Your search keyword '"Luca Landi"' showing total 5 results

1. On the Use of Singular Vectors for the Flexibility-Based Damage Detection under the Assumption of Unknown Structural Masses

Author

Said Quqa, Luca Landi, and Pier Paolo Diotallevi

Subjects

Physics, QC1-999

Abstract

The main purpose of this work is to investigate the usability of easily obtainable parameters instead of the modal traditional ones, in the context of a flexibility-based damage detection procedure, under the assumption of unknown structural masses. To this aim, a comparison is made between two different approaches: the first involves the calculation of the flexibility matrix by using traditional modal parameters, such as natural frequencies and modal vectors, normalized to unitary values, while the second involves the use of singular vectors, obtained through a simple matrix factorization. The modal parameters and the singular vectors necessary for the implementation of the damage detection procedure are evaluated through two different techniques: the Eigensystem Realization Algorithm and a wavelet-based procedure, for which a variant is proposed by introducing the energy reassignment concept into the original algorithm. Through the latter approach, in particular, it is possible to obtain a high number of singular vectors even in the case of reduced availability of sensors. The study is performed under the assumption of nonstationary excitation, in order to achieve general results, and the effectiveness of the procedures is evaluated through simulated tests regarding different structural schemes.

Published

2018

2. Perioprosthetic and Implant-Supported Rehabilitation of Complex Cases: Clinical Management and Timing Strategy

Author

Luca Landi, Stefano Piccinelli, Roberto Raia, Fabio Marinotti, and Paolo Francesco Manicone

Subjects

Dentistry, RK1-715

Abstract

Treatment of complex perioprosthetic cases is one of the clinical challenges of everyday practice. Only a complete and thorough diagnostic setup may allow the clinician to formulate a realistic prognosis to select the abutments to support prosthetic rehabilitation. Clinical, radiographic, or laboratory parameters used separately are useless to correctly assign a reliable prognosis to single teeth except in the case of a clearly hopeless tooth. Therefore, it is crucial to gather the greatest quantity of data to determine the role that every single element can play in the prosthetic rehabilitation of the case. The following report deals with the management of a multidisciplinary periodontally compromised case in which a treatment strategy and chronology were designed to reach clinical predictability while reducing the duration of the therapy.

Published

2016

3. Simulation and Experiment of New Ultrasonic Vibration Network

Author

Xiwen Chen, Xiaoqian Li, Weihua Gui, and Luca Landi

Subjects

0209 industrial biotechnology, Materials science, Article Subject, 020502 materials, Mechanical Engineering, Acoustics, Physics, QC1-999, Spectral density, 02 engineering and technology, Edge (geometry), Geotechnical Engineering and Engineering Geology, Condensed Matter Physics, Vibration, Honeycomb structure, 020901 industrial engineering & automation, 0205 materials engineering, Mechanics of Materials, Casting (metalworking), Honeycomb, Ultrasonic sensor, Ingot, Civil and Structural Engineering

Abstract

A reasonable ultrasonic vibration network can improve the casting quality of aluminum alloy. Ultrasonic vibration network based on a honeycomb structure has been designed, referred to as a new vibration network. The new vibration network can solve the problems of nonuniform distribution of power ultrasonic wave, small working area and low volume of ultrasonic vibration network, low efficiency of the frequency spectrum and power spectrum, and poor quality of aluminum alloy casting. The number of vibration nodes can be determined based on the number of layers of the vibration source nodes. The edge length of regular hexagonal honeycomb cells can be determined based on the size of the casting ingot. The output power and resonant frequency of the ultrasonic vibration network can be adjusted in real time according to the status of aluminum alloy melt. A seven-node new ultrasonic network and a four-node ultrasonic network with a traditional structure were selected and used in the experiment and simulation of a 500 mm diameter 2219 aluminum alloy ingot. In comparison with the traditional four-node ultrasonic network, the effective volume and area, frequency spectrum efficiency, and comprehensive coverage probability of the seven-node new ultrasonic vibration network increased by 34.06%, 23.12%, 17.25%, and 0.308, respectively. The difference between the desired value and average efficiency of the power spectrum was 0.292 W/cm2, and the average grain size of aluminum alloy decreased by 34.98 microns. These results indicate that the efficiency of ultrasonic-vibration-assisted casting system and the quality of aluminum alloy casting can be improved using the new ultrasonic vibration network.

Published

2020

4. On the Use of Singular Vectors for the Flexibility-Based Damage Detection under the Assumption of Unknown Structural Masses

Author

Pier Paolo Diotallevi, Said Quqa, Luca Landi, ARAG - AREA FINANZA E PARTECIPATE, and DIPARTIMENTO DI INGEGNERIA CIVILE, CHIMICA, AMBIENTALE E DEI MATERIALI

Subjects

Article Subject, Computer science, Structural Health Monitoring, vibration-based damage detection, dynamic identification, Singular Value Decomposition, wavelet transform, unknown masses, 020101 civil engineering, Context (language use), Singular Value Decomposition, 02 engineering and technology, vibration-based damage detection, 0201 civil engineering, Matrix decomposition, 0203 mechanical engineering, Structural Health Monitoring, Singular value decomposition, wavelet transform, Civil and Structural Engineering, Mechanical Engineering, Wavelet transform, dynamic identification, Geotechnical Engineering and Engineering Geology, Condensed Matter Physics, lcsh:QC1-999, 020303 mechanical engineering & transports, Modal, Mechanics of Materials, Flexibility method, Structural health monitoring, Eigensystem realization algorithm, Algorithm, lcsh:Physics, unknown masses

Abstract

none 3 no Themain purpose of this work is to investigate the usability of easily obtainable parameters instead of the modal traditional ones, in the context of a flexibility-based damage detection procedure, under the assumption of unknown structural masses. To this aim, a comparison is made between two different approaches: the first involves the calculation of the flexibilitymatrix by using traditional modal parameters, such as natural frequencies and modal vectors, normalized to unitary values, while the second involves the use of singular vectors, obtained through a simple matrix actorization.Themodal parameters and the singular vectors necessary for the implementation of the damage detection procedure are evaluated through two different techniques: the Eigensystem Realization Algorithm and a wavelet-based procedure, for which a variant is proposed by introducing the energy reassignment concept into the original algorithm. Through the latter approach, in particular, it is possible to obtain a high number of singular vectors even in the case of reduced availability of sensors. The study is performed under the assumption of nonstationary excitation, in order to achieve general results, and the effectiveness of the procedures is evaluated through simulated tests regarding different structural schemes. open Said Quqa, Luca Landi, Pier Paolo Diotallevi Said Quqa, Luca Landi, Pier Paolo Diotallevi

Published

2018

5. Perioprosthetic and Implant-Supported Rehabilitation of Complex Cases: Clinical Management and Timing Strategy

Author

Fabio Marinotti, Roberto Raia, Paolo Francesco Manicone, Luca Landi, and Stefano Piccinelli

Subjects

medicine.medical_specialty, Prosthetic rehabilitation, medicine.medical_treatment, periodontal disease, Case Report, Single element, Settore MED/28 - MALATTIE ODONTOSTOMATOLOGICHE, 03 medical and health sciences, 0302 clinical medicine, Multidisciplinary approach, medicine, Medical physics, Duration (project management), 030223 otorhinolaryngology, General Dentistry, Rehabilitation, business.industry, implant therapy, RK1-715, 030206 dentistry, prosthetic treatment, Dentistry, Physical therapy, Treatment strategy, business, Implant supported

Abstract

Treatment of complex perioprosthetic cases is one of the clinical challenges of everyday practice. Only a complete and thorough diagnostic setup may allow the clinician to formulate a realistic prognosis to select the abutments to support prosthetic rehabilitation. Clinical, radiographic, or laboratory parameters used separately are useless to correctly assign a reliable prognosis to single teeth except in the case of a clearly hopeless tooth. Therefore, it is crucial to gather the greatest quantity of data to determine the role that every single element can play in the prosthetic rehabilitation of the case. The following report deals with the management of a multidisciplinary periodontally compromised case in which a treatment strategy and chronology were designed to reach clinical predictability while reducing the duration of the therapy.

Published

2016