Search results for "Micro-Electrical-Mechanical Systems"

showing 6 items of 6 documents

Sprint mechanics evaluation using inertial sensor-based technology: A laboratory validation study.

2018

Advances in micro-electromechanical systems have turned magnetic inertial measurement units (MIMUs) into a suitable tool for vertical jumping biomechanical evaluation. Thus, this study aimed to determine whether appropriate reliability and agreement reports could also be obtained when analyzing 20-m sprint mechanics. Four bouts of 20-m sprints were evaluated to determine whether the data provided by a MIMU placed at the lumbar spine could reliably assess sprint mechanics and to examine the validity of the MIMU sensor compared to force plate recordings. Maximal power (P0), force (F0), and velocity (V0), as well as other mechanical determinants of sprint performance associated with the force-…

AdultMaleValidation studyInertial frame of referenceValidityPhysical Therapy Sports Therapy and RehabilitationAthletic PerformancebiomechanicsjuoksuRunningCorrelation03 medical and health sciences0302 clinical medicineinertial unitValidationInertial unitSprint mechanicsHumansBiomechanicsOrthopedics and Sports Medicineta315Reliability (statistics)MathematicsvalidationBiomechanicsLumbosacral RegionReproducibility of Results030229 sport sciencesMechanicsMicro-Electrical-Mechanical SystemsR-value (insulation)pikajuoksuBiomechanical PhenomenaSprintsprint mechanicsvalidointibiomekaniikka030217 neurology & neurosurgeryScandinavian journal of medicinescience in sports
researchProduct

Practical strategies for stable operation of HFF-QCM in continuous air flow

2013

Currently there are a few fields of application using quartz crystal microbalances (QCM). Because of environmental conditions and insufficient resolution of the microbalance, chemical sensing of volatile organic compounds in an open system was as yet not possible. In this study we present strategies on how to use 195 MHz fundamental quartz resonators for a mobile sensor platform to detect airborne analytes. Commonly the use of devices with a resonant frequency of about 10 MHz is standard. By increasing the frequency to 195 MHz the frequency shift increases by a factor of almost 400. Unfortunately, such kinds of quartz crystals tend to exhibit some challenges to obtain a reasonable signal-to…

Air MovementsAir PollutantsVolatile Organic Compounds540 Chemistry and allied sciencesAtmospherelaminar flow elementEquipment DesignMicro-Electrical-Mechanical Systemslcsh:Chemical technologyturbulencesArticletemperature gradientEquipment Failure Analysisquartz crystal microbalance540 Chemielcsh:TP1-1185high fundamental frequencyacceleration sensitivityRheologyallan deviationEnvironmental Monitoring
researchProduct

Power Consumption Analysis of Operating Systems for Wireless Sensor Networks

2010

In this paper four wireless sensor network operating systems are compared in terms of power consumption. The analysis takes into account the most common operating systems-TinyOS v1.0, TinyOS v2.0, Mantis and Contiki-running on Tmote Sky and MICAz devices. With the objective of ensuring a fair evaluation, a benchmark composed of four applications has been developed, covering the most typical tasks that a Wireless Sensor Network performs. The results show the instant and average current consumption of the devices during the execution of these applications. The experimental measurements provide a good insight into the power mode in which the device components are running at every moment, and t…

EngineeringReal-time computingConservation of Energy Resourceslcsh:Chemical technologycomputer.software_genreBiochemistryContikiArticleAnalytical ChemistryTECNOLOGIA ELECTRONICAComputer Communication NetworksElectric Power SuppliesElectricitylcsh:TP1-1185MICAzElectrical and Electronic EngineeringInstrumentationWireless sensor network operating systemsElectric Power Suppliesbusiness.industryTinyOSSignal Processing Computer-AssistedMantisMicro-Electrical-Mechanical SystemsAtomic and Molecular Physics and Opticswireless sensor network operating systems; TinyOS; Mantis; Contiki; MICAz; TmoteMoment (mathematics)Key distribution in wireless sensor networksPower consumptionEmbedded systemRemote Sensing TechnologyBenchmark (computing)Operating systemAverage currentElectricitybusinessWireless TechnologyWireless sensor networkcomputerTmote
researchProduct

Tunable Strong Coupling of Mechanical Resonance between Spatially Separated FePS3 Nanodrums

2021

Coupled nanomechanical resonators made of two-dimensional materials are promising for processing information with mechanical modes. However, the challenge for these types of systems is to control the coupling. Here, we demonstrate strong coupling of motion between two suspended membranes of the magnetic 2D material FePS$_3$. We describe a tunable electromechanical mechanism for control over both the resonance frequency and the coupling strength using a gate voltage electrode under each membrane. We show that the coupling can be utilized for transferring data from one drum to the other by amplitude modulation. Finally, we also study the temperature dependence of the coupling, and in particul…

LetterResonance structuresFOS: Physical sciencesBioengineeringApplied Physics (physics.app-ph)02 engineering and technologyTwo-dimensional materials01 natural sciencesVibrationCouplingMotionMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciencesMagnetic propertiesGeneral Materials Science010306 general physicsMembranesCondensed Matter - Mesoscale and Nanoscale PhysicsMechanical EngineeringPhysics - Applied PhysicsGeneral ChemistryEquipment DesignMicro-Electrical-Mechanical Systems021001 nanoscience & nanotechnologyCondensed Matter PhysicsEquipment Failure AnalysisOscillation0210 nano-technologyNano Letters
researchProduct

Dynamics of human cancer cell lines monitored by electrical and acoustic fluctuation analysis.

2010

Early determination of the metastatic potential of cancer cells is a crucial step for successful oncological treatment. Besides the remarkable progress in molecular genomics- or proteomics-based diagnostics, there is a great demand for in vitro biosensor devices that allow rapid and selective detection of the invasive properties of tumor cells. Here, the classical cancer cell motility in vitro assays for migration and invasion relying on Boyden chambers are compared to a real-time biosensor that analyzes the dynamic properties of adherent cells electro-acoustically with a time resolution on the order of seconds. The sensor relies on the well-established quartz crystal microbalance technique…

Materials scienceBiophysics02 engineering and technologyBiosensing TechniquesProteomicsBiochemistryCrystal03 medical and health sciencesHT29 CellsCell Line TumorNeoplasmsHumans030304 developmental biology0303 health sciencesbiosensor devices; cancer cells; tumor cellsDynamics (mechanics)Quartz crystal microbalanceAcousticsMicro-Electrical-Mechanical Systems021001 nanoscience & nanotechnologyCell cultureCancer cellBiophysics0210 nano-technologyBiosensorIntegrative biology : quantitative biosciences from nano to macro
researchProduct

Porous organic cage compounds as highly potent affinity materials for sensing by quartz crystal microbalances.

2012

Porosity makes powerful affinity materials for quartz crystal microbalances. The shape-persistent organic cages and pores create superior affinity systems to existing ones for direct tracing of aromatic solvent vapors. A shape and size selectivity for the analytes is observed. These organic cages can be processed to thin films with highly reproducible sensing properties.

Materials scienceMiniaturizationMechanical EngineeringMineralogyQuartz crystal microbalanceEquipment DesignMicro-Electrical-Mechanical SystemsHydrocarbons AromaticCondensed Matter::Soft Condensed MatterCrystalEquipment Failure AnalysisAromatic solventChemical engineeringMechanics of MaterialsSize selectivityPhysics::Atomic and Molecular ClustersGeneral Materials ScienceGasesPhysics::Chemical PhysicsThin filmOrganic ChemicalsPorosityQuartzPorosityAdvanced materials (Deerfield Beach, Fla.)
researchProduct