 1998, as associate professor of University of Perugia he has been the local coordinator of research contracts founded under the 5th and the 6th Framework Programme of the European Commission, about measurement techniques based on thermoelasticity, on matrices of capacitive sensors, on laser vibrometry (acronyms VIB-TOOL, LAVINIA, CAMALEON, EULASNET). He was the Coordinator of four researches financed under PRIN form the Italian Ministry of University. He was the scientific responsible of several research contracts with relevant National enterprises, such as Ferrari, Aprilia, Benelli Tecnomeccanica, Carraro, Umbra Cuscinetti, Rosati, Askoll, Electrolux, Best, Black&Decker Italia, Indesit, Bimal, Cento Ricerche Fiat, Fonderie Tacconi, etc.He is the reviewer of several scientific journals , of PRIN and FIRB projects on behalf of the Italian Ministry of University and Research; he worked as reviewer of the 5th, 6th and 7th Framework Programme of European Commission in Brussels, from 1998 to 2013; specifically in 1998, in the first research programmes he worked in the area of “Measurement and testing standards”. Since 2014 till now is working as reviewer in metrology area under the EMPIR Programme.Since 1998 he manages in Perugia a research group for Mechanical Measurements at Engineering Department of University of Perugia working on application and development of thermoelastic measurement techniques, vibration measurement and testing, fiber optic sensor development and application, digital image correlation, development of measurement techniques for additive manufacturing.Prof. Rossi has almost 30 years of experience in Tip Timing and Tip Clearance measurement systems. He started with his Master thesis “Development of systems for non-contact blade vibration measurements” – Degree on Mechanical Engineering – Ancona - 1988. During his PhD (1989-92), focused on the same topic, he had a research activity in cooperation with Nuovo Pignone – Firenze, actually GE Oil&Gas, aimed at developing a new system for non-contact blade vibration measurements by optical fiber sensors. From 1993 to 1998 he work on laser vibrometry advances and applications at University of Ancona where gives his contribution to starts there the only in the world conference on this field.He was Visiting Professor at Von Karman Institute for Fluid Dynamics in Rhode Saint Genese, Belgium, from January 2012 to July 2013. Prof. Rossi was leading the BTTMON project under a Marie Curie Action, EU funded, aimed at developing new magnetoresistive sensors and a measurement system for turbomachinery blade vibration monitoring by blade tip timing techniques.
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Industrial Engineering Department Faculty of engineering of Perugia Univerity 075 585 3744 Monday - Friday 16:00 - 17:00gianluca.rossi@unipg.it
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Gianluca Rossi is a first-class professor and owner of the following courses at the Engineering Department of the University of Perugia:- "Measurements and controls on mechanical systems" in the Bachelor of Science in Industrial Engineering and the- "Sensors and instruments for mechanical and thermal measurements" during the Master's Degree in Mechanics.He is pro-tempore president of the Council of Mechanical Engineering of the University of Perugia, is a member of the teaching staff of the doctorate, indirectly Mechanical and Thermal Measures, at the University of Padua.
Academic Career
Full Professor of “Mechanical and Thermal Measurements” at University of Perugia – Department of Engineering. He teaches ”Mechanical and Thermal Measurements” in Mechanical Engineering Bachelor’s Degree Course and “Sensors and instruments for mechanical and thermal measures” in Mechanical Engineering Master Course. At University of Padua he teaches “Measurement techniques for Industrial diagnostics” in the PhD program in Space Sciences, Technologies and measurement techniques.President of Tucep association, an instititution of 12 italian Universities, Industries and public institutions with the mission of technology transfer, founding student mobility in Erasmus programs, training and research, actually managing 18 EU projects in parallel.Gianluca Rossi is the author of more than 130 scientific publications, of which more than 30 are published on international journals. He is the author of the book “Mechanical and Thermal Measurements”, November 2010. He is the owner of three patents.
Scientific Activity
Since 1998, as associate professor of University of Perugia he has been the local coordinator of research contracts founded under the 5th and the 6th Framework Programme of the European Commission, about measurement techniques based on thermoelasticity, on matrices of capacitive sensors, on laser vibrometry (acronyms VIB-TOOL, LAVINIA, CAMALEON, EULASNET). He was the Coordinator of four researches financed under PRIN form the Italian Ministry of University. He was the scientific responsible of several research contracts with relevant National enterprises, such as Ferrari, Aprilia, Benelli Tecnomeccanica, Carraro, Umbra Cuscinetti, Rosati, Askoll, Electrolux, Best, Black&Decker Italia, Indesit, Bimal, Cento Ricerche Fiat, Fonderie Tacconi, etc.He is the reviewer of several scientific journals , of PRIN and FIRB projects on behalf of the Italian Ministry of University and Research; he worked as reviewer of the 5th, 6th and 7th Framework Programme of European Commission in Brussels, from 1998 to 2013; specifically in 1998, in the first research programmes he worked in the area of “Measurement and testing standards”. Since 2014 till now is working as reviewer in metrology area under the EMPIR Programme.Since 1998 he manages in Perugia a research group for Mechanical Measurements at Engineering Department of University of Perugia working on application and development of thermoelastic measurement techniques, vibration measurement and testing, fiber optic sensor development and application, digital image correlation, development of measurement techniques for additive manufacturing.Prof. Rossi has almost 30 years of experience in Tip Timing and Tip Clearance measurement systems. He started with his Master thesis “Development of systems for non-contact blade vibration measurements” – Degree on Mechanical Engineering – Ancona - 1988. During his PhD (1989-92), focused on the same topic, he had a research activity in cooperation with Nuovo Pignone – Firenze, actually GE Oil&Gas, aimed at developing a new system for non-contact blade vibration measurements by optical fiber sensors. From 1993 to 1998 he work on laser vibrometry advances and applications at University of Ancona where gives his contribution to starts there the only in the world conference on this field.He was Visiting Professor at Von Karman Institute for Fluid Dynamics in Rhode Saint Genese, Belgium, from January 2012 to July 2013. Prof. Rossi was leading the BTTMON project under a Marie Curie Action, EU funded, aimed at developing new magnetoresistive sensors and a measurement system for turbomachinery blade vibration monitoring by blade tip timing techniques.
Industrial Engineering Department Faculty of engineering of Perugia Univerity 075 585 3744 Monday - Friday 16:00 - 17:00gianluca.rossi@unipg.it
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Gianluca Rossi is a first-class professor and owner of the following courses at the Engineering Department of the University of Perugia:- "Measurements and controls on mechanical systems" in the Bachelor of Science in Industrial Engineering and the- "Sensors and instruments for mechanical and thermal measurements" during the Master's Degree in Mechanics.He is pro-tempore president of the Council of Mechanical Engineering of the University of Perugia, is a member of the teaching staff of the doctorate, indirectly Mechanical and Thermal Measures, at the University of Padua.
Academic Career
Full Professor of “Mechanical and Thermal Measurements” at University of Perugia – Department of Engineering. He teaches ”Mechanical and Thermal Measurements” in Mechanical Engineering Bachelor’s Degree Course and “Sensors and instruments for mechanical and thermal measures” in Mechanical Engineering Master Course. At University of Padua he teaches “Measurement techniques for Industrial diagnostics” in the PhD program in Space Sciences, Technologies and measurement techniques.President of Tucep association, an instititution of 12 italian Universities, Industries and public institutions with the mission of technology transfer, founding student mobility in Erasmus programs, training and research, actually managing 18 EU projects in parallel.Gianluca Rossi is the author of more than 130 scientific publications, of which more than 30 are published on international journals. He is the author of the book “Mechanical and Thermal Measurements”, November 2010. He is the owner of three patents.
Scientific Activity
Since 1998, as associate professor of University of Perugia he has been the local coordinator of research contracts founded under the 5th and the 6th Framework Programme of the European Commission, about measurement techniques based on thermoelasticity, on matrices of capacitive sensors, on laser vibrometry (acronyms VIB-TOOL, LAVINIA, CAMALEON, EULASNET). He was the Coordinator of four researches financed under PRIN form the Italian Ministry of University. He was the scientific responsible of several research contracts with relevant National enterprises, such as Ferrari, Aprilia, Benelli Tecnomeccanica, Carraro, Umbra Cuscinetti, Rosati, Askoll, Electrolux, Best, Black&Decker Italia, Indesit, Bimal, Cento Ricerche Fiat, Fonderie Tacconi, etc.He is the reviewer of several scientific journals , of PRIN and FIRB projects on behalf of the Italian Ministry of University and Research; he worked as reviewer of the 5th, 6th and 7th Framework Programme of European Commission in Brussels, from 1998 to 2013; specifically in 1998, in the first research programmes he worked in the area of “Measurement and testing standards”. Since 2014 till now is working as reviewer in metrology area under the EMPIR Programme.Since 1998 he manages in Perugia a research group for Mechanical Measurements at Engineering Department of University of Perugia working on application and development of thermoelastic measurement techniques, vibration measurement and testing, fiber optic sensor development and application, digital image correlation, development of measurement techniques for additive manufacturing.Prof. Rossi has almost 30 years of experience in Tip Timing and Tip Clearance measurement systems. He started with his Master thesis “Development of systems for non-contact blade vibration measurements” – Degree on Mechanical Engineering – Ancona - 1988. During his PhD (1989-92), focused on the same topic, he had a research activity in cooperation with Nuovo Pignone – Firenze, actually GE Oil&Gas, aimed at developing a new system for non-contact blade vibration measurements by optical fiber sensors. From 1993 to 1998 he work on laser vibrometry advances and applications at University of Ancona where gives his contribution to starts there the only in the world conference on this field.He was Visiting Professor at Von Karman Institute for Fluid Dynamics in Rhode Saint Genese, Belgium, from January 2012 to July 2013. Prof. Rossi was leading the BTTMON project under a Marie Curie Action, EU funded, aimed at developing new magnetoresistive sensors and a measurement system for turbomachinery blade vibration monitoring by blade tip timing techniques.
Industrial Engineering Department Faculty of engineering of Perugia University 075 585 3744 Monday - Friday 16:00 - 17:00roberto.marsili@unipg.it
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Roberto Marsili was born in Perugia, where he lives; is conjugated.Roberto Marsili graduated with a 110/110 cum laude in Mechanical Engineering, specialization in Industrial Automation and Robotics, at the University of Perugia.He obtained the qualification to practice the profession of engineer, is enrolled in the order of engineers of the Province of Perugia.He holds the title of PhD in Mechanical Measurements for Engineering.In 1997 he was the winner of the competition for a post of University Researcher for the disciplinary grouping ING-IND / 12 - Mechanical and Thermal Measurements
Academic career
Scientific activity can be summarized in the following main sectors:1. Study and development of optical sensors for distance and shape measurements.2. Development of new sensors based on PVDF piezoelectric films.3. Study of methodologies for the measurement of the contact pressure between two surfaces.4. Development of new measurement techniques based on the principle of thermoelasticity.
Scientific activity
Starting from the academic year 1995/1996 to date, he holds courses in Mechanical and Thermal Measurements, Measurement Aspects of Quality Control and Vibration Mechanics at the University of Perugia.He has been tutor to PhD students.He has been a supervisor in the degree thesis.
Teaching activity
In his activity at the Department of Industrial Engineering he contributed to the development of the Mechanical and Thermal Measurements laboratory. In particular, he was interested in the design and setting up of new research and teaching benches and was involved in the purchase, testing, operation and maintenance of scientific instruments.He organized, directed and coordinated research groups, consisting of research fellows and doctoral students, as part of the projects developed by the Department, in collaboration also with other national and international universities and research centers.He is the scientific coordinator of national and international research projects.He has participated in national and international conferences and exhibitions where he presented the results of his research.He is a member of the ATA and ASME scientific associations.He has a good knowledge of English and French both spoken and written.
Industrial Engineering Department Faculty of engineering of Perugia University 075 585 3744 Monday - Friday 16:00 - 17:00roberto.marsili@unipg.it
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Roberto Marsili was born in Perugia, where he lives; is conjugated.
Roberto Marsili graduated with a 110/110 cum laude in Mechanical Engineering, specialization in Industrial Automation and Robotics, at the University of Perugia.Heobtainedthequalificationtopracticetheprofessionofengineer,isenrolledintheorderofengineersof the Province of Perugia.He holds the title of PhD in Mechanical Measurements for Engineering.In1997hewasthewinnerofthecompetitionforapostofUniversityResearcherforthedisciplinary grouping ING-IND / 12 - Mechanical and Thermal Measurements
Academic career
Scientific activity can be summarized in the following main sectors:1. Study and development of optical sensors for distance and shape measurements.2. Development of new sensors based on PVDF piezoelectric films.3. Study of methodologies for the measurement of the contact pressure between two surfaces.4. Development of new measurement techniques based on the principle of thermoelasticity.
Scientific activity
Startingfromtheacademicyear1995/1996todate,heholdscoursesinMechanicalandThermal Measurements,MeasurementAspectsofQualityControlandVibrationMechanicsattheUniversityof Perugia.He has been tutor to PhD students.He has been a supervisor in the degree thesis.
Teaching activity
In his activity at the Department of Industrial Engineering he contributed to the development of the Mechanical and Thermal Measurements laboratory. In particular, he was interested in the design and setting up of new research and teaching benches and was involved in the purchase, testing, operation and maintenance of scientific instruments.He organized, directed and coordinated research groups, consisting of research fellows and doctoral students, as part of the projects developed by the Department, in collaboration also with other national and international universities and research centers.He is the scientific coordinator of national and international research projects.He has participated in national and international conferences and exhibitions where he presented the results of his research.He is a member of the ATA and ASME scientific associations.He has a good knowledge of English and French both spoken and written.
Industrial Engineering Department Faculty of engineering of Perugia University 075 585 3744 Monday - Friday 16:00 - 17:00roberto.marsili@unipg.it
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Roberto Marsili was born in Perugia, where he lives; is conjugated.Roberto Marsili graduated with a 110/110 cum laude in Mechanical Engineering, specialization in Industrial Automation and Robotics, at the University of Perugia.He obtained the qualification to practice the profession of engineer, is enrolled in the order of engineers of the Province of Perugia.He holds the title of PhD in Mechanical Measurements for Engineering.In 1997 he was the winner of the competition for a post of University Researcher for the disciplinary grouping ING-IND / 12 - Mechanical and Thermal Measurements.
Academic Career
Scientific activity can be summarized in the following main sectors:1. Study and development of optical sensors for distance and shape measurements.2. Development of new sensors based on PVDF piezoelectric films.3. Study of methodologies for the measurement of the contact pressure between two surfaces.4. Development of new measurement techniques based on the principle of thermoelasticity.
Scientific Activity
Starting from the academic year 1995/1996 to date, he holds courses in Mechanical and Thermal Measurements, Measurement Aspects of Quality Control and Vibration Mechanics at the University of Perugia.He has been tutor to PhD students.He has been a supervisor in the degree thesis.
Teaching Activity
In his activity at the Department of Industrial Engineering he contributed to the development of the Mechanical and Thermal Measurements laboratory. In particular, he was interested in the design and setting up of new research and teaching benches and was involved in the purchase, testing, operation and maintenance of scientific instruments.He organized, directed and coordinated research groups, consisting of research fellows and doctoral students, as part of the projects developed by the Department, in collaboration also with other national and international universities and research centers.He is the scientific coordinator of national and international research projects.He has participated in national and international conferences and exhibitions where he presented the results of his research.He is a member of the ATA and ASME scientific associations.He has a good knowledge of English and French both spoken and written.
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Lorenzo Capponi was born in Perugia in April 1991. He received classical education at the High School Annibale Mariotti of Perugia (National Plan of Computer Science) in 2010. He received his Bachelor and Master degrees in Mechanical Engineering at the University of Perugia in April 2017 with a thesis titled “Non-stationary index in vibration fatigue: theoretical and experimental analysis”. He spent five months at the Laboratory for Dynamics of Machines and Structures (LADISK) of University of Ljubljana for the research of his Master thesis. He obtained the habilitation to the Engineering Profession in July 2017. He obtained the Unlimited Introductory Certificate in Project Management by IPMA in October 2018. He spent other four months at LADISK as visiting PhD student in 2020.
Academic career
He is currently PhD student at Centro di Studi Spaziali (CISAS) G. Colombo of the University of Padova, but he performs his research activities at the Department of Engineering of the University of Perugia. His research topic regards the development of thermoelasticity-based algorithms for the fatigue damage estimation. His current research interests include numerical and experimental analysis, thermoelasticity, stress and strain measurements, vibration fatigue, additive manufacturing, open-source software and single-board hardware development.
Lorenzo Capponi
PhD Student
33rd Cycle of Centro di Studi e Attività Spaziali G. Colombo (C.I.S.A.S.) Faculty of engineering of Padova University – Italy 075 585 3751 Monday - Friday 9:00 - 18:00lorenzo.capponi@phd.unipd.it.
33rd Cycle of Centro di Studi e Attività Spaziali G. Colombo (C.I.S.A.S.) Faculty of engineering of Padova University 075 585 3744 Monday - Friday 16:00 - 17:00lorenzo.capponi@phd.unipd.it
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Lorenzo Capponi was born in Perugia in April 1991. He received classical education at the High School Annibale Mariotti of Perugia (National Plan of Computer Science) in 2010. He received his Bachelor and Master degrees in Mechanical Engineering at the University of Perugia in April 2017 with a thesis titled “Non-stationary index in vibration fatigue: theoretical and experimental analysis”. He spent five months at the Laboratory for Dynamics of Machines and Structures (LADISK) of University of Ljubljana for the research of his Master thesis. He obtained the habilitation to the Engineering Profession in July 2017. He obtained the Unlimited Introductory Certificate in Project Management by IPMA in October 2018. He spent other four months at LADISK as visiting PhD student in 2020.
Academic career
He is currently PhD student at Centro di Studi Spaziali (CISAS) G. Colombo of the University of Padova, but he performs his research activities at the Department of Engineering of the University of Perugia. His research topic regards the development of thermoelasticity-based algorithms for the fatigue damage estimation. His current research interests include numerical and experimental analysis, thermoelasticity, stress and strain measurements, vibration fatigue, additive manufacturing, open-source software and single-board hardware development.
33rd Cycle of Centro di Studi e Attività Spaziali G. Colombo (C.I.S.A.S.) Faculty of engineering of Padova University 075 585 3744 Monday - Friday 16:00 - 17:00lorenzo.capponi@phd.unipd.it
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Lorenzo Capponi was born in Perugia in April 1991. He received classical education at the High School Annibale Mariotti of Perugia (National Plan of Computer Science) in 2010. He received his Bachelor and Master degrees in Mechanical Engineering at the University of Perugia in April 2017 with a thesis titled “Non-stationary index in vibration fatigue: theoretical and experimental analysis”. He spent five months at the Laboratory for Dynamics of Machines and Structures (LADISK) of University of Ljubljana for the research of his Master thesis. He obtained the habilitation to the Engineering Profession in July 2017. He obtained the Unlimited Introductory Certificate in Project Management by IPMA in October 2018. He spent other four months at LADISK as visiting PhD student in 2020.
Academic Career
He is currently PhD student at Centro di Studi Spaziali (CISAS) G. Colombo of the University of Padova, but he performs his research activities at the Department of Engineering of the University of Perugia. His research topic regards the development of thermoelasticity-based algorithms for the fatigue damage estimation. His current research interests include numerical and experimental analysis, thermoelasticity, stress and strain measurements, vibration fatigue, additive manufacturing, open-source software and single-board hardware development.
35th Cycle of Industrial Engineering Faculty of engineering of Perugia University 075 585 3751 Monday - Friday 9:00 - 18:00tommaso.tocci@outlook.it
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Tommaso Tocci was born on 1/25/1993 in Città della Pieve in the province of Perugia. He lives in Turo sul Trasimeno. In 2012 He graduated in Secondary school diploma in mechanical engineering. He graduated in Mechanical Engineering at the University of Perugia in April 2019 with a degree mark of 110/110 with honors, with a thesis entitled " Velocity measurements trough computer vision algorithms of aspirated vapor from a kitchen suction-system".
Academic career
He obtained the license in engineering passing the government exam in november 2019He is currently a 35th cycle PhD student at the Engineering Department of the University of Perugia. His main research activity concerns the development of non-contact measurement techniques based on image analysis. His areas of interest are computer vision, non-contact measurements, prototyping of systems based on microcontrollers and related software development aimed at the field of mechanical-thermal measurements and Additive Manufacturing.
35th Cycle of Industrial Engineering Faculty of engineering of Perugia University 075 585 3751 Monday - Friday 9:00 - 18:00tommaso.tocci@outlook.it
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Tommaso Tocci was born on 1/25/1993 in Città della Pieve in the province of Perugia. He lives in Turo sul Trasimeno. In 2012 He graduated in Secondary school diploma in mechanical engineering. He graduated in Mechanical Engineering at the University of Perugia in April 2019 with a degree mark of 110/110 with honors, with a thesis entitled " Velocity measurements trough computer vision algorithms of aspirated vapor from a kitchen suction-system".
Academic Career
He obtained the license in engineering passing the government exam in november 2019He is currently a 35th cycle PhD student at the Engineering Department of the University of Perugia. His main research activity concerns the development of non-contact measurement techniques based on image analysis. His areas of interest are computer vision, non-contact measurements, prototyping of systems based on microcontrollers and related software development aimed at the field of mechanical-thermal measurements and Additive Manufacturing.
35th Cycle of Centro di Studi e Attività Spaziali G. Colombo (C.I.S.A.S.) Faculty of engineering of Padova University 075 585 3751 Monday - Friday 9:00 - 18:00iva.xhimitiku@studenti.unipd.it
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Iva Xhimitiku was born in Tirana in April 1989. She graduated from the Scientific High School annexed to the "Principe di Napoli" in Assisi in 2008. She received her’s degree in building engineering and architecture at the University of Perugia in February 2019 with the vote of 100/110, with a thesis entitled "Experimentation of digital techniques for the survey of cultural heritage: The case of Villa Capitini in Perugia". She obtained her qualification to practice the engineering profession in January 2020.She is currently a 35th cycle PhD student at the G. Colombo Space Studies Center of the University of Padua, but carries out her research entirely at the University of Perugia.
Academic career
The research activity of the doctorate of Iva Xhimitiku has as its objective the development of non-contact optical techniques for the measurement of shapes, tensions and deformations for the study of structures, materials, complex geometries, and mechanical components made in additive manufacturing. The activity began in the first year with the study and learning of the use of laser scanning and structured light techniques by applying them to the measurement of tree shapes (work presented at the Measure conference in Perugia in September 2019) and rocky walls. A first article on this was presented at the IEEE 2019 international conference (MetroAgriFor in Naples in October 2019). The complex materials, object of study, also realized through Additive Manufacturing, have been mechanically characterized also by means of dynamic mechanical analysis techniques (DMA).
35th Cycle of Centro di Studi e Attività Spaziali G. Colombo (C.I.S.A.S.) Faculty of engineering of Padova University 075 585 3751 Monday - Friday 9:00 - 18:00iva.xhimitiku@studenti.unipd.it
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
IvaXhimitikuwasborninTiranainApril1989.ShegraduatedfromtheScientificHighSchoolannexedtothe "PrincipediNapoli"inAssisiin2008.Shereceivedher’sdegreeinbuildingengineeringandarchitectureat theUniversityofPerugia.inFebruary2019withthevoteof100/110,withathesisentitled"Experimentation ofdigitaltechniquesforthesurveyofculturalheritage:ThecaseofVillaCapitiniinPerugia".Sheobtained her qualification to practice the engineering profession in January 2020.Sheiscurrentlya35thcyclePhDstudentattheG.ColomboSpaceStudiesCenteroftheUniversityofPadua, but carries out his research entirely at the University of Perugia.
35th Cycle of Centro di Studi e Attività Spaziali G. Colombo (C.I.S.A.S.) Faculty of engineering of Padova University075 585 3751 Monday - Friday 9:00 - 18:00iva.xhimitiku@studenti.unipd.it
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
Iva Xhimitiku was born in Tirana in April 1989. She graduated from the Scientific High School annexed to the "Principe di Napoli" in Assisi in 2008. She received her’s degree in building engineering and architecture at the University of Perugia.in February 2019 with the vote of 100/110, with a thesis entitled "Experimentation of digital techniques for the survey of cultural heritage: The case of Villa Capitini in Perugia". She obtained her qualification to practice the engineering profession in January 2020.She is currently a 35th cycle PhD student at the G. Colombo Space Studies Center of the University of Padua, but carries out his research entirely at the University of Perugia.
Academic Career
The research activity of the doctorate of Iva Xhimitiku has as its objective the development of non-contact optical techniques for the measurement of shapes, tensions and deformations for the study of structures, materials, complex geometries, and mechanical components made in additive manufacturing. The activity began in the first year with the study and learning of the use of laser scanning and structured light techniques by applying them to the measurement of tree shapes (work presented at the Measure conference in Perugia in September 2019) and rocky walls. A first article on this was presented at the IEEE 2019 international conference (MetroAgriFor in Naples in October 2019). The complex materials, object of study, also realized through Additive Manufacturing, have been mechanically characterized also by means of dynamic mechanical analysis techniques (DMA).
The Mechanical and Thermal Measurement Group of the department of Engineering of the University of Perugia works actively for the development of new measurement techniques and for the improvement of the currently available methodologies. Much of the work is carried out in close collaboration with external partners (companies, research groups or other universities)
“Misura ciò che è misurabile, e rendi misurabile ciò che non lo è.”Galileo Galilei
“Ci sono soltanto due possibili conclusioni: se il risultato conferma le ipotesi, allora hai appena fatto una misura; se il risultato è contrario alle ipotesi, allora hai fatto una scoperta”Enrico Fermi
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Tel: +39 075 585 3744Tel: +38 075 585 3751e-mail: misure@unipg.itFor more info About Us, go to ours personal contact in the section of Staff.
“Ci sono soltanto due possibili conclusioni: se il risultato conferma le ipotesi, allora hai appena fatto una misura; se il risultato è contrario alle ipotesi, allora hai fatto una scoperta”Enrico Fermi
“Ci sono soltanto due possibili conclusioni: se il risultato conferma le ipotesi, allora hai appena fatto una misura; se il risultato è contrario alle ipotesi, allora hai fatto una scoperta”Enrico Fermi
Benvenuti!Qui potrete trovare tutto il materiale didattico dei corsi della triennale e della specialistica di Misure Meccaniche e Termiche e di Misure di campi di grandezze meccaniche con immagini e onde. I corsi sono stati messi a disposizione per tutti, sia in formato PDF sia attraverso video registrazioni.
“Se non lo puoi misurarenon lo puoi migliorare”Lord Kelvin
Sistemi di misura di campi di grandezze meccaniche, di stress e strain, vibrazioni, acustici, fluidodinamici, e sensoristica innovativa per applicazioni di ricerca e sviluppo
Misure di campi di grandezze meccaniche con immagini e onde
Benvenuti!Qui potrete trovare tutto il materiale didattico dei corsi della triennale e della specialistica di Misure Meccaniche e Termiche e di Misure di campi di grandezze meccaniche con immagini e onde. I corsi sono stati messi a disposizione per tutti, sia in formato PDF sia attraverso video registrazioni.
“Se non lo puoi misurarenon lo puoi migliorare”Lord Kelvin
Sistemi di misura di campi di grandezze meccaniche, di stress e strain, vibrazioni, acustici, fluidodinamici, e sensoristica innovativa per applicazioni di ricerca e sviluppo
Misure di campi di grandezze meccaniche con immagini e onde
Benvenuti!Qui potrete trovare tutto il materiale didattico dei corsi della triennale e della specialistica di Misure Meccaniche e Termiche e di Misure di campi di grandezze meccaniche con immagini e onde. I corsi sono stati messi a disposizione per tutti, sia in formato PDF sia attraverso video registrazioni.
“Se non lo puoi misurarenon lo puoi migliorare”Lord Kelvin
Sistemi di misura di campi di grandezze meccaniche, di stress e strain, vibrazioni, acustici, fluidodinamici, e sensoristica innovativa per applicazioni di ricerca e sviluppo
Misure di campi di grandezze meccaniche con immagini e onde
Misure di campi di grandezze meccaniche con immagini e onde
Contenuti del corsoConcetto di misura e incertezza. Caratteristiche statiche e dinamiche degli strumenti di misura, misura delle principali grandezze meccaniche
“Se non lo puoi misurarenon lo puoi migliorare”Lord Kelvin
Capitolo 1 CONCETTO DI MISURA E DESCRIZIONE FUNZIONALE DEGLI STRUMENTI DI MISURACapitolo 2Unità di misura e riferibilitàCapitolo 3 Importanza e finalità della taratura staticaCapitolo 4 Modelli dinamici di sensori e strumentiCapitolo 5 Analisi dei segnali e taratura dinamicaCapitolo 6 Acquisizione ed analisi digitale dei segnaliCapitolo 7Misure di dimensioni e deformazioniCapitolo 8Sensori per misure di motoCapitolo 9Misure di forza, coppia e potenza meccanicaCapitolo 10 Misure di pressioneCapitolo 11 Misure acusticheCapitolo 12Misure di vibrazioniCapitolo 13Misure di temperaturaCapitolo 14Misure di velocità su flussiCapitolo 15Misure di portata
Contenuti del corsoConcetto di misura e incertezza. Caratteristiche statiche e dinamiche degli strumenti di misura, misura delle principali grandezze meccaniche
“Se non lo puoi misurarenon lo puoi migliorare”Lord Kelvin
Capitolo 1 CONCETTO DI MISURA E DESCRIZIONE FUNZIONALE DEGLI STRUMENTI DI MISURACapitolo 2Unità di misura e riferibilitàCapitolo 3 Importanza e finalità della taratura staticaCapitolo 4 Modelli dinamici di sensori e strumentiCapitolo 5 Analisi dei segnali e taratura dinamicaCapitolo 6 Acquisizione ed analisi digitale dei segnaliCapitolo 7Misure di dimensioni e deformazioniCapitolo 8Sensori per misure di motoCapitolo 9Misure di forza, coppia e potenza meccanicaCapitolo 10 Misure di pressioneCapitolo 11 Misure acusticheCapitolo 12Misure di vibrazioniCapitolo 13Misure di temperaturaCapitolo 14Misure di velocità su flussiCapitolo 15Misure di portata
Contenuti del corsoConcetto di misura e incertezza. Caratteristiche statiche e dinamiche degli strumenti di misura, misura delle principali grandezze meccaniche
“Se non lo puoi misurarenon lo puoi migliorare”Lord Kelvin
Capitolo 1 CONCETTO DI MISURA E DESCRIZIONE FUNZIONALE DEGLI STRUMENTI DI MISURACapitolo 2Unità di misura e riferibilitàCapitolo 3 Importanza e finalità della taratura staticaCapitolo 4 Modelli dinamici di sensori e strumentiCapitolo 5 Analisi dei segnali e taratura dinamicaCapitolo 6 Acquisizione ed analisi digitale dei segnaliCapitolo 7Misure di dimensioni e deformazioniCapitolo 8Sensori per misure di motoCapitolo 9Misure di forza, coppia e potenza meccanicaCapitolo 10 Misure di pressioneCapitolo 11 Misure acusticheCapitolo 12Misure di vibrazioniCapitolo 13Misure di temperaturaCapitolo 14Misure di velocità su flussiCapitolo 15Misure di portata
Contenuti del corsoSistemi di misura di campi di grandezze meccaniche, di stress e strain, vibrazioni, acustici, fluidodinamici, e sensoristica innovativa per applicazioni di ricerca e sviluppo
“Se non lo puoi misurarenon lo puoi migliorare”Lord Kelvin
Indice del corso di Misure di grandezze meccaniche
con immaini e onde
Capitolo 1 Onde meccaniche, acustiche, elettromagnetiche, il laser Capitolo 2Ottica geometrica, generazione di immagini analogiche, fotografia, componenti di sistemi ottici, telecamere Capitolo 2.1
Introduzione
Capitolo 2.2
Modello numerico formazione immagini
Capitolo 2.3
Componenti ottici, obiettivi, telecamere
Capitolo 3 Immagini digitali: come si generano e come si elaboranoCapitolo 4 Misure di forme 2D - Controlli dimensionali bidimensionali nelle industrie Capitolo 4.1
Introduzione
Capitolo 4.2
l’ Illuminazione
Capitolo 5 Misure di forme 3D da immagini – Stereovisione, fotomodellazione, luce strutturata Capitolo 5.1
Stereovisione, fotomodellazione
Capitolo 5.2
luce strutturata
Capitolo 6 Misure di forme 3D a scansione con metodi ottici, ultrasonici, raggi x Capitolo 6.1
Scansione meccanica
Capitolo 6.2
scansione a raggi x
Capitolo 7Misure di campi di moto e deformazione mediante elaborazione di immagini, fotoelasticita Capitolo 7.1
d.i.c. Digital Image Correlation
Capitolo 7.2
La Fotoelasticità per misurare campi di deformazione
Capitolo 8Misure di campi di temperatura, termografia Capitolo 8.1
MISURA DELLA TEMPERATURA BASATA SULLA RADIAZIONE EMESSA Da corpi
Capitolo 8.2
Termocamere FPA raffreddate e non raffreddate
Capitolo 9Misure di campi di stress, termoelasticitàCapitolo 10 misure di campi di vibrazione, vibrometria laser a scansione Capitolo 10.1
VIBROMETRIA LASER DOPPLER
Capitolo 10.2
PROGETTAZIONE VIBROACUSTICA DI COPERTURE PER TRASMISSIONI A CINGHIA
Capitolo 11 misure di campi di velocità di flussi, anemometria laser Doppler e PIV Capitolo 11.1
L.D.A. Laser Doppler Anemometry
Capitolo 11.2
P.I.V. Particle Image Velocimetry
Capitolo 12misure di campi di pressione, acustici, intensimetria, olografia, acoustic camera Capitolo 12.1
Misure di distribuzioni di pressione acustica, Campi acustici, potenza
acustica
Capitolo 12.2
Misure di distribuzioni di pressione meccanica di contatto tra corpi
Misure di campi di grandezze meccaniche con immagini e onde
Contenuti del corsoSistemi di misura di campi di grandezze meccaniche, di stress e strain, vibrazioni, acustici, fluidodinamici, e sensoristica innovativa per applicazioni di ricerca e sviluppo
“Se non lo puoi misurarenon lo puoi migliorare”Lord Kelvin
Indice del corso di Misure di grandezze meccaniche
con immaini e onde
Capitolo 1 Onde meccaniche, acustiche, elettromagnetiche, il laser Capitolo 2Ottica geometrica, generazione di immagini analogiche, fotografia, componenti di sistemi ottici, telecamere Capitolo 2.1
Introduzione
Capitolo 2.2
Modello numerico formazione immagini
Capitolo 2.3
Componenti ottici, obiettivi, telecamere
Capitolo 3 Immagini digitali: come si generano e come si elaboranoCapitolo 4 Misure di forme 2D - Controlli dimensionali bidimensionali nelle industrie Capitolo 4.1
Introduzione
Capitolo 4.2
l’ Illuminazione
Capitolo 5 Misure di forme 3D da immagini – Stereovisione, fotomodellazione, luce strutturata Capitolo 5.1
Stereovisione, fotomodellazione
Capitolo 5.2
luce strutturata
Capitolo 6 Misure di forme 3D a scansione con metodi ottici, ultrasonici, raggi x Capitolo 6.1
Scansione meccanica
Capitolo 6.2
scansione a raggi x
Capitolo 7Misure di campi di moto e deformazione mediante elaborazione di immagini, fotoelasticita Capitolo 7.1
d.i.c. Digital Image Correlation
Capitolo 7.2
La Fotoelasticità per misurare campi di deformazione
Capitolo 8Misure di campi di temperatura, termografia Capitolo 8.1
MISURA DELLA TEMPERATURA BASATA SULLA RADIAZIONE EMESSA Da corpi
Capitolo 8.2
Termocamere FPA raffreddate e non raffreddate
Capitolo 9Misure di campi di stress, termoelasticitàCapitolo 10 misure di campi di vibrazione, vibrometria laser a scansione Capitolo 10.1
VIBROMETRIA LASER DOPPLER
Capitolo 10.2
PROGETTAZIONE VIBROACUSTICA DI COPERTURE PER TRASMISSIONI A CINGHIA
Capitolo 11 misure di campi di velocità di flussi, anemometria laser Doppler e PIV Capitolo 11.1
L.D.A. Laser Doppler Anemometry
Capitolo 11.2
P.I.V. Particle Image Velocimetry
Capitolo 12misure di campi di pressione, acustici, intensimetria, olografia, acoustic camera Capitolo 12.1
Misure di distribuzioni di pressione acustica, Campi acustici, potenza
acustica
Capitolo 12.2
Misure di distribuzioni di pressione meccanica di contatto tra corpi
Misure di campi di grandezze meccaniche con immagini e onde
Contenuti del corsoSistemi di misura di campi di grandezze meccaniche, di stress e strain, vibrazioni, acustici, fluidodinamici, e sensoristica innovativa per applicazioni di ricerca e sviluppo
“Se non lo puoi misurarenon lo puoi migliorare”Lord Kelvin
Indice del corso di Misure di grandezze meccaniche
con immaini e onde
Capitolo 1 Onde meccaniche, acustiche, elettromagnetiche, il laser Capitolo 2Ottica geometrica, generazione di immagini analogiche, fotografia, componenti di sistemi ottici, telecamere Capitolo 2.1
Introduzione
Capitolo 2.2
Modello numerico formazione immagini
Capitolo 2.3
Componenti ottici, obiettivi, telecamere
Capitolo 3 Immagini digitali: come si generano e come si elaboranoCapitolo 4 Misure di forme 2D - Controlli dimensionali bidimensionali nelle industrie Capitolo 4.1
Introduzione
Capitolo 4.2
l’ Illuminazione
Capitolo 5 Misure di forme 3D da immagini – Stereovisione, fotomodellazione, luce strutturata Capitolo 5.1
Stereovisione, fotomodellazione
Capitolo 5.2
luce strutturata
Capitolo 6 Misure di forme 3D a scansione con metodi ottici, ultrasonici, raggi x Capitolo 6.1
Scansione meccanica
Capitolo 6.2
scansione a raggi x
Capitolo 7Misure di campi di moto e deformazione mediante elaborazione di immagini, fotoelasticita Capitolo 7.1
d.i.c. Digital Image Correlation
Capitolo 7.2
La Fotoelasticità per misurare campi di deformazione
Capitolo 8Misure di campi di temperatura, termografia Capitolo 8.1
MISURA DELLA TEMPERATURA BASATA SULLA RADIAZIONE EMESSA Da corpi
Capitolo 8.2
Termocamere FPA raffreddate e non raffreddate
Capitolo 9Misure di campi di stress, termoelasticitàCapitolo 10 misure di campi di vibrazione, vibrometria laser a scansione Capitolo 10.1
VIBROMETRIA LASER DOPPLER
Capitolo 10.2
PROGETTAZIONE VIBROACUSTICA DI COPERTURE PER TRASMISSIONI A CINGHIA
Capitolo 11 misure di campi di velocità di flussi, anemometria laser Doppler e PIV Capitolo 11.1
L.D.A. Laser Doppler Anemometry
Capitolo 11.2
P.I.V. Particle Image Velocimetry
Capitolo 12misure di campi di pressione, acustici, intensimetria, olografia, acoustic camera Capitolo 12.1
Misure di distribuzioni di pressione acustica, Campi acustici, potenza
acustica
Capitolo 12.2
Misure di distribuzioni di pressione meccanica di contatto tra corpi
Misure di campi di grandezze meccaniche con immagini e onde