Post on 16-Feb-2019
CURRICULUM VITAEIN STANDARD
EUROPEAN FORMAT
PERSONAL INFORMATION
Name
Address
Telephone
Nationality
PESARESI EMANUELE RIMINI, VIA CONSOLARE 117,CAP 47924
3393908700
emanuele.pesaresi2@unibo.it
Italian
23rd of June 1992
1/11/2017 - ongoing
University of Bologna
Research in the field of mechanical vibrations (see RESEARCH INTERESTS for further detail)
Page 1 - Curriculum vitae Pesaresi,Emanuele
• Dates (from- to)• Name of educational institution
• Main subjects I professionalskills developed
2015-2017 University of Bologna- Forlì Branch - Master of Science in Mechanical Engineering
• Qualification attained
• Level of the attained qualififcation
Master of Science in Mechanical Engineering: 110/110 cum laudeDissertation: "Leptokurtic signals in random control vibration testing " Supervisor: Prof. Marco Troncossi
Laurea Magistrale, equivalent to the Master of Science (M.Sc.) Degree
Birth date
EDUCATION
• Date s(from- to)
• Name of educational institution
• Main subjects I professional
skills developed
Qualification attained• PhD student, scolarship winner, pertaining to the XXXIII cycle of Mechanics and Advanced Sciences of Engineering (DIMSAI)
Page 2 - Curriculum vitae Pesaresi, Emanuele
• Qualification attained
• Level of the attained qualififcation
Bachelor of Science in Mechanical Engineering: 110/110 cum laudeDissertation: "Control of a compressed air plant to reduce the starts of the compressor via a hybrid feedforward-feedback regulator" (in Italian) Supervisor: Prof. Matteo Zanzi
Laurea triennale, equivalent to the Bachelor of Science (B.Sc) Degree
Other language • Reading skills• Writing skiils•Oral expression skiils
EnglishExcellentExcellentExcellent(I attended several courses, among which the "First" held at Rimini's British school; besides, I took an Erasmus Exchange exam during my B.Sc in Forlì, where I was acknowledged a C1 level )
PERSONAL SKILLS AND
EXPERTISE
MOTHERTONGUE Italian
• Date s(from - to)• Name of educational institution
• Main subjects I professional
skills developed
2011-2015 University of Bologna- Forlì Branch - Bachelor of Science in Mechanical Engineering
• Dates (from-to)
• Name of educational institution
• Main subjects | Professional
skills developed
• Qualification attained• Livello nella classificazione
2006-2011
Liceo Scientifico "Albert Einstein", Rimini (Italy)
Knowledge of theoretical Scientific subjects: Mathematics,Physics
Diploma di maturità: 87/100 (high school diploma)
Diploma of Upper Secondary School Education nazionale
SKILLS AND EXPERTISE
OTHER SKILLS
DRIVING LICENSE
Page 3 - Curriculum vitae
Pesaresi, Emanuele
Solid Works
CoDeSys
Matlab&Simulink
App Designer (Matlab)
CAD
PLC Software
Analytical/Design Software
GUI/APP development Software
Altri Microsoft Office
Daily use of a personal computer, Internet and e-mail
Category B License
SOCIAL SKILLS AND EXPERTISE As of 2015 I give, even though occasionally, private lessions in scientific subjects such as: Mathematics, Physics, Algebra e Geometry, Calculus I e II, Control Theory, Mechanics of Machines, for both University and high School students.
RESEARCH INTEREST State of the Art
In the field of random vibration testing it is common practice to carry out tests in order to ascertain components suitability to resist the dynamic loads induced by vibrations during their operational lifetime. The literature abounds with prescribed methodologies, some of which formalized in Standards (e.g. MIL-STD810, NATO, RTCA DO160), to synthesize signals (Mission Synthesis) that can be used to conduct the tests. Nevertheless, over the last decades these general practices are conceding ground to tests tailored in accordance with the application (starting from measured vibrations) and independent from the component to be tested (Test Tailoring). Since most operational lifetimes exceed hundreds of thousands of hours, it would be unfeasible to replicate signals of such long durations. Hence, accelerated tests , which must be able to cause the same fatigue damage to the component to be tested as experienced in the real application, are required. The damage potential of a vibration excitation is quantified in terms of a spectral function called Fatigue Damage Spectrum (FDS), which is generally computed from signals measured in real applications, hereinafter referred to as reference signals. The damage induced during accelerated tests must be equivalent to the damage potential associated with the measured vibrations acting on the component during its entire operational lifetime. The generation of the test signal is therefore based on the equivalence of the FDS functions of the reference and synthesized signals.
Page 4- Curriculum vitae
Pesaresi, Emanuele
Current algorithms implemented in some commercial software permit to synthesize a Power Spectral Density (PSD) from a given FDS. From the PSD and a prescribed duration of the signal to be synthesized, the shaker generates the actual vibration that has a damage potential equivalent to that of the application.The greatest downside of these common procedures is that the synthesized signals always have a Gaussian probability distribution of values. This could be a limitation whenever reference signals are non-Gaussian (e.g. they may contain peaks caused by road bumps, micro-collisions, etc.). Since non-Gaussian signals are preponderant in real applications, the necessity for novel methodologies can thus be justified. A simple and useful statistical parameter accounting for the non-Gaussianity of a signal is the kurtosis, which gives a rough estimate of the content of high peaks of a signal.Gaussian signals have a theoretical kurtosis value of 3.0, whereas Leptokurtic signals (i.e. signals with some prevailing high peaks) features greater values and Platykurtic signals (i.e. signals containing deterministic components) lower values.In parallel with Test Tailoring, kurtosis control methods have been developed. Their purpose is the synthesis of signals with a prescribed PSD and kurtosis value, without directly controlling the FDS.A first approach towards non-Gaussian signals has been made in the candidate’s MSc dissertation, in which algorithms aiming at the synthesis of signals with a prescribed PSD and a target kurtosis were described. In the candidate’s first PhD year, the natural extension of these algorithms was the incorporation of the FDS control, in addition to the kurtosis control and several algorithms with different features were developed. The FDS control added to kurtosis control is fundamental from the perspective of making accelerated tests increasingly realistic and reliable, since the nature of the reference signals should be replicated together with the damage that a component experiences during its operational life. Besides, the collaboration with industries interested in the project led to the development of graphic user interfaces (GUI) implementing both the standard and novel algorithms.
Future Developments
On the basis of the developed algorithms, extensive experimental campaigns have to be performed in order to validate the newly found methods. The very first steps will be the design of specimens and fixtures to be used and the definition of suitable experimental procedures to compare the results obtained from the application of the standard and novel Mission Synthesis algorithms. Then proper signal processing techniques will be investigated in order to extract as much information as possible from the comparison of numerical and experimental data. On a theoretical level, other new methodologies of Mission Synthesis will be investigated, possibly using advanced theories such as Wavelets and Kurtogram.Another possibility is the modification of the hypotheses at the basis of the FDS function, which may be excessively simplistic.
DISSEMINATION International Conference papers:–Pesaresi E. , Troncossi M., " Synthesis of vibration signals with prescribed power spectral density and kurtosis value", Proceedings of ISMA2018, September 17-19, 2018, Leuven (Belgium)–Troncossi M., Pesaresi E. , “Mission Synthesis of High-Kurtosis Signals for Vibration-based Fatigue Life Testing”, Proceedings of RASD2019, April 15-17, 2019, Lyon (France), SUBMITTED AND ACCEPTEDNational Workshop abstract:–Pesaresi E. , Troncossi M., “Test Accelerati di Qualifica a Vibrazione: Sviluppo di Nuovi Software di Mission Synthesis”, Quaderni del DIN – GMA. Atti della XII Giornata di Studio Ettore Funaioli, 20 July, 2018, Bologna (Italy)