Thematische Bibliographien / Digital commissioning

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  1. Zeitschriftenartikel
  2. Dissertationen
  3. Bücher
  4. Buchteile
  5. Konferenzberichte

Auswahl der wissenschaftlichen Literatur zum Thema „Digital commissioning“

Autor: Grafiati
Veröffentlicht am 28. Juni 2021
Zuletzt aktualisiert am 10. Februar 2022

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Zeitschriftenartikel zum Thema "Digital commissioning"

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Akin, Omer. „Embedded Commissioning©“. PARC Pesquisa em Arquitetura e Construção 2, Nr. 7 (31.10.2011): 2. http://dx.doi.org/10.20396/parc.v2i7.8634579.

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Embedded Commissioning (ECx) a new digital technology promises to transform capital project delivery (CPD) and its evaluation in the years to come. The primary strategy in ECx is to create an entirely new approach to building evaluation by merging building commissioning methods and information technologies into a new framework. The vision of such broad innovations must include not just new digital tools and techniques but also advances in AEC practices that utilize these innovations. We envision design and engineering practices that are in the service of sound economy, environmental conservation, improved value, greater efficiency, and satisfied occupants. CPD is no longer about competence in delivering just conventional services. Engineers and Architects have to rise to the challenges of our time and insure the best economy in providing the greatest value to stakeholders. Performance needs have to be optimized against first and lifecycle cost of designs. Value must be assessed not just for the bottom line but for other tangible (health, productivity) and intangible (comfort, happiness, recognition) stakeholders benefits. Last but not least, their products must meet the three pillars of the CPD market place: quality, cost, and schedule.
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Mozina, C., und M. Young. „Multifunction digital relay commissioning and maintenance testing“. IEEE Industry Applications Magazine 11, Nr. 5 (September 2005): 50–58. http://dx.doi.org/10.1109/mia.2005.1502473.

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Godhwani, A., M. J. Basler, K. Kim und T. W. Eberly. „Commissioning experience with a modern digital excitation system“. IEEE Transactions on Energy Conversion 13, Nr. 2 (Juni 1998): 183–87. http://dx.doi.org/10.1109/60.678983.

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Tsapaki, V., R. Padovani, E. Vano, A. Schreiner, M. Molfetas, V. Neofotistou und S. Kottou. „Commissioning and constancy protocols for digital angiographic units“. Radiation Protection Dosimetry 129, Nr. 1-3 (18.02.2008): 258–60. http://dx.doi.org/10.1093/rpd/ncn016.

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McMahon, Aisling, Edward Ranahan und James McCullagh. „Tackling the commissioning of a digital radiography AEC system“. Physica Medica 52 (August 2018): 179. http://dx.doi.org/10.1016/j.ejmp.2018.06.062.

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Moro, L., M. Ghisolfi und P. Poggi. „275. Commissioning of a wireless mobile digital radiography system“. Physica Medica 56 (Dezember 2018): 231. http://dx.doi.org/10.1016/j.ejmp.2018.04.285.

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Skýpala, Richard, und Roman Ružarovský. „Virtual commissioning of automated manufacturing systems — Quality-handling station case study“. MATEC Web of Conferences 343 (2021): 04002. http://dx.doi.org/10.1051/matecconf/202134304002.

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The aim of the contribution is to create an event-controlled simulation of an automated production system using selected simulation software according to analyses and creation PLC control program compatible with human-machine control interface (HMI) visualization. The programmer can test the control program without the need for additional hardware on a virtual model of the machine. This method is called as a Virtual Commissioning method. The question is whether these new digital technologies are beneficial in the development process of new machines. The theoretical part of the contribution deals with the evaluation of the current state of knowledge in the field of virtual commissioning systems from the perspective of the Industry 4.0 concept and the use of principles taken from the technology of digital twins for analysing the possibilities of productive support of simulation, programming and visualization of control. For the Virtual Commissioning of the Quality-handling station from a flexible production system. It was chosen Tecnomatix Process simulating software for the developing of the Digital Twin of the station that is suitable for the connection of the logical behaviour inputs and outputs of the Digital Twin to the PLCSIM emulator. The main goal is to create a functional PLC program, so that in the second phase the process of virtual commissioning can be tested by the Software-the-Loop method. The preparation of the simulation model consists in a sample of the control station model of the production system, the process of creating kinematic bonds, behaviour model, creating control signals in the Tecnomatix Process Simulate program. Programming procedure and acquaintance with control means in the Simatic Manager program, selection of communication interface and creation of control visualization. In the final work, validation is performed and evaluation supports the objectives and the results confirmed the benefits of the Virtual Commissioning tool.
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Adams, C., A. Bambaugh, B. Bilki, J. Butler, F. Corriveau, T. Cundiff, G. Drake et al. „Design, construction and commissioning of the Digital Hadron Calorimeter—DHCAL“. Journal of Instrumentation 11, Nr. 07 (12.07.2016): P07007. http://dx.doi.org/10.1088/1748-0221/11/07/p07007.

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Kim, Soojung, Erik A. Poirier und Sheryl Staub-French. „Information commissioning: bridging the gap between digital and physical built assets“. Journal of Facilities Management 18, Nr. 3 (04.07.2020): 231–45. http://dx.doi.org/10.1108/jfm-04-2020-0024.

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Purpose As the use of building information modeling (BIM) for facilities management (FM) continues to grow, questions remain around the quality and completeness of digital assets to support FM practices. This paper aims to examine the current gap between digital and physical assets in the absence of formal information requirements and its impact on the handover process. Design/methodology/approach An action-research was carried out with a large public organization to understand the challenges of their current FM processes and the steps required in developing an asset information model (AIM) from a project information model (PIM). A mixed method approach was employed with interviews, document analysis and an exploratory pilot case study. Findings This paper investigates the process, the challenges and the level of effort of the information commissioning process to create a fit-for-use AIM. Four distinct steps were identified in the process as follows: analyzing the handover PIM and documents, extracting FM-specific information, populating the model with the information and attaching operations and maintenance (O&M) documents. The research highlights the significant amount of effort that is required when no specific asset information requirements are formulated at the project onset. Practical implications The paper presents an information commissioning process that helps to develop an AIM from a PIM. Understanding the impact of the lack of requirements on the information commissioning process can help asset owners understand the importance of defining and articulating their information requirements up front. Originality/value This paper provides empirical evidence of the impact of the absence of formal information requirements on the development of a fit-for-use AIM.
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Ivezić, Željko, Josh Goldston, Kristian Finlator, Jill Knapp und Brian Yanny. „Impact of the Sloan Digital Sky Survey on Variable Star Research“. International Astronomical Union Colloquium 176 (2000): 68. http://dx.doi.org/10.1017/s0252921100057110.

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AbstractWe present the results of a preliminary search for variable objects in about 100 deg2 of SDSS commissioning data surveyed twice with Δt=1.99462 days. In particular, we find that the density of RR Lyrae star candidates abruptly ends at a galactocentric radius of 50–60 kpc.
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Dissertationen zum Thema "Digital commissioning"

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Kelso, Richard M. „Automated commissioning of HVAC systems using first principle models“. Thesis, Loughborough University, 2003. https://dspace.lboro.ac.uk/2134/7585.

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Commissioning of HVAC systems has potential for significant improvements in occupant satisfaction, comfort and energy consumption, but is very labour-intensive and expensive as practiced at this time. Previous investigators have capitalized on digital control systems' capability of logging and storing data and of interfacing with external computers for open loop control by developing methods of automated fault detection and diagnosis during normal operation. Some investigators have also considered the application of this technique in commissioning. This thesis investigates the possibility of utilizing first principles and empirical models of air-handling unit components to represent correct operation of the unit during commissioning. The models have parameters whose values can be determined from engineering design intent information contained in the construction drawings and other data available at commissioning time. Quasi-dynamic models are developed and tested. The models are tested against design intent information and also against data from a real system operating without known faults. The results show the models agree well with the measured data except for some false positive indications, particularly in the damper and fan models, during transients. A procedure for estimating uncertainty in the instrumentation and the models is developed. The models are also tested against artificial faults and are able to detect all of the faults. Methods of diagnosing the faults are discussed.
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Uddin, Md Mehrab. „Development of Advanced Process Control for Controlling a Digital Twin as a Part of Virtual Commissioning“. Thesis, Högskolan i Gävle, Elektronik, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-37079.

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Over the last few decades, the complexity and variety of automation systems have increased dramatically. Commissioning has grown more and more critical for the entire industry. Conventional commissioning is time-consuming and expensive. It's always been a challenge in manufacturing to put new designs into production or implement new technologies, control codes, or tactics. In Virtual Commissioning (VC), control programs of the physical system's Digital Twin (DT) can be validated in Software-in-the-Loop (SIL) before the actual commissioning. The emergence of new VC tools and methods has become a tremendous advantage, bringing the values of shorter duration, flexibility, and lower risks to the commissioning process. In this thesis, advanced process control was developed using the software Matlab and Simulink in conjunction with the engineering tools S7-PLCSIM Advanced and STEP 7 TIA Portal to conduct VC. A VC approach with four key steps is taken to evaluate the possibility of validating advanced process control. The steps are modeling DT of a rolling mill, model-based control design, simulation model development in Simulink, communication between the simulation model and the PLC program using S-7 TIA Portal, and PLCSIM Advanced. Also, a simulated Human-Machine Interface was designed to operate and visualize the process. VC of the rolling mill process was verified and validated by Model-in-the-Loop (MIL) and SIL simulation. The simulation gives satisfactory results as both MIL and SIL show identical outputs of the process.
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Ariza, Agudelo Daniel. „Virtual Commissioning di una linea di assemblaggio automatica per sigarette elettroniche“. Master's thesis, Alma Mater Studiorum - Università di Bologna, 2019.

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Il progetto di tesi su cui si è lavorato è stato svolto in GIMA TT, grazie alla partnership di Hotminds S.r.l. che ha fornito il software di simulazione IndustrialPhysics, sulla linea automatica HS-ESP per il mercato giapponese, che produce un nuovo prodotto di sigaretta elettronica. La linea, per rispondere alle richieste dell’acquirente, ha richiesto la collaborazione da parte di altre divisioni interne ad IMA, facilitandone e velocizzandone la sua realizzazione. Questo ha permesso di adottare il know-how esterno ma, al tempo stesso, di adattare il funzionamento della linea ai diversi tipi di controllori che le divisioni utilizzano. Lo studio si è basato su una linea automatica già assemblata presente in montaggio e pronta per la consegna, analizzando le parti di macchina coinvolte nel confezionamento del prodotto. Una volta importato l’assieme della linea automatica in IndustrialPhysics dal progetto meccanico di Creo Parametric e ridefinite tutte le parti in movimento, gli attuatori e i sensori, si è potuto procedere al collegamento con i diversi controllori. Effettuato il collegamento, nello stesso modello di simulazione, utilizzando una architettura hardware in the loop, che consente di collegare il modello virtuale al sistema di controllo reale, si è provveduto a verificare il corretto funzionamento della parte di linea interessata. Il principale scopo del modello virtuale è testare il programma di controllo, prevenendo errori di funzionamento del software della macchina prima che sia effettivamente assemblata: in questo progetto pilota si è partiti da una macchina già pronta anche dal punto di vista del programma di controllo. Lo scopo principale della tesi è stato poter testare le funzionalità degli strumenti di Virtual Commissioning e poter collegare più macchine, gestite da più controllori, ad una stessa simulazione, in previsione di una futura applicazione a macchine non ancora implementate di un software di controllo.
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Ravi, Rahul. „Digital Twin of an Automatic Machine Using Unity and Prespective Software“. Master's thesis, Alma Mater Studiorum - Università di Bologna, 2020.

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Digital Twin is the modern way of prototyping. It is a new layer on top of an existing model, extending the possibilities. This thesis work was carried out and developed at the research laboratory “LIAM LAB”. The main focus was to study the efficacy in developing a Digital Twin of an automatic machine in detail. It is a packaging machine (Technocoil 2200) from “SICA” using PRESPECTIVE, a Digital Twining software based on a game engine UNITY3D. Digital Twin tools and solutions are offered by many major companies, but these have the potential disadvantage of vendor lock-in. Although these brands claim to be open, their tools do not operate very well with third-party software. This makes many users to opt for openness which will help in integrating many features as per their requirement. Another main factor is providing high resolution simulations with an ability to solve complex physical problems which could be handled by Unity. The process of modelling a Digital Twin is studied extensively in this thesis work. But, in particular the tube guide part of the machine was considered, and its Digital Twin was modelled using Prespective and subsequently the interfacing of the model in Prespective with a PLC was implemented. Finally, the interfacing is validated by forcing values from controller and visualizing the outputs in Unity.
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Giudiceandrea, Roberto. „Virtual Commissioning of a crown-caps manufacturing machine through hardware in the loop architecture“. Master's thesis, Alma Mater Studiorum - Università di Bologna, 2019.

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Questo progetto di tesi, svolto in collaborazione con l’azienda SACMI S.C. di Imola e sviluppato all’interno del laboratorio industriale di ricerca LIAM Lab, ha come obiettivo la realizzazione di un Digital Twin di una sezione di macchina in fase di costruzione in azienda, attraverso l’ausilio del Software commerciale Virtuos. In particolare, dopo aver studiato le caratteristiche del Software, le possibili configurazioni e le tecnologie di comunicazione con PLC di terze parti, è stata eseguita una modellazione cinematica e logica della macchina. Ottenuto il modello, lo si è messo in comunicazione con il codice di controllo fornito dall’azienda. Questa comunicazione può avvenire in locale, ovvero con il codice di controllo eseguito sulla stessa macchina dove si trova Virtuos («PC Virtuos»), oppure in remoto, dove il codice viene eseguito su un IPC Beckhoff connesso al «PC Virtuos» simulando la configurazione Hardware del progetto reale. Il tutto si concretizza nella visualizzazione delle movimentazioni comandate. A questo livello, il Digital Twin si presta supportare la fase di debug e all’ottimizzazione del codice macchina, presupponendo però un corretto dimensionamento degli azionamenti. Successivamente si è valutata la possibilità di estendere Virtuos a meccanismi di co-simulazione al fine estendere le caratteristiche del modello con proprietà dinamiche, con l’obiettivo di verificare la bontà di Virtuos come strumento per validare le assunzioni fatte nella fase di dimensionamento del sistema. La co-simulazione dinamica viene valutata anche per modellare la flessibilità di alcune parti critiche della macchina oppure l’effetto degli urti tra gli oggetti movimentati durante il ciclo di lavoro, fornendo un intuitivo feedback grafico.
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Lidell, Anton. „A Deep Dive into the Current and Future Conditions for Virtual Commissioning of Production Lines“. Thesis, Högskolan i Skövde, Institutionen för ingenjörsvetenskap, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:his:diva-20125.

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The use of virtual commissioning has increased in the last years, but there are still challenges before the software code validation method is widespread in use. One of the additions to virtual commissioning is basing it on a digital twin to allow for improved accuracy. The aim of this thesis is to review existing standards and approaches to developing virtual commissioning, as well as to explore the definitions. The chosen approach to achieve the aim, is to perform a literature review of existing research papers and interviews with knowledgeable people in the industry. First, the definitions and classifications are reviewed, then the approaches for development of virtual commissioning and digital twins are explored in the literature. In three interviews with people of varying backgrounds and competences, the views of the virtual technologies are assessed to provide insight in the industry. The findings of the literature review and interviews are among others, the apparent need for standardisation in the field and that a sought-after standard in the form of ISO 23247-1 is under way. Furthermore, the digital twin is a concept with a promising future in combination with other technologies of Industry 4.0. In conclusion, this thesis provides a deep review of the challenges and possibilities of virtual commissioning and the digital twin and could be used as starting point for further research in standardisations and improvements sprung from the new standard.
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Zanzani, Francesco. „Virtual commissioning di una macchina CNC: implementazione del modello e verifica delle traiettorie“. Master's thesis, Alma Mater Studiorum - Università di Bologna, 2021.

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Il lavoro di tesi si inserisce nell’ambito del Virtual Commissioning e prevede lo sviluppo del Digital Twin di una macchina transfer a tavola girevole e modulabile chiamata TDRILL, prodotta dall’azienda Giuliani. Si è scelto di concentrarsi su una specifica stazione perché rappresenta l’unità operatrice più completa presente in macchina; questa unità è chiamata Multibit ed è assimilabile ad una fresatrice CNC 3 assi. Nel complesso il vantaggio più grande dello sviluppo del Digital Twin è rappresentato dalla possibilità di testare virtualmente la macchina senza avere, quindi, la necessità di produrla e montarla. In questo modo è possibile risparmiare molto tempo ed eseguire le prime procedure di collaudo senza il rischio di danneggiare i componenti fisici. Nello specifico, in questo elaborato è stato descritto lo sviluppo del sistema di controllo per l’esecuzione delle movimentazioni ed è stato implementato l’ambiente di simulazione grafica dell’unità operatrice presa in esame. L’idea è quella di costruire un modello cinematico virtuale, completo ed autonomo della Multibit ed è stato fatto principalmente integrando tra loro 3 differenti software: Automation Studio, Industrial Physics e Scene Viewer. La costruzione del modello è partita da una versione preliminare per essere successivamente completata con tutte le funzionalità CNC. Al termine della costruzione di ogni versione sono state effettuate verifiche: sulle leggi di moto, sui tempi di movimentazione e sugli spostamenti effettivi eseguiti. Il modello costruito è in grado di simulare il funzionamento della Multibit in completa autonomia senza avere la necessità della presenza di nessun componente fisico della macchina, simulando anche il PLC e gli azionamenti. Nello specifico riceve in ingresso il file contenente le istruzioni sulla lavorazione da eseguire ed è possibile visualizzare: la Multibit in movimento, la traccia del percorso utensile eseguito e tutti i dati di posizione e velocità per ogni singolo asse.
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Riabichev, Maxim. „Modelling a Scalable, Reusable and Realistic Digital Twin for Virtual Commissioning : Investigating possibilities with custom SmartComponents in ABB RobotStudio“. Thesis, Mittuniversitetet, Institutionen för elektronikkonstruktion, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:miun:diva-37298.

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The Advanced Manufacturing section at ÅF Pöyry AB is exploring the possibilities of virtual commissioning and digital twins. As part of this exploration, this thesis sets out to demonstrate a method of developing scalable, reusable and realistic digital mechatronic models – the heart of a digital twin – for the virtual environment in RobotStudio. Research has shown that one of the major obstacles to implementing virtual commissioning as a standard in industry today is the lack of scalable and reusable digital twins. This is also the experience of ÅF Pöyry AB. After reviewing existing and proposed methods for developing digital twins, this thesis explains the necessary steps for developing a SmartComponent in RobotStudio, using the programming language C#. The results show that the SmartComponent developed is scalable and thus reusable. It works with grippers with any number of fingers and allows gripping by applying pressure to the target object from both the outside and the inside. It is also realistic in the sense that the interaction between the grippers and the objects to be picked in the virtual environment behaves and looks like it does in reality. The implementation of the SmartComponent developed is much faster and less complex than the method used today at ÅF Pöyry AB. The downsides of the developed method are the added competence required of the automation engineer and the risk that the digital twin may not be future-proof.
Avdelningen Advanced Manufacturing på ÅF Pöyry AB utforskar möjligheter med ”Virtual Commissioning” och ”Digital Twins”. Som ett led i detta projekt har syftet med detta examensarbete varit att visa ett sätt att utveckla en skalbar, återanvändbar och realistisk digital mekatronisk modell för den virtuella miljön i RobotStudio. Tidigare forskning har visat, i linje med ÅF Pöyry AB:s satsning, att ett av de stora hinder för att Virtual Commissioning ska kunna implementeras som standard i industrin idag är bristen av skalbara och återanvändbara digitala tvillingar. Efter en genomgång av den befintliga och föreslagna metoden för att utveckla digitala tvillingar presenteras de nödvändiga stegen för att utveckla en SmartComponent för RobotStudio, med programmeringsspråket C#. Resultaten av utvecklingen och testen har visat att den utvecklade SmartComponent är skalbar och återanvändbar: den fungerar med gripare oavsett antal fingrar och den tillåter gripning både genom att applicera tryck på plockobjektet från utsidan och insidan. Den är också realistiskt på så vis att interaktionen mellan griparen och objekten som ska plockas i den virtuella miljön beter sig och ser ut som i verkligheten. Implementeringen av den utvecklade SmartComponent är också mycket effektivare och mindre komplex jämfört med den metod som används idag på ÅF Pöyry AB. Nackdelarna med den föreslagna metoden är de extra kompetenskraven för automationsingenjörer och risken att den digitala tvillingen inte är framtidssäker.
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Ospina, Eslava David Mauricio, und Avendaño Flores Santiago. „Virtual Commissioning of Robotic Cell Using Cloud-based Technologies and Advanced Visualization System“. Thesis, Högskolan i Skövde, Institutionen för ingenjörsvetenskap, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:his:diva-19793.

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The manufacturing industry is quickly adapting to new technologies. Some of these trending technologies are virtual commissioning, virtual reality, and cloud-based technologies. This project summarizes these three technologies and aims to create a commissioning tool adapted to the 4.0 Industry. The project’s methodology was to analyse a problem and consequently create a solution that solves it. The process of designing and developing was repeated iteratively, each time an evaluation was made. The final product developed has shown that it is worth spending time introducing the cloudbased technologies inside many applications since it saves time and allows to work remotely. Applying virtual reality to virtual commissioning has proven to add efficiency. At the same time, it gives an immersive experience with a real-time display of quantitative data and the process itself in a visual mode without interfering with the actual production. With these two technologies, virtual commissioning evolves and goes a step further. This project also proved that the user experience and interface in this type of immersive applications need much attention on creating a comfortableinterface that does not fatigue or cause rejection in the user.
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Edgar, Alexander Montero Vera. „Virtual Commissioning of an industrialwood cutter machine : A software in the loop simulation“. Thesis, Luleå tekniska universitet, Institutionen för system- och rymdteknik, 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-77401.

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The methods used today for the commissioning and validation of industrial machines requires theconstruction of physical prototypes. Those prototypes help the engineers to e.g. validate if theprogram code meant to control a machine works as intended. In recent years the development ofnew techniques for the commissioning and validation of industrial machines has changed rapidlythanks to the development of new software. The method used in this thesis is called simulationin the loop. Another method that can be benecial to use is hardware in the loop. Using thosemethods for the commissioning of a machine is called virtual commissioning. The simulation inthe loop method is used to simulate both the machine and the control system that operate thatmachine. This is called a digital twin, a virtual copy of the physical hardware and its control systemthat can be used without the need for a real prototype to be available.The software used in this thesis comes all from the company Siemens and those are TIA Portal,Mechatronics Concept Designer, SIMIT and PLCSim Advanced. By using those programs it waspossible to build a digital twin with rigid body dynamics and its control system of the industrialmodel that was given by the company Renholmen AB. This model contained all the necessarycomponents needed for a virtual commissioning project to be done without the need to be at thefactory oor.The results showed that it was possible to achieve a real time simulation, allowing the possibilityto trim the controller parameters without the need of a physical prototype. Design errors were alsofound thanks to the results of the simulation.This new technique has shown to be a useful tool due to most of the work could be done on a digitalmodel of the machine. Simulations can reduce the time to market for industrial machines and alsohelp engineers to validate and optimize the product at an early stage. This tool that can be usedto validate industrial machines before they are created.
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Bücher zum Thema "Digital commissioning"

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Nardone, Mary S. Direct digital control systems: Application, commissioning. Boston: Kluwer Academic Publishers, 1999.

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Nardone, Mary S. Direct Digital Control Systems: Application · Commissioning. Boston, MA: Springer US, 1999.

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British Educational Communications and Technology Agency. ICT, amenability and the BBC digital curriculum service in Ireland: Becta's report to the DCMS : report on the subjects and key stages to be covered by the BBC in its year 1 commissioning plans for Ireland. Coventry: Becta, 2004.

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British Educational Communications and Technology Agency. ICT, amenability and the BBC digital curriculum service in England: Becta's report to the DCMS : report on the subjects and key stages to be covered by the BBC in its year 1 commissioning plans for England. Coventry: Becta, 2004.

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Agency, British Educational Communications and Technology. ICT, amenability and the BBC digital curriculum service in Wales: Becta's report to the DCMS : report on the subjects and key stages to be covered by the BBC in its year 1 commissioning plans for Wales. Coventry: Becta, 2004.

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British Educational Communications and Technology Agency. ICT, amenability and the BBC digital curriculum service in Scotland: Becta's report to the DCMS : report on the subjects and key stages to be covered by the BBC in its year 1 commissioning plans for Scotland. Coventry: Becta, 2004.

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Thomson, C. Claire. Symphony of a Short Film: A City Called Copenhagen. Edinburgh University Press, 2018. http://dx.doi.org/10.3366/edinburgh/9781474424134.003.0010.

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This chapter is devoted to a detailed account of the life cycle of one film, arguably the high water mark of Dansk Kulturfilm’s production: Jørgen Roos’ 1960 short A City Called Copenhagen. This film was nominated for an Academy Award in the Short Subject category. The commissioning process and funding negotiations for this film were prolonged and complex, and are referred to in the film itself, an example of its use of humour. The film was shot on the cusp of the 1960s, and so documents changes to the cityscape, including the presence of Arne Jacobsen’s SAS Hotel. A City Called Copenhagen also circulated very widely and in multiple languages, offering a rich history of distribution and reception. Shot on Eastmancolor stock, the film is an exemplar of how the material instantiation of informational films impacts on their life cycle, and illustrates how the use of digital restoration techniques can recover films for a new digital dispositif.
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Buchteile zum Thema "Digital commissioning"

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Nardone, Mary S. „The Commissioning Process“. In Direct Digital Control Systems, 81–95. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4615-4923-9_6.

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Nardone, Mary S. „The Commissioning Team“. In Direct Digital Control Systems, 97–107. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4615-4923-9_7.

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Nardone, Mary S. „The Commissioning Protocol“. In Direct Digital Control Systems, 109–36. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4615-4923-9_8.

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Nardone, Mary S. „DDC System Commissioning“. In Direct Digital Control Systems, 137–60. Boston, MA: Springer US, 1999. http://dx.doi.org/10.1007/978-1-4615-4923-9_9.

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Schlegel, David. „Commissioning Data from the Sloan Digital Sky Survey“. In ISO Surveys of a Dusty Universe, 385–93. Berlin, Heidelberg: Springer Berlin Heidelberg, 2000. http://dx.doi.org/10.1007/3-540-45553-1_48.

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Castander, F. J., R. C. Nichol und A. Merrelli. „The Coma Cluster of Galaxies: Spectral Classification and Star Formation with the Sloan Digital Sky Survey Spectroscopic Commissioning Data“. In Highlights of Spanish Astrophysics II, 73–76. Dordrecht: Springer Netherlands, 2001. http://dx.doi.org/10.1007/978-94-017-1776-2_17.

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Loeffler, Elke. „The Four Co’s: Co-commissioning, Co-design, Co-delivery and Co-assessment of Public Services and Outcomes Through Traditional and Digital Mechanisms“. In Co-Production of Public Services and Outcomes, 75–176. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-55509-2_3.

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Panke, Richard A. „Installation/Commissioning“. In Energy Management Systems and Direct Digital Control, 129–35. River Publishers, 2020. http://dx.doi.org/10.1201/9781003150992-13.

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„ICT procurement and commissioning for coherent policy implementation in Argentina“. In Digital Government Review of Argentina. OECD, 2019. http://dx.doi.org/10.1787/99ad088c-en.

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Shen, Weidong, Tianliang Hu, Yisheng Yin, Jianhui He, Fei Tao und A. Y. C. Nee. „Digital twin based virtual commissioning for computerized numerical control machine tools“. In Digital Twin Driven Smart Design, 289–307. Elsevier, 2020. http://dx.doi.org/10.1016/b978-0-12-818918-4.00011-7.

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Konferenzberichte zum Thema "Digital commissioning"

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Mozina, C., M. Young, B. Bailey, D. Baker, G. Dalke, B. Duncan, J. Fischer et al. „Commissioning and maintenance testing of multifunction digital relays“. In 2004 IEEE Industrial and Commercial Power Systems Technical. IEEE, 2004. http://dx.doi.org/10.1109/icps.2004.1314986.

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Mozina, Charles. „Application and Commissioning of Multifunction Digital Transformer Relays“. In 2006 Power Systems Conference: Advanced Metering, Protection, Control, Communication, and Distributed Resources. IEEE, 2006. http://dx.doi.org/10.1109/psamp.2006.285403.

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Guerra-Zubiaga, David, Kevin Kamperman und Mohamed Aw. „Virtual Commissioning for Advanced Manufacturing Using Digital Tools“. In ASME 2020 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/imece2020-23335.

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Abstract Following the Industry 4.0 paradigm with the rise of smart factories, there is a growing need in exploring digital manufacturing tools compatible with Industrial Internet of Things (IIoT) functionalities. This paper discusses the concept of Virtual Commissioning (VC) including applications in present and near-future advanced automation and production. Specifically, global trends towards Industry 4.0 and virtual manufacturing processes are explored in addition to how and why these emerging technologies could be applied. Furthermore, the advantages of VC processes are contrasted to Traditional Physical Commissioning (TPC) to highlight the evolution of Product Lifecycle Management (PLM) software and the optimization of manufacturing processes since the turn of the century. This research aims to use state-of-the-art PLM software to replicate a physical prototype in near-perfect functionality to demonstrate the effectiveness of VC in an industrial setting. Developing a methodology for this research, the analysis is followed by a case study involving a Mini Festo Pick-and-Place (P&P) unit simulated in Siemens Tecnomatix Process Simulate and controlled via ladder logic executed in Totally Integrated Automation (TIA) Portal. As expected, the results of this case study validate the potential for optimized contemporary manufacturing solutions in which higher-quality goods are reliably produced with minimal delays at all-time low principal investments through the use of VC tools.
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Welton, Drew, und Will Knapek. „Important Considerations in Testing and Commissioning Digital Protective Relays“. In 2017 IEEE Rural Electric Power Conference (REPC). IEEE, 2017. http://dx.doi.org/10.1109/repc.2017.15.

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Grethler, Michael, Jivka Ovtcharova und Marin B. Marinov. „Service Prototyping Based on Digital Twins for Virtual Commissioning Scenarios“. In 2020 XI National Conference with International Participation (ELECTRONICA). IEEE, 2020. http://dx.doi.org/10.1109/electronica50406.2020.9305142.

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Grethler, Michael, Jivka Ovtcharova und Marin B. Marinov. „Service Prototyping Based on Digital Twins for Virtual Commissioning Scenarios“. In 2020 XI National Conference with International Participation (ELECTRONICA). IEEE, 2020. http://dx.doi.org/10.1109/electronica50406.2020.9305142.

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Aprilia, Ernauli, Thanh Le und Frans Campfens. „Warm-commissioning tool of the data chain of digital measurement systems“. In 2015 IEEE Eindhoven PowerTech. IEEE, 2015. http://dx.doi.org/10.1109/ptc.2015.7232340.

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Lai, Yen-Shin, Shang-Wei Chen und Zih-Jie Su. „Self-commissioning of digital-controlled power factor corrector with critical current mode“. In 2013 1st International Future Energy Electronics Conference (IFEEC). IEEE, 2013. http://dx.doi.org/10.1109/ifeec.2013.6687473.

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Ramesh, Akhilnandh, Zhaojun Qin und Yuqian Lu. „Digital Thread Enabled Manufacturing Automation Towards Mass Personalization“. In ASME 2020 15th International Manufacturing Science and Engineering Conference. American Society of Mechanical Engineers, 2020. http://dx.doi.org/10.1115/msec2020-8429.

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Abstract Manufacturing industries are moving towards mass personalization, which refers to the rapid production of individualized products, with large scale efficiencies. This shift from push-type mass customization to pull-type mass personalization will pose critical operational challenges to manufacturing businesses, with complexities ranging from effective requirements elicitation to design, manufacturing, commissioning and after-sales support. Aiming at addressing these challenges, a feasible operational framework for enabling efficient manufacturing automation for mass personalization is proposed in this paper. A key element of this operational framework is the Digital Thread, which streamlines information flow associated with design, manufacturing, maintenance and servicing of a personalized product, each of which are represented as Digital Twins. An As-Designed Digital Twin is created from the beginning of the product co-design process, which then evolves into the subsequent design and manufacturing process and systems resulting in As-Designed Digital Twin evolving to As-Planned Digital Twin and then to As-Built Digital Twin. The personalized product, after it’s commissioning and installation constitutes the As-Maintained Digital Twin of the product, which stores product data related to field performance. The data exchange and communications between these Digital Twins that reside in the various departments of the organization and the management systems create a seamless Digital Thread, capturing the lifecycle information of each personalized product. Personalized product is proposed to be developed through a self-organizing shopfloor, working on a multi-agent mechanism and controlled by a central agent control algorithm, which can coordinate and provide individualized process plans. The Digital Twins, interlinked by a Digital Thread and realized by a self-organizing shopfloor, thus result in increased level of automated control in engineering and manufacturing. To validate the feasibility of this proposed framework, we tested the information flow in the Digital Thread with a case study in the construction industry. Finally the challenges faced by such an automation framework and the area of future work are also discussed.
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Mozina, Charles J. „Improvements in protection and commissioning of digital transformer relays at medium voltage industrial facilities“. In CPS). IEEE, 2011. http://dx.doi.org/10.1109/icps.2011.5890895.

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