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Giuseppe Acciani
Instituto Politécnico Nacional
Machine learningControl engineeringPattern recognitionComputer scienceArtificial neural network
66Publications
11H-index
379Citations
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Publications 68
Newest
#1edit Francesco Torelli (IPN: Instituto Politécnico Nacional)
#2Pasquale Montegiglio (IPN: Instituto Politécnico Nacional)H-Index: 7
Last. Giuseppe Acciani (IPN: Instituto Politécnico Nacional)H-Index: 11
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A control approach inspired to sliding-mode theory is proposed in this work. The procedure is based on assuming the system steady-state condition as the Sliding Manifold (SM), which becomes a natural domain of attraction for the closed-loop system. The control action - designed through a tracking algorithm based on Lyapunov and Sensitivity theory - drives the system trajectory on the SM until the prefixed equilibrium point is asymptotically reached. While on the SM, the controlled system dynamic...
#2Claudio MaruccioH-Index: 6
Last. Stefan SeeleckeH-Index: 24
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#2Giuseppe AccianiH-Index: 11
Last. F. TorelliH-Index: 15
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#1Giuseppe Acciani (IPN: Instituto Politécnico Nacional)H-Index: 11
#2Filomena Di Modugno (IPN: Instituto Politécnico Nacional)H-Index: 2
Last. GiuseppeCarloMarano (IPN: Instituto Politécnico Nacional)H-Index: 9
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Deterministic mechanical systems subject to stochastic dynamic actions, such as wind or earthquakes, have to be properly evaluated using a stochastic approach. For nonlinear mechanical systems it is necessary to approximate solutions using mathematical tools, as the stochastic equivalent linearization. It is a simple approach from the theoretical point of view, but needs numerical techniques whose computational complexity increases in case of nonstationary excitations. In this paper a procedure ...
3 CitationsSource
Jun 1, 2016 in EEEIC (International Conference on Environment and Electrical Engineering)
#1Giuseppe AccianiH-Index: 11
#2Ernesto MininnoH-Index: 15
Last. Filomena Di ModugnoH-Index: 2
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Apr 1, 2016 in EuroSimE (International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and Microsystems)
#1Giuseppe Acciani (IPN: Instituto Politécnico Nacional)H-Index: 11
#2Filomena Di Modugno (IPN: Instituto Politécnico Nacional)H-Index: 2
Last. Pasquale Montegiglio (IPN: Instituto Politécnico Nacional)H-Index: 7
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The growing research interest coming from the wide diffusion of wireless micro sensors and small electronic devices has given input on several studies towards Energy Harvesting (EH) as possible alternative to their powering in untraditional way. In the EH field the use of piezoelectric materials is developing rapidly. In this scenery, the aim of this paper is to evaluate the experimental and simulated behaviour and performances of an energy harvester, with the shape of a piezoelectric cantilever...
4 CitationsSource
#1Giuseppe AccianiH-Index: 11
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#1Giuseppe AccianiH-Index: 11
#2Francesco AdamoH-Index: 14
Last. Giancarlo GelaoH-Index: 1
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Energy Harvesting (EH) is the science that studies the conversion of energy dispersed in environment into a different and more useful form of energy, mainly the electrical one. In recent years, several energy-harvesting devices using piezoelectric materials have been developed to transform environmental vibrations into electrical energy. Since most piezoelectric energy harvesters are in form of cantilevered beams, the aim of this paper is to model and simulate a cantilever beam as energy harvest...
#1Giuseppe Acciani (IPN: Instituto Politécnico Nacional)H-Index: 11
#2Filomena Di Modugno (IPN: Instituto Politécnico Nacional)H-Index: 2
Last. Ernesto Mininno (IPN: Instituto Politécnico Nacional)H-Index: 15
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The aim of this paper is to model and simulate a cantilever beam as energy harvester to expose to wind vibrations. A mathematical model describes the behavior of cantilever beam and the electromechanical coupling, using piezoelectric constitutive equations. An experimental setup of a fixed configuration (dimensions, materials, boundaries and shape) is performed by means of such device and the effects caused by the wind force on the cantilever are analyzed. The same device is used for a simulatio...
2 CitationsSource
#1Giuseppe AccianiH-Index: 11
Last. G. FornarelliH-Index: 11
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