Search results for " Devices"

showing 10 items of 517 documents

Characterization of MEMS accelerometer self-noise by means of PSD and Allan Variance analysis

2017

In this paper, we have studied the sources of error of a low-cost 3-axis MEMS accelerometer by means of Power Spectral Density and Allan Variance techniques. These techniques were applied to the signals acquired from ten identical devices to characterize the variability of the sensor produced by the same manufacturer. Our analysis showed as identically produced accelerometer have somehow variable behavior in particular at low frequency. It is therefore of paramount importance before their use in Inertial Navigation or Earthquakes Monitoring System, a complete characterization of each single sensors.

Microelectromechanical systemsEngineering010504 meteorology & atmospheric sciencesbusiness.industrySpectral densityLow frequency010502 geochemistry & geophysicsAccelerometer01 natural sciencesCharacterization (materials science)AccelerationSettore ING-INF/04 - AutomaticaElectronic engineeringAllan varianceAccelerometers Micromechanical devices Standards Earthquakes Acceleration Monitoring Inertial navigationbusinessInertial navigation system0105 earth and related environmental sciences2017 7th IEEE International Workshop on Advances in Sensors and Interfaces (IWASI)
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An integrated Tissue Engineering approach to Human Bronchial model: Biodegradable Scaffold and Microfluidics Platform

L’ingegneria tissutale è la combinazione di cellule, materiali e metodi di ingegneria, insieme con opportuni fattori biochimici e fisico-chimici, volta a migliorare o sostituire le funzioni biologiche di tessuti danneggiati [1, 2]. A tal proposito supporti porosi e sistemi microfluidici sono utilizzati per scopi di ingegneria tissutale. Scaffold polimerici biodegradabili sono stati sfruttati come supporti strutturali per rigenerare vari tessuti quali ossa, cartilagini, nervi, legamenti, pelle e fegato. Una geometria porosa aperta con canali interconnessi è un prerequisito per la crescita cellulare ad alta densità e per un trasporto di nutrienti, ossigeno e prodotti di scarto metabolici. …

Microfluidics deviceHuman bronchial mucosaSettore ING-IND/24 - Principi Di Ingegneria ChimicaTissue engineering; Biodegradable membranes; Microfluidics devices; Human bronchial mucosa;Tissue engineeringBiodegradable membrane
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Minimum displacement design of base isolation devices

2014

Minimum displacement optimal design base isolation devicesSettore ICAR/08 - Scienza Delle Costruzioni
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La hora de la evaluación ambulatoria [Recurso electrónico] = The time of ambulatory assessment /

2022

La evaluación ambulatoria aglutina un conjunto de métodos que permiten evaluar mediante dispositivos móviles, y en múltiples momentos temporales, el comportamiento de las personas en su entorno natural y contexto diario. Permite una evaluación más precisa, dinámica, contextual e ideográfica que los métodos clásicos, abriendo nuevos horizontes con claras implicaciones para el diagnóstico y la intervención psicológica. El objetivo de este trabajo es realizar una introducción a la evaluación ambulatoria. En primer lugar, se realiza una delimitación conceptual y se comentan las cuestiones que viene a solucionar y sus posibles beneficios. En segundo lugar, se exponen aspectos relacionados con la…

Modelo contextualElectronics devicesMuestreo de experienciasExperience sampling methodologyEvaluación ambulatoriaContextual modelAmbulatory assessmentDispositivos electrónicosEcological momentary assessmentEvaluación ecológica momentánea
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Scaffold and scaffold-free self-assembled systems in regenerative medicine.

2016

Self-assembly in tissue engineering refers to the spontaneous chemical or biological association of components to form a distinct functional construct, reminiscent of native tissue. Such self-assembled systems have been widely used to develop platforms for the delivery of therapeutic and/or bioactive molecules and various cell populations. Tissue morphology and functional characteristics have been recapitulated in several self-assembled constructs, designed to incorporate stimuli responsiveness and controlled architecture through spatial confinement or field manipulation. In parallel, owing to substantial functional properties, scaffold-free cell-assembled devices have aided in the developm…

Modular engineeringTissue EngineeringTissue ScaffoldsCell-assembled devicesSettore CHIM/09 - Farmaceutico Tecnologico ApplicativoBiomimetic MaterialsGuided Tissue RegenerationHumansSelf-assemblyRegenerative MedicineDelivery of biologicsStimuli-responsive polymersExtracellular MatrixBiotechnology and bioengineering
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Technological advancements in the analysis of human motion and posture management through digital devices

2021

Technological development of motion and posture analyses is rapidly progressing, especially in rehabilitation settings and sport biomechanics. Consequently, clear discrimination among different measurement systems is required to diversify their use as needed. This review aims to resume the currently used motion and posture analysis systems, clarify and suggest the appropriate approaches suitable for specific cases or contexts. The currently gold standard systems of motion analysis, widely used in clinical settings, present several limitations related to marker placement or long procedure time. Fully automated and markerless systems are overcoming these drawbacks for conducting biomechanical…

Motion analysisRehabilitationbusiness.industryEmerging technologiesmedicine.medical_treatmentPostureRasterstereographyReviewSports biomechanicsMotion captureMotion (physics)Wearable devicesInertial measurement unitRisk analysis (engineering)Gait analysisGait analysis; Inertial measurement unit; Motion capture; Posture; Rasterstereography; Wearable devicesMedicineOrthopedics and Sports MedicineGait analysisbusinessMotion captureWearable technology
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Field-driven domain wall motion under a bias current in the creep andflow regimes in Pt/[CoSiB/Pt](N) nanowires

2016

AbstractThe dynamics of magnetic domain wall (DW) in perpendicular magnetic anisotropy Pt/[CoSiB/Pt]N nanowires was studied by measuring the DW velocity under a magnetic field (H) and an electric current (J) in two extreme regimes of DW creep and flow. Two important findings are addressed. One is that the field-driven DW velocity increases with increasing N in the flow regime, whereas the trend is inverted in the creep regime. The other is that the sign of spin current-induced effective field is gradually reversed with increasing N in both DW creep and flow regimes. To reveal the underlying mechanism of new findings, we performed further experiment and micromagnetic simulation, from which w…

MultidisciplinaryMaterials scienceMagnetic domainCondensed matter physicsSpintronicsMagnetic devices02 engineering and technology021001 nanoscience & nanotechnology01 natural sciencesArticleAmorphous solidMagnetic fieldDomain wall (magnetism)Creep0103 physical sciencesElectronic devicesElectric current010306 general physics0210 nano-technologyAnisotropySimulation
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Exploiting real-world data to monitor physical activity in patients with osteoarthritis: the opportunity of digital epidemiology.

2022

Osteoarthritis is a degenerative joint disease that affects millions of people worldwide. Current guidelines emphasize the importance of regular physical activity as a preventive measure against disease progression and as a valuable strategy for pain and functionality management. Despite this, most patients with osteoarthritis are inactive. Modern technological advances have led to the implementation of digital devices, such as wearables and smartphones, showing new opportunities for healthcare professionals and researchers to monitor physical activity and therefore engage patients in daily exercising. Additionally, digital devices have emerged as a promising tool for improving frequent hea…

MultidisciplinaryPhysical activityDigital epidemiologyOsteoarthritisDigital devicesExerciseHeliyon
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Multivariate correlation measures reveal structure and strength of brain–body physiological networks at rest and during mental stress

2021

In this work, we extend to the multivariate case the classical correlation analysis used in the field of network physiology to probe dynamic interactions between organ systems in the human body. To this end, we define different correlation-based measures of the multivariate interaction (MI) within and between the brain and body subnetworks of the human physiological network, represented, respectively, by the time series of delta, theta, alpha, and beta electroencephalographic (EEG) wave amplitudes, and of heart rate, respiration amplitude, and pulse arrival time (PAT) variability. MI is computed: (i) considering all variables in the two subnetworks to evaluate overall brain–body interaction…

Multivariate statisticsTechnology and EngineeringElectroencephalographybrain-heart connectionNetwork topologynetwork physiologylcsh:RC321-571Correlation03 medical and health sciences0302 clinical medicinewearable devicesMedicine and Health SciencesmedicineMultiple correlationSubnetworklcsh:Neurosciences. Biological psychiatry. Neuropsychiatryinformation theory030304 developmental biologyMathematicsOriginal Researchphysiological stressbrain-body interactionsNetwork physiology brain–heart connection cardiovascular oscillations EEG waves physiological stress time series analysis wearable devices0303 health sciencesnetwork physiology; brain-heart connection; cardiovascular oscillations; EEG waves; physiological stressmedicine.diagnostic_testPulse (signal processing)General NeuroscienceCardiorespiratory fitnessbrain–heart connectionMathematics and Statisticscardiovascular oscillationsnetworkstime series analysisphysiologySettore ING-INF/06 - Bioingegneria Elettronica E InformaticaNeuroscience030217 neurology & neurosurgeryEEG wavesNeuroscience
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Flat-top ultra-wideband photonic filters based on mutual coherence function synthesis

2008

A novel all-incoherent optical circuit that allows for band-pass microwave-photonic filter design is presented and verified through numerical simulation. In contrast to conventional spectrum-sliced optical architectures that operate on the basis of a finite number of discrete taps, our proposal is based on arbitrary shaping of the spectrum of the broadband optical source in a conventional frequency encoder. This fact dramatically increases the free spectral range of the filter with respect to the conventional discrete-time optical processing. The filter transfer function is given by the mutual coherence function of the filtered source which allows, through an inverse problem, sculpting the …

Mutual coherenceComputer sciencebusiness.industryResonanceUltra-widebandOptical signal processingOptoelectronic devicesTransfer functionAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsAdaptive filterFilter designOpticsCoherence theoryFilter (video)Dispersion (optics)BasebandElectrical and Electronic EngineeringPhysical and Theoretical ChemistryPhotonicsbusinessFree spectral rangeRoot-raised-cosine filterOptics Communications
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