Search results for " Sensor."

showing 10 items of 1700 documents

Smart cameras on a chip: using complementary metal-oxide-semiconductor (CMOS) image sensors to create smart vision chips

2020

Abstract: In this chapter, we introduce the fundamental concept of smart cameras on a chip or smart vision chips that simultaneously integrate the same die image capture capability and highly complex image processing. Successive technology scaling has made possible the integration of specific processing elements designed at chip level, at column level or at pixel level. To illustrate this continuous evolution, we survey three different categories of vision chips, exploring first the pioneering works on artificial retinas, then describing the most significant computational chips, and finally presenting the most recent image processing chips able to perform complex algorithms at a high frame …

EngineeringCMOSPixelbusiness.industryComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONElectronic engineeringImage processingSmart cameraImage sensorFrame ratebusinessChipDie (integrated circuit)
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Algorithms for skiascopy measurement automatization

2014

Automatic dynamic infrared retinoscope was developed, which allows to run procedure at a much higher rate. Our system uses a USB image sensor with up to 180 Hz refresh rate equipped with a long focus objective and 850 nm infrared light emitting diode as light source. Two servo motors driven by microprocessor control the rotation of semitransparent mirror and motion of retinoscope chassis. Image of eye pupil reflex is captured via software and analyzed along the horizontal plane. Algorithm for automatic accommodative state analysis is developed based on the intensity changes of the fundus reflex.

EngineeringChassismedicine.diagnostic_testbusiness.industryServomotorUSBHorizontal planeRefresh ratelaw.inventionOpticslawmedicineComputer visionArtificial intelligenceImage sensorFocus (optics)businessAlgorithmRetinoscopySPIE Proceedings
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Central Bursting Defects in Drawing and Extrusion: Numerical and Ultrasonic Evaluation

1993

Abstract A new approach for the prediction of central bursting defects in extrusion and drawing is proposed: a finite element analysis of the processes has been carried out, and the obtained results have been elaborated by means of a post-processor, which, employing a proper ductile fracture criterion, is able to suggest if and where the central burst occur. An ultrasonic control system able to detect the insurgence of defects with a resolution of 0.2 mm. has been setup in order to verify the predictive capability of the model. The experimental results show a good agreement with the numerical predictions confirming the effectiveness of the proposed approach, whose industrial application app…

EngineeringComputer simulationbusiness.industryMechanical EngineeringPredictive capabilityStructural engineeringIndustrial and Manufacturing EngineeringFinite element methodBurstingControl systemFracture (geology)ExtrusionUltrasonic sensorbusinessCIRP Annals
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An expert system for vineyard management based upon ubiquitous network technologies

2011

Vineyard operations for quality wines production are currently based upon costly and time-consuming manual sampling operations required to assess the maturity phases of grapevines. The ripening process however is significantly influenced by the environmental parameters which nowadays can be effectively monitored by means of ubiquitous computing technologies. Besides the possibility of gathering data, hence, suitable tools are required to support the vineyard management process. The present research concerns the development of an expert system to effectively manage the vineyard operations. The methodology is based on the analysis of the time series of indices related to the maturation phases…

EngineeringData collectionUbiquitous computingProcess managementOperations researchProcess (engineering)business.industrymedia_common.quotation_subjectManagement Science and Operations Researchcomputer.software_genreVineyardExpert systemComputer Science ApplicationsManagement Information Systemsexpert system RFID Time series forecastingQuality (business)businessManagement processWireless sensor networkcomputerInformation Systemsmedia_commonInternational Journal of Services Operations and Informatics
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Compressive sensing for direct time of flight estimation in ultrasound-based NDT

2017

This paper presents an approach for estimation of ultrasonic time-of-flight (TOF) within a Non Destructive Testing (NDT) and Structural Health Monitoring (SHM) context. The presented method leverages recent advances in the field of Compressive Sensing (CS), which makes use of sparsity in a transform domain of a signal in order to reduce the number of samples required to store it. CS achieves this through a two key ideas: random matrix projections, and l1-penalised linear regression. In this case, sparsity arises from the observation that in a pulse-echo ultrasound test, the number of echoes is relatively small compared to the number of measurement points in a waveform. This sparsity is evid…

EngineeringData-processingbusiness.industryTKPhysics::Medical PhysicsAutocorrelationContext (language use)Basis functionTime of flightNDTCompressed sensingNondestructive testingSensingElectronic engineeringWaveformUltrasonicsUltrasonic sensorStructural health monitoringbusinessAlgorithm
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Design And Characterization Of Automated Color Sensor System

2017

Abstract The paper presents a color sensor system that can process light reflected from a surface and produce a digital output representing the color of the surface. The end-user interface circuit requires only a 3-bit pseudo flash analog-to-digital converter (ADC) in place of the conventional/typical design comprising ADC, digital signal processor and memory. For scalability and compactness, the ADC was designed such that only two comparators were required regardless of the number of color/wavelength to be identified. The complete system design has been implemented in hardware (bread board) and fully characterized. The ADC achieved less than 0.1 LSB for both INL and DNL. The experimental r…

EngineeringDigital signal processorComparatorlcsh:Tbusiness.industryInterface (computing)Process (computing)analog to digital converter (ADC)Integrated circuitlcsh:TechnologyColor sensorlaw.inventionEffective number of bitsControl and Systems Engineeringlawlight sensorlcsh:Technology (General)ScalabilityHardware_INTEGRATEDCIRCUITSElectronic engineeringlcsh:T1-995Systems designElectrical and Electronic Engineeringbusinessflash ADCInternational Journal on Smart Sensing and Intelligent Systems
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RF-based node system for blind navigation in running activities

2008

The system presented is oriented for use by blind adults or children in running activities at a stadium or an analogical large space. The system dynamically provides a blind person with navigation related information. Radio signal strength measurements are used in localization task. The system makes a blind person more independent in sport, eliminating the need in explicit human assistance.

EngineeringDistance measurementbusiness.industryNode (networking)Real-time computingRadio frequencySpace (commercial competition)Radio signal strengthbusinessStadiumWireless sensor networkSimulationTask (project management)2008 International Conference on Signals and Electronic Systems
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<title>Modeling of eddy current sensors</title>

2001

In this paper two models of eddy current sensor have been presented. They are base don a one- and multi-turn coil model. The results of computer simulations present a relation of eddy current density on nonferromagnetic conducting materials versus some parameters viz: a coil radius, frequency of excitation current and conductivity of material.© (2001) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.

EngineeringEddy-current sensorbusiness.industryOptical engineeringAcousticsBase (geometry)Electrical engineeringRadiusConductivitylaw.inventionExcitation currentElectromagnetic coillawEddy currentbusinessSPIE Proceedings
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Quasi-digital conversion for resistive devices: application in GMR-based IC current sensors

2013

Resistive devices, including sensors, are used in a huge range of applications within different scenarios. When a complete system is considered, a quasi-digital output is often recommendable. If the conversion is operated at device level, some problems such as noise disturbs, insertion losses and so on, can be reduced. In this work, we describe a resistance-tofrequency (R-f) converter with a suggested application in low current monitoring by means of GiantMagnetoResistance (GMR) sensors. Specific devices have been designed and microfabricated. The system has been tested by means of discrete components with a PCB. The complete microsystem monolithic integration in a standard CMOS technology …

EngineeringElectric current measurementAnalog IC; Current measurement; GMR sensor; Oscillator; Resistance-to-frequency converter; Hardware and Architecture; Electrical and Electronic EngineeringOscillators (electronic)Noise (electronics)Electron devices:Enginyeria electrònica::Instrumentació i mesura::Sensors i actuadors [Àrees temàtiques de la UPC]Polychlorinated biphenylsMicrosystemElectronic engineeringOscillatorDigital conversionElectrical and Electronic EngineeringGMR sensorResistive touchscreenbusiness.industrySensorsElectrical engineeringElectromagnetisme -- MesuramentsAnalog ICResistance-to-frequency converterCMOS integrated circuitsCurrent measurementCMOSHardware and ArchitectureElectromagnetic measurementsvisual_artElectronic componentvisual_art.visual_art_mediumCurrent (fluid)business
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Sensorless low Range Speed Estimation and Parameter Identification of Induction Motor Drives Devoted to Lifts Automatic Rescue Devices

2010

In this paper a sensorless rotor speed estimation and parameter identification algorithm is presented. The algorithm is designed specifically for induction motor (IM) drives devoted to automatic rescue devices (ARD) used in lifts and hoist applications. Its peculiarity is that it is based on the sinusoidal steady state mathematical model of the IM and, therefore, can be implemented on a low cost micro-controller in a simple way, however without lacking in terms of dynamic performance. It is also capable of self tuning so that no information is required about the specific IM used in the ARD drive. Finally the algorithm allows also an appreciable energy saving of the ARD when compared to olde…

EngineeringElectronic speed controlSteady state (electronics)business.industrySelf-tuningControl engineeringConvertersSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciHoist Induction Motors Lift Parameters Estimation Sensorless Speed ControlIdentification (information)Control theorybusinessHoist (mining)Induction motorEnergy (signal processing)
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