Relevant bibliographies by topics / Interface LABVIEW

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Interface LABVIEW'

Author: Grafiati
Published: 10 September 2021
Last updated: 1 February 2022

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Journal articles on the topic "Interface LABVIEW"

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Su, Liang Yu. "LabVIEW Applications for Fiber-Optic Remote Test and Fiber Sensor Systems." Applied Mechanics and Materials 610 (August 2014): 216–20. http://dx.doi.org/10.4028/www.scientific.net/amm.610.216.

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This paper demonstrates applications of LabVIEW in automatic test measurement of fiber optic system.First,the LabVIEW applications in fiber optic system and the basics of instrument connectivity are presented.Then,the aspects of hardware communication to external instruments through GPIB and serial interfaces are analyzed.Next,self-calibrating automated characterization system for depressed cladding applications is demonstrated utilizing the LabVIEW’s GPIB interface. Results of the manual and automatic measurements and the analysis of the measurement trace obtained from the optical time domain reflectometer (OTDR) are shown.In the end,two applications of LabVIEW in fiber optic sensor system are discussed.
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Xu, Jing Bo, Yong Zhong Zhao, and Hong Tao Yu. "HP3 Interface Program by Labview." Applied Mechanics and Materials 602-605 (August 2014): 3839–42. http://dx.doi.org/10.4028/www.scientific.net/amm.602-605.3839.

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This paper aims to discuss about the method of HP3 interface program with hardware by Virtual instrument-labview. This paper studies the characteristic and advantages of labview, analyzes the HP3(Handyprobe difference USB oscilloscope) hardware interface way and discuss the connection on hardware labview. The actual interface connection method is given in the end.
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Prommee, Witoon. "The Low Cost LabVIEW Wireless Instrument." Advanced Materials Research 931-932 (May 2014): 937–41. http://dx.doi.org/10.4028/www.scientific.net/amr.931-932.937.

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This paper proposed low cost instruments for wireless communication based on LabVIEW program. Conventional monitoring and controlling method using LabVIEW need several unique devices including data acquisition card (DAQ), RS232, wireless data acquisition (WDA), the serial and parallel interfaces which lead to expensive cost and complex system. This paper explains the new design of wireless interface devices which uses Wi-Fi USB, MCU board, and RS232 using LabVIEW to save cost. The objective is to develop low cost and easy tools for wireless monitor and interface. Five cases are considered including LED, traffic light, stepping motor, DC volt meter, and temperature data logger on the IEEE 802.11 standard. The experiment results show the developed programs which can remote instruments on a monitor accurately.
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Ţepelea, L., I. Gavriluţ, O. Neamţu, E. Gergely, and A. Gacsádi. "A LabVIEW-Based Soundcard Interface for E-Laboratory." International Review of Applied Sciences and Engineering 2, no. 2 (December 1, 2011): 137–42. http://dx.doi.org/10.1556/irase.2.2011.2.10.

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Abstract The purpose of this paper is to present a way to develop a technical e-laboratory for students interested in their continuing training. It presents hardware and software aspects regarding design of a LabVIEW-Based Soundcard Interface for E-Laboratory. To realize an e-learning laboratory we used web publishing tool from LabVIEW and the connection between server and remote computer is realized with a VPN software to pass through any router or a NAT device and realise a secure tunnel between remote computers and LabVIEW web-server. Also, the web publishing tool from LabVIEW allows concurrent access from different remote computers to e-laboratory. For example paper offers a LabVIEW application for acquisition and generation of signals using the sound card.
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Ambala, Hemanth Kumar. "NOVEL APPROACH TO DESIGN IOT BASED INTELLIGENT INDUSTRIAL LOAD MANAGEMENT SYSTEM." International Journal of Students' Research in Technology & Management 3, no. 3 (September 27, 2015): 289–92. http://dx.doi.org/10.18510/ijsrtm.2015.334.

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This paper introduces a novel approach to integrate IOT with an intelligent Industrial Load Management System. A virtual control system is designed to balance the supply of electricity on the network with the electrical load of an industry by recovering heat from hot chemical gases to produce electricity and by disconnecting the low priority loads automatically during power shortage periods. This approach takes advantages of the LabView’s better hardware support, rapid configuration, MATLAB’s ability to perform complex calculations and newer innovations helping in cheaper ways of realising internet connected devices. An intelligent power generating system which works on waste heat recovery mechanism comprising a boiler turbine system is modeled using MATLAB and a human machine interface is developed using LabVIEW. The system that is modeled in MATLAB can be simulated by LabVIEW Simulation Interface Toolkit (SIT) toolkit. The SIT provides a seamless integration between MATLAB/Simulink and LABVIEW.
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Zhang, Hai Ming, and Xi Chen Yang. "Interface between LabVIEW and FANUC Robot." Advanced Materials Research 443-444 (January 2012): 464–70. http://dx.doi.org/10.4028/www.scientific.net/amr.443-444.464.

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FANUC industrial robots are used more and more widely. However, robots’ communicant protocol and interface are different and unopened. Robot interface technology has become an important factor. Controlling robot movement via interfere has become an important issue in recent years.NI LabVIEW has powerful data acquisition and measurement ability and friendly graphics programming interface. It has the most percentages in the field of automatic measurement. The interface between PC and FANUC industrial robot is studied. A serial of sub VI are developed based on LabVIEW, including connecting robot with PC, initializing robot interface, reading and changing system variables, reading and changing position variables, displaying current position, controlling robot programs and so on. This paper describes the hardware and software components of the system, and the typical communicant and control module between PC and FANUC robot developed by LabVIEW. After testing, the function of every module can be achieved and performs well.
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Manduchi, G., E. De Marchi, and A. Mandelli. "A new LabVIEW interface for MDSplus." Fusion Engineering and Design 88, no. 6-8 (October 2013): 1196–99. http://dx.doi.org/10.1016/j.fusengdes.2012.12.013.

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Miao, Man Xiang. "Database Visiting Method and Application in Electronic Power Monitor System by Using LabSQL in Virtual Instrument LabVIEW." Applied Mechanics and Materials 20-23 (January 2010): 110–15. http://dx.doi.org/10.4028/www.scientific.net/amm.20-23.110.

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Electric power quantity monitor is a premise to provide high-quality electric power, therefore, on the electric power market; it has appeared much more electric power quantity monitoring system based on virtual instrument design technology such as software of LabVIEW. We aims at calculator data processing shortcome of LabVIEW, which is inconvenience in using LabVIEW during databases interface realization. This paper mainly introduces how to realize interface design between LabVIEW and database. As well as introducing ADO technique how to carry out LabVIEW visiting databases. Because design transplantation is stronger, so, system has broad function and application foreground.
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Yu, Cheng Bo, Yan Hong Ke, Dan Xiao, Yang Yu Yuan, and Yi Ju Yang. "Image Processing and Analysis System for Corneal Endothelial Cell Based on LabVIEW and MATLAB." Applied Mechanics and Materials 687-691 (November 2014): 3777–81. http://dx.doi.org/10.4028/www.scientific.net/amm.687-691.3777.

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To process corneal endothelial cell image quickly and efficiently, observe the corneal endothelial cell form and relevant calculation and analysis. This system adopts mixed programming of LabVIEW and MATLAB, to have image processing and analysis of the corneal endothelial cell. Use LabVIEW to design operation and display interface, and send the images collected to MATLAB for complex arithmetical operation, then put out data in LabVIEW. The experiment indicates the system has the advantage of intuitive interface, convenient operation, and quick arithmetic, has the practical reference value.
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Xu, Jing Bo, Jian Song Zhang, and Hong Tao Yu. "HP3 Automatic Measurement System." Applied Mechanics and Materials 643 (September 2014): 233–36. http://dx.doi.org/10.4028/www.scientific.net/amm.643.233.

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This paper introduce the thought of USB interface application, an automatic measurement system is as an example. The PC control system of automatic measurement by the Labview software programming, then control relay, and control the work state of the HP3. It shows that the design of USB interface application system is realized by using labview programming easy and high efficiency.
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Dissertations / Theses on the topic "Interface LABVIEW"

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GILANI, HASSAN, and RAISUL BHUIYAN. "Development of ADQ214 user interface in labVIEW." Thesis, Blekinge Tekniska Högskola, Sektionen för ingenjörsvetenskap, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-5451.

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This thesis was conducted in collaboration with Signal Processing (SP) Devices Sweden AB. SP Devices provides digital signal processing solutions for the enhancement of analogue to digital conversion (ADC). Their ADCs facilitate the development of products for Communications, Radio base stations, Radar, Signals intelligence and Test & Measurement. The ADQ series digitizers, from SP Devices, are portable high performance digitizers which incorporate one or more analog inputs, an on-board double data rate (DDR2) memory and USB or PXI Express interface. DDR2 refers to the ability of a computer bus to transfer data on both the rising and falling edges of a clock signal. The ADCaptureLab software is a graphical user interface used to control this digitizer. ADCaptureLab, designed in the C/C++ programming language, is an easy-to-use standalone program which allows for configuration and operation of all ADQ series digitizers from SP Devices. The use of the LabView program from National Instruments forms the backbone of this thesis. LabVIEW (short for Laboratory Virtual Instrumentation Engineering Workbench) is a platform and development environment for a visual programming language from National Instruments. The topic of this thesis was to reproduce the ADCaptureLab user interface using LabView instead of C/C++. The graphical user interface (GUI) developed in LabView should be able to communicate with and control the processing of the ADQ214 digitizer (the digitizer model provided to us) in the same way as the ADCaptureLab. This would involve not only the data capturing and visualization but also digitizer configurations, monitoring of the device and ADQ functions and the analyses of acquired signal and FFT. In order to implement the configuration settings we developed functions for trigger settings (conditions at which a trigger will occur), Analogue Front End settings (AC/DC coupling), clock settings (sets the clock source), data type settings (set sample format), gain and offset setting (sets amplitude gain and mean value), pre-trigger settings (size of pre-trigger buffer), trigger hold off settings ( number of samples to wait for acquiring data after trigger), data acquisition length settings (Length of the acquired signal), continuous and single batch data acquisition, FFT transformation, save, load , and “clear plots” control (resets graph indicators). The functioning of our device may be monitored through the “Status window” (displays connection status of the ADQ device), “Devices window” (displays product information about the ADQ device), “Device monitor window” (returns the status of ADQ-API functions used) and the “Device information window” (returns information related to the revision of the ADQ device). Analyzing the acquired data and its corresponding FFT is made simple with the “Signal Properties” window (displays analyzed data), “Mark Harmonics” control (marks harmonics in the FFT) and the “Mark Signal Props” control (marks the fundamental tone and highest distortion in the FFT). Our LabVIEW GUI efficiently incorporates the features described above. In addition to being able to communicate instructions to the ADQ214 device we are able to monitor its condition and analyze any output. This result serves to show that it is possible to develop a program such as ADCaptureLab in LabVIEW.
HASSAN GILANI # : +46736742637 RAISUL BHUIYAN # :+46762596979
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Izidro, Mafalda Sofia Moura Moraes. "Real-time labview assessment on adsorption systems." Master's thesis, Faculdade de Ciências e Tecnologia, 2014. http://hdl.handle.net/10362/11390.

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Dissertação para obtenção do Grau de Mestre em Engenharia Química e Bioquímica
This work aims to develop a LabVIEW interface for monitoring, controlling and automate the simultaneous experimental determination of one adsorption isotherm of gas in two distinct solid adsorbents. The magnetic suspension balance has two samples and this way it’s possible to determinate, simultaneously, the equilibrium adsorption for two different adsorbents. The developed software allows the registration of weight values and the control of the state of the balance, which has three main positions (ZP, MP1 and MP2). To determine a isotherm point is necessary for the system to reach the equilibrium. The software records the different values of ZP, MP1 and MP2, calculating the adsorbed mass values for each of the adsorbents. When the average of the adsorbed masses remain constant, the pressure value is changed and is possible to proceed with the determination of a new point isotherm. The software was developed in LabVIEW utilizing a software previously developed for a balance with only one sample. The old software was built using just one interface, which made the process of changing routines and new programming interfaces complicated. It was developed a sketch of a new software, now built in five separate blocks . To validate the interface for monitoring the magnetic balance, multiple tests were conducted at the installation, in order to confirm that the interface gets accurate results. The tests measured adsorption isotherms for CO2 in two simultaneous adsorbents, MIL-53(Al) and Zeolite 5A at different temperatures: 30 °C, 50 °C and 80 °C. From the results, it can be confirmed that the developed interface is acquiring the values of the weight correctly and applying well the correction of the zero point, allowing the user to simplify the process of determining adsorption isotherms.
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Ek, Fredrik. "Undersökning och utformning av ett generellt datainsamlingssystem i LabVIEW." Thesis, Linköping University, Department of Biomedical Engineering, 2005. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-2933.

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This report is the result of a diploma work made at IMT at US in Linköping. The purpose of this piece of work is to investigate the possibility to design a general program for data-acquisition using LabVIEW, suiting different hardwares and connections. Great importance has been attached to communication with serialport, using bluetooth, because different wireless PPG-instruments has been developed parallel to this project. These PPG-circuits uses this type of serialcommunication. Communication with USB, GPIB and analog connection has also been examined and analog communication has been tested practically. But any serious implementation of these types in the LabVIEW-program has not been made.The paper starts with theory where LabVIEW, bluetooth, PPG, different connections and the different PPG-sensors is described concisely. Theory is followed by a"performance-part"where the course of action and the LabVIEW- program is described.The result of the work is an application in LabVIEW for communication with different PPG-sensors, where interface, protocol and file-standard/format has been designed. The program is adapted to prolonged measurements with full duplex. Measurements can be saved into ascii- or binary format, and signals can be studied carefully in graphs.Since only one PPG-sensor is fully made, a test in measurement and acquisition has been made with that sensor only. Ragarding the other PPG-instruments, the communication has been tested in hyperterminal.

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Salvador, André Manuel e. Silva. "Interface SCADA para monitorização e registo de dados de sistemas distribuídos de geração de energia eléctrica." Master's thesis, Universidade de Évora, 2013. http://hdl.handle.net/10174/15962.

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Nos dias de hoje, a preocupação pela escassez de energias fósseis, bem como o seu impacto sobre o meio ambiente, faz com que a geração de energia eléctrica através de energias renováveis seja encarada como uma forte alternativa aos combustíveis fósseis. As energias apelidadas de renováveis são as energias provenientes de fontes naturais como o Sol e o Vento. Esta dissertação tem o objectivo de implementar um sistema de monitorização e registo de dados eléctricos de um parque de energias renováveis, constituído por painéis fotovoltaicos de diferentes tecnologias e um gerador eólico, através de um sistema SCADA. Os dados eléctricos dos sistemas de geração são medidos por transdutores, que farão o condicionamento do sinal de forma a permitirem que os dados sejam lidos pelas placas de aquisição. As placas de aquisição, juntamente com o Labview, fazem a leitura, o tratamento dos dados e a sua transferência para o servidor OPC, que disponibilizará os dados ao sistema SCADA; ABSTRACT:Nowadays, the concern about the scarcity of fossil fuels, as well as its effect over the environment, is leading to the generation of electric energy from renewable energies being recognized as a good alternative to fossil fuels into. The renewable energies are provided from natural sources such as Sun and Wind. This dissertation aims to implement a control and monitoring system with data record from a renewable energies park, constituting of photovoltaic modules and a wind generator. The electric data is measured by transducers which process them, allowing them to be read by data acquisition devices. The data acquisition devices managed by Labview read the electric signals and the data is transferred to the OPC server, which serves the SCADA system.
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Al-Daghestani, Anas, and Mahinour AlKassem. "Graphical Programming and Implementation of the NI-7962 and NI-5781 FPGA Interface." Thesis, Blekinge Tekniska Högskola, Institutionen för tillämpad signalbehandling, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-12792.

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FPGA systems can have a wide variety of applications within electrical engineering, product development, and prototyping. Their flexibility, low cost, and high performance have made it burst into the market with results that exceeded many expectations. National Instruments offers several software and hardware that integrate FPGA systems in their design and implementation. In this thesis work, a NI FPGA system is used along with LabVIEW myRIO 2014 software to run a graphical FPGA code, hence, identifying best practices that must be associated with using the software and the hardware of National Instruments FPGA interfaces and also compare different methods for programming, communication, and data conversion of the FPGA interfaces.
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Svensson, Jonny. "Implementation of an FMCW Radar Platform With High-Speed Real-Time Interface." Thesis, Linköping University, Department of Electrical Engineering, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-6163.

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Acreo AB has developed a radar prototype used for illustrate how the SiGe technology could be used. The radar prototype needs further development with a fast interface and a more integrated design. The beginning of the report describes the radar technique theory and the composing equations. The theoretical background is used to explain each component of the system. The report continues by specifying the target of the next radar prototype. The chosen implementation is motivated and the mode of procedure is described in detail. Test benches were used to verify correct functionality and some limits were found. The report is concluded with test results and recommendations on further enhancements.


Acreo AB har utvecklat en radarprototyp för att illustrera hur SiGe teknologi kan användas. Prototypen behöver vidareutvecklas med ett snabbt digitalt interface och en kompaktare design. Rapporten inleds med att beskriva radarteknikens funktionalitet och de utgörande ekvationerna. Den teoretiska bakgrunden används för att förklara varje komponent som systemet utgörs av. Rapporten fortsätter med att specificera målet med nästa radarprototyp. Den valda implementationen motiveras och tillvägagångssättet beskrivs detaljerat. Testuppkopplingar verifierade korrekt funktionalitet och begränsningar insågs. Rapporten avslutas med en sammanfattning av uppnådda testresultat och rekommendationer på framtida förbättringar.

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Ullah, Farooq Kifayat. "New Generation of Vibration Experiments Remotely Controlled Over the Internet:Development of Labview based Spectrum Analyzer and Interface." Thesis, Blekinge Tekniska Högskola, Sektionen för ingenjörsvetenskap, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-2509.

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This thesis is part of the on going work at BTH (Blekinge Technical University) to develop a remote lab for Sound and Vibration Experiments. The aim of this undertaking is to develop a Spectrum Analyzer that can simultaneously take inputs from 10 sensors and be able to measure the Power Spectral Density, Cross correlation, Frequency Response Functions (FRF) and coherence. The Interface and analysis algorithms are developed inLabview programming language. The thesis starts by introducing the overall aim of the project and its scope, the place of this particular thesis in the whole picture and the algorithms used for analysis are introduced. In the second part of the thesis the development of the software is explained and the main aim is to thoroughly document the software. This part of the thesis explains Labview programming concepts in detail to make it easier for other students who want to undertake theses to continue this work and who may not have experience of Labview programming.Two versions of the spectrum analyzer were developed. The third part explains theexperimental set up and results obtained and compares measurements to those obtained using other spectrum analyzers. An accurate Spectrum Analyzer Virtual Instrument has been developed and tested during this thesis project and it can be used as a component of the proposed Sound and vibration analysis laboratory and also for general Spectral Analysis tasks.
Good guide to learn Labview and sound and vibration analysis..
fkul08@gmail.com Is my email and i can be contacted via messenger usually at farooq_kifayat@hotmail.com And i can also be contacted via skype using farooqkifayat as my name. I move around a lot so i have no permanent address that stays longer than half a year .
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Dinis, Francisco José Vieira. "Sistema de instrumentação de baixo custo compatível com o LabVIEW." Master's thesis, Universidade da Madeira, 2010. http://hdl.handle.net/10400.13/240.

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A procura de soluções de baixo custo é hoje em dia, uma exigência quando se fala em aquisição de equipamentos para empresas e instituições. Essa procura torna-se ainda mais premente quando as soluções disponíveis comercialmente são demasiado caras e não traduzem por completo os objectivos para as quais se destinam. Com o trabalho desenvolvido nesta tese de Mestrado pretendeu-se criar uma versão low cost de um sistema de medição de deformações em estruturas, para ser utilizado pelo laboratório de Engenharia Civil da Universidade da Madeira. Fazendo uso da filosofia low cost utilizada para o desenvolvimento do sistema de medição, utilizou-se um Arduíno Duemilanove como plataforma de interface com o LabVIEW, em detrimento das dispendiosas placas de aquisição de dados. De forma a tornar o sistema de medição funcionalmente mais completo, e aproveitando-se a interface criada, bem como os deflectómetros digitais pertencentes à instituição, criou-se um sistema de medição personalizado que consegue medir simultaneamente os dados de três extensómetros e os valores medidos por dois deflectómetros. Foram efectuados diversos testes no equipamento desenvolvido, permitindo não só a calibração do mesmo, mas também um estudo das suas capacidades e limitações. Por fim, e de forma a demonstrar a versatilidade da interface criada, procedeu-se a um teste final onde foi possível verificar-se que era possível obter-se uma taxa de amostragem de cerca de 408,3Hz, caso o sistema fosse utilizado para a aquisição de um só valor de tensão analógico.
Armando de Aguiar Oliveira Gomes
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Giammaria, Tommaso. "Realization of a four-probe electrical resistivity apparatus and its noise-reduced data acquisition interface to characterize superconducting materials." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2018.

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L’elaborato si basa sulla realizzazione di un sistema di rilevazione sincrona per misure di resistenza elettrica con metodo a quattro terminali. L’obbiettivo, utile alla caratterizzazione di materiali superconduttivi, è quello di misurare la dipendenza tra resistività elettrica e temperatura del campione. L’apparato si suddivide in un sistema di controllo della temperatura e un sistema di acquisizione dotato di amplificatore lock-in digitale. Gli amplificatori lock-in sono strumenti usati per il recupero di segnali laddove il contributo del rumore di fondo risulta essere preponderante rispetto al segnale d’interesse. L’acquisizione e conversione del segnale analogico viene svolta da una scheda Digilent Analog Discovery 2, il segnale digitalizzato viene elaborato da un amplificatore lock-in digitale. Quest’ultimo è stato sviluppato ad hoc in ambiente labVIEW, ricoprendo un ruolo fondamentale nel lavoro presentato. Il sistema di controllo della temperatura comprende un impianto criogenico e un sistema di riscaldamento (con circuito di retroazione PID). I test svolti per definire le performance del sistema di acquisizione hanno rivelato una riserva dinamica stimata di 82 dB ed un segnale minimo misurabile di 200 nV (con un errore del 5%). Successivamente l’apparato è stato utilizzato per caratterizzare due campioni superconduttori appartenenti rispettivamente alla famiglia dei cuprati e a quella dei ferro-pnictidi. L’apparato è in grado di misurare valori di resistenza con una sensibilità di 200 nV/I (dipende dalla corrente fornita al campione e misurata in Ampere), realizzando un grafico di dipendenza R vs T con 0,05 K di risoluzione. Le temperature critiche misurate per i due campioni sono in accordo con i valori trovati in letteratura. Il lock-in illustrato in questa tesi presenta possibili applicazioni a scopo educativo o di ricerca, qualora le performance richieste per la misura rientrino in quelle descritte precedentemente.
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Bradáč, Martin. "Implementace vybraných řidicích algoritmů pro FPGA." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2011. http://www.nusl.cz/ntk/nusl-229981.

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A real-time computer cRIO-9073 supplied by National Instruments, together with the software tool LabVIEW is a versatile system used in many fields, for both research and practical tasks. This thesis deals with the possibilities of the system. It is aimed primarily at performance testing, identifying potential limitations and showing its practical use. The whole system has undergone testing through the use of programs covering the wide spectrum of utilisation. cRIO also allows the use of other software tools in its programming. This thesis explores the options of using Matlab/Simulink from MathWorks and the generation of VHDL code using a product of Xilinx. The aim is to compare the demands on the resources consumed, by the Field-programmable gate array (FPGA) in cRIO as well as the CPU load running the Real-time process.
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Books on the topic "Interface LABVIEW"

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Ritter, David J. LabVIEW GUI: Essential techniques. New York: McGraw-Hill, 2002.

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LabVIEW interface concepts used in NASA scientific investigations and virtual instruments. [Cleveland, Ohio]: National Aeronautics and Space Administration, Glenn Research Center, 2001.

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J, Roth Don, and NASA Glenn Research Center, eds. LabVIEW interface concepts used in NASA scientific investigations and virtual instruments. [Cleveland, Ohio]: National Aeronautics and Space Administration, Glenn Research Center, 2001.

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Ritter, David J. LabVIEW GUI: Essential Techniques. McGraw-Hill Professional, 2001.

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Ritter, David J. LabVIEW GUI: Essential Techniques. McGraw-Hill Professional, 2001.

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Eaton, Deborah. Labtutor: A Friendly Guide to Computer Interfacing and LabVIEW Programming. Oxford University Press, 1995.

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Eaton, Deborah. Labtutor: A Friendly Guide to Computer Interfacing and LabVIEW Programming. Oxford University Press, 1995.

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Eaton, Deborah. Labtutor: A Friendly Guide to Computer Interfacing and LabVIEW Programming. Oxford University Press, 1995.

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Book chapters on the topic "Interface LABVIEW"

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Dello Sterpaio, Luca, Antonino Marino, Pietro Nannipieri, Gianmarco Dinelli, and Luca Fanucci. "AXI4LV: Design and Implementation of a Full-Speed AMBA AXI4-Burst DMA Interface for LabVIEW FPGA." In Lecture Notes in Electrical Engineering, 541–48. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-37277-4_63.

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Panfir, Alina Ninett, Alexandra Covaci, Cristian-Cezar Postelnicu, and Gheorghe Mogan. "Control Interfaces for a Collaborative System Using LabView Package." In Technological Innovation for Value Creation, 33–40. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-28255-3_4.

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Paszkiel, Szczepan. "Using BCI Technology for Controlling a Mobile Vehicle Using LabVIEW Environment." In Analysis and Classification of EEG Signals for Brain–Computer Interfaces, 79–86. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-30581-9_9.

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Quang Duc, Trinh. "LabVIEW and Open Embedded System." In LabVIEW - A Flexible Environment for Modeling and Daily Laboratory Use. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.98271.

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In this chapter, discussions about the applications based on LabVIEW with a typical open embedded system such as Arduino. Instead of the applications with use of National Instrument hardware, an user can build an low-cost microcontroller-based system which user interface and procedure designed in LabVIEW. Recently, Arduino-based applications are one of interested developments, the embedded system is designed with the low-cost microcontroller of ATMEGA2560 and easy to program with IDE (Interface Development Environment). However, the difficulties of Arduino-based applications are user interface design while LabVIEW is an excellent utilities for the panel designs. The limitation of some LabVIEW applications is the requirements from combination with high performance NI hardwares. Under interactions between LabVIEW and IDE library designed by Arduino, the low-cost system can be easily built for experiments or prototype designs.
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Mavi, Ahmet, Ahmet Özmen, and Mehmet Ertuğrul. "Analyzing and Presenting Data with LabVIEW." In LabVIEW - A Flexible Environment for Modeling and Daily Laboratory Use. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.96130.

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LabVIEW is an abbreviation for Laboratory Virtual Instrument Engineering Workbench and allows scientists and engineers to develop and implement an interactive program. LabVIEW has been specially developed to take measurements, analyze data, and present the results to the user. You determine what the device looks like, rather than the manufacturer of the device. LabVIEW has a very large library of functions and subprograms (subVIs) that can help you during your programming and use without occupying memory. Hidden programming problems that you may encounter in traditional programming languages are less common in LabVIEW. LabVIEW also includes different applications such as serial device control, data analysis, data presentation, data storage and communication over the internet. Analysis library; It includes versatile and useful functions such as signal generation, signal processing filters, Windows statistics and regressions, linear algebra and array arithmetic. Due to the graphical nature of LabVIEW, it is an innate data presentation package. You can view the data in any form you want. Chart, graph and user-defined graph are among the output options that can be used. As a scientist or an engineer, you frequently measure physical changes such as temperature, pressure, time, mass, electric current, light intensity, radioactivity etc. You generally need to analyze and present the data. When you have large amounts of data, you need to use software to analyze and present the data. LabVIEW makes these actions easy for you. Because LabVIEW includes hundreds of built-in and add-on functions you need that make it easy to create a user-friendly interface. In this chapter, we focus on data analysis and presentation.
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Ramasamy, Prema, Shri Tharanyaa Jothimani Palanivelu, and Abin Sathesan. "Certain Applications of LabVIEW in the Field of Electronics and Communication." In LabVIEW - A Flexible Environment for Modeling and Daily Laboratory Use. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.96301.

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The LabVIEW platform with graphical programming environment, will help to integrate the human machine interface controller with the software like MATLAB, Python etc. This platform plays the vital role in many pioneering areas like speech signal processing, bio medical signals like Electrocardiogram (ECG) and Electroencephalogram (EEG) processing, fault analysis in analog electronic circuits, Cognitive Radio(CR), Software Defined Radio (SDR), flexible and wearable electronics. Nowadays most engineering colleges redesign their laboratory curricula for the students to enhance the potential inclusion of remote based laboratory to facilitate and encourage the students to access the laboratory anywhere and anytime. This would help every young learner to bolster their innovation, if the laboratory environment is within the reach of their hand. LabVIEW is widely recognized for its flexibility and adaptability. Due to the versatile nature of LabVIEW in the Input- Output systems, it has find its broad applications in integrated systems. It can provide a smart assistance to deaf and dumb people for interpreting the sign language by gesture recognition using flex sensors, monitor the health condition of elderly people by predicting the abnormalities in the heart beat through remote access, and identify the stage of breast cancer from the Computed tomography (CT) and Magnetic resonance imaging (MRI) scans using image processing techniques. In this chapter, the previous work of authors who have extensively incorporated LabVIEW in the field of electronics and communication are discussed in detail.
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Asraf Hairuddin, Muhammad, Nur Dalila Khirul Ashar, Amar Faiz Zainal Abidin, and Nooritawati Md Tahir. "Cost-Effective Interfaces with Arduino-LabVIEW for an IOT-Based Remote Monitoring Application." In LabVIEW - A Flexible Environment for Modeling and Daily Laboratory Use. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.97784.

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To date, research efforts have demonstrated the stimulated need for the Internet of Things (IoT) based monitoring device in their laboratory. The benefits of remote laboratories in overcoming time constraints and the disadvantages of usability of conventional laboratories are well known. In addition to the current control engineering laboratories, a remote lab that incorporates an industry-relevant method has been established to assist in the understanding of data acquisition with cost-effective platform integration. However, one of the greatest challenges is the creation of a low-cost and user-friendly remote laboratory experiment that is ideal for interacting with the actual laboratory via a mobile device. The main objective of this work is therefore to build a remote laboratory system based on the IoT using the LabVIEW-Arduino interface with the example of proportional-integral-derivative (PID) tuning scheme for the LD-Didactic temperature plant. The practical work would include the implementation of the low-cost Arduino module connecting the actual plant to mobile devices. In addition, interfaces have been built using the Blynk application to allow communication between the end user and the laboratory equipment. In line with the Industrial Revolution 4.0 (IR 4.0), the proposed study structure called for the digitization of the current laboratory experiment method.
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Xie, Fengyun, Shaoshi Yan, Jiankun Dong, Yongqi Jiang, and Yu Fu. "Design of Motor Condition Online Monitoring System Based on LabVIEW." In Advances in Transdisciplinary Engineering. IOS Press, 2020. http://dx.doi.org/10.3233/atde200242.

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In the rail transit industry, the electric locomotive’s electric motor is used as the driving core, and its installation and working environment are often harsh, and the probability of failure will increase accordingly. If the motor fails during the operation of the locomotive, it will cause huge economic losses, and even threaten people’s lives and property. In order to grasp the running status of the motor in real time, an online monitoring system of the motor status is designed. This system collects the three parameters of temperature, current and speed, and inputs the three-parameter data into the single-chip microcomputer. The single-chip microcomputer transmits the data to the host computer through calculation. The host computer analyzes and displays the data through LabVIEW to realize online monitoring of the motor status. Experiments show that the system has a good man-machine interface, a wide speed range, high accuracy, fast response speed, and strong anti-interference ability, which is of great practical value for online monitoring of motors.
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Juárez-Gutiérrez, Sergio Steve, Araceli Gárate-García, Tania Aglaé Ramírez delReal, and Ervin Jesús Alvarez-Sánchez. "Temperature Modeling of a Greenhouse Environment." In Handbook of Research on Military, Aeronautical, and Maritime Logistics and Operations, 257–78. IGI Global, 2016. http://dx.doi.org/10.4018/978-1-4666-9779-9.ch013.

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This chapter presents the methodology to model the temperature inside a zenith greenhouse, without crop, using a Wireless Sensor Network (WSN) and the Recursive Least Square (RLS) Technique to estimate the modeling parameters. The greenhouse size is 6mx18m, the actuators are the motors located at the windows. The WSN collects the measurements and communicates the centralized control and the actuators located in different parts of the greenhouse, it is implemented using National Instruments devices, the graphical interface is developed in LabVIEW system design. There exist a lot of work about greenhouses in the literature; however, most of them did not use mathematical techniques to model the temperature or other environment parameter. Surprisingly, just few works use RLS techniques to estimate the parameters. The main contribution of this project is to integrate the National Instruments technology and the RLS techniques in a real experimental application.
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Gasmelseed, Akram, and Ali H. Alharbi. "Data Visualization Strategies for Computer Simulation in Bioelectromagnetics." In Encyclopedia of Information Science and Technology, Fourth Edition, 1249–59. IGI Global, 2018. http://dx.doi.org/10.4018/978-1-5225-2255-3.ch108.

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Bioelectromagnetics is a branch of science that examines how living organisms interact with electromagnetic fields. In a broader sense, it is a discipline that spans the fields of signal processing, electromagnetics, medical imaging, physiology, medical physics, anatomy, occupational and environmental health, behavioral, and computer sciences. Due to its provision of interactive and flexible programming environment, this chapter describes a LabVIEW based data visualization system that has been implemented and used in bioelectromagnetics simulations. The graphical nature of the LabVIEW programming environment makes it very easy to create a sophisticated application in a minimum amount of time, especially when compared to designing graphical user interfaces in a low-level programming language.
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Conference papers on the topic "Interface LABVIEW"

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Alejos-Palomares, R., J. M. Ramírez Cortes, and N. Domínguez-Martinez. "Digital Spirometer with LabView Interface." In 18th International Conference on Electronics, Communications and Computers (conielecomp 2008). IEEE, 2008. http://dx.doi.org/10.1109/conielecomp.2008.31.

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Elfasi, Abdulghader, Mohamed Abdussalam Shawesh, Waid T. Shanab, and Abdulaziz Khaled Thabet. "Oscilloscope using Arduino interface LabVIEW." In 2017 International Conference on Green Energy Conversion Systems (GECS). IEEE, 2017. http://dx.doi.org/10.1109/gecs.2017.8066129.

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Visan, Daniel Alexandru, and Ioan Lita. "Multipoint wireless measurement system with LabVIEW interface." In 2011 IEEE 17th International Symposium for Design and Technology in Electronic Packaging (SIITME). IEEE, 2011. http://dx.doi.org/10.1109/siitme.2011.6102733.

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Vergura, S., and E. Natangelo. "Labview interface for data analysis of PV." In 2009 International Conference on Clean Electrical Power (ICCEP). IEEE, 2009. http://dx.doi.org/10.1109/iccep.2009.5212052.

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Kumar, Naveen, and Jyoti Ohri. "LabVIEW based fuzzy logic controller for haptic interface." In 2017 8th International Conference on Computing, Communication and Networking Technologies (ICCCNT). IEEE, 2017. http://dx.doi.org/10.1109/icccnt.2017.8204156.

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Zhao, Li, Hui Shen, Shigang Cui, Chuo Li, Yan Bian, Longteng Xiao, and Ziman Liu. "Research of Brain-Computer Interface Technology Based on LabVIEW." In 2008 Fourth International Conference on Natural Computation. IEEE, 2008. http://dx.doi.org/10.1109/icnc.2008.401.

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Al-Jumaily, Anmar K., Vian J. Jumaah, and Hayder T. Assafli. "Efficient Labview Interface Technique for Laser Beam Profile Scanner." In 2020 1st. Information Technology To Enhance e-learning and Other Application (IT-ELA). IEEE, 2020. http://dx.doi.org/10.1109/it-ela50150.2020.9253105.

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Blokland, W. "An interface from LabVIEW to the accelerator controls NETwork." In Accelerator instrumentation fourth annual workshop. AIP, 1992. http://dx.doi.org/10.1063/1.44352.

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Berns, H., T. H. Burnett, R. Gran, G. Wheel, R. J. Wilkes, D. Claes, J. Kite, and G. Snow. "LabView/sup /spl reg// interface for school-network DAQ card." In 2003 IEEE Nuclear Science Symposium. Conference Record (IEEE Cat. No.03CH37515). IEEE, 2003. http://dx.doi.org/10.1109/nssmic.2003.1351833.

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Dumitrescu, Catalin, Ilona Madalina Costea, Cosmin Karl Banica, and Sabina Potlog. "LabVIEW brain computer interface for EEG analysis during sleep stages." In 2015 9th International Symposium on Advanced Topics in Electrical Engineering (ATEE). IEEE, 2015. http://dx.doi.org/10.1109/atee.2015.7133781.

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Reports on the topic "Interface LABVIEW"

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Schempf, H. RoboCon: Operator interface for robotic applications. Final report: RoboCon electrical interfacing -- system architecture, and Interfacing NDDS and LabView. Office of Scientific and Technical Information (OSTI), April 1998. http://dx.doi.org/10.2172/674604.

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