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Modellbasiertes Verfahren zur Online-Leistungsbewertung von automatisierten Transportsystemen in der HalbleiterfertigungSturm, Roland. January 2006 (has links)
Zugl.: Stuttgart, Univ., Diss., 2006. / Druckausg. bei Jost-Jetter, Heimsheim erschienen.
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A design framework for identifying automation opportunities /Nagel, Robert Lewis, January 1900 (has links)
Thesis (Ph. D.)--Oregon State University, 2011. / Printout. Includes bibliographical references (leaves 203-216). Also available on the World Wide Web.
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A study of home builder advertising for smart home technologies /Bingham, Jared Don, January 2006 (has links) (PDF)
Thesis (M.S.)--Brigham Young University. Dept of Technology, 2006. / Includes bibliographical references (p. 47-49).
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Wissensbasiertes Online-Störungsmanagement flexibler, hoch automatisierter Montagesysteme /Heller, Frank. January 2003 (has links)
Zugl.: Paderborn, Universiẗat, Diss., 2003.
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Eine domänenübergreifende Softwarespezifikationstechnik für automatisierte Fertigungsanlagen /Molt, Thorsten. January 2003 (has links)
Zugl.: Paderborn, Universiẗat, Diss., 2002.
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Verkehrsabhängige Betriebsführung bei StadtschnellbahnenGroße, Christine. Unknown Date (has links) (PDF)
Techn. Universiẗat, Diss., 2003--Berlin.
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Collaborative library systems development.January 1971 (has links)
Edited by Paul J. Fasana and Allen Veaner. / Includes papers from the New York Collaborative Library Systems Development Conference, 1970 and a selection of papers from the Stanford Conference on Collaborative Library Systems Development, 1968. / Includes bibliographies.
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Réalisation d'un logiciel d'identification automatique de procédés industriels.Durou, Gilbert, Unknown Date (has links)
Th. doct.-ing.--Bordeaux 1, 1983. N°: 338.
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Design of peripheral devices to augment use of unmanned aerial systems in agricultureDix, Phillip January 1900 (has links)
Master of Science / Department of Biological & Agricultural Engineering / Daniel Flippo / This document presents two distinct designs for tools with potential to improve the efficacy of using multirotor aerial systems in agricultural research. I show design methods and results for constructing electrical, mechanical, and software subsystems capable of working in concert to achieve functional results in each design case. The first presented design is a device capable of remotely collecting pest samples directly from a multirotor to improve the speed and efficiency with which researchers and observe and respond to insect infestations. Design concepts, potential improvements, and construction methods are discussed culminating in the presentation of a prototype. The second design presented here is a printed circuit board for integration of a GNSS receiver with Real Time Kinematic correction capability, an IMU for orientation estimation, and a microcontroller with firmware to support, condition, and log data outputs. The purpose of this design is to provide precise logs of position and orientation of an aircraft and attached camera while collecting images of cropland. This reference data allows precise and accurate geolocation of the images and permits them to be stitched together into a composite map of cropland without requirements for overlap in the content of each individual image. Reduction in required image overlap allows composite aerial images of cropland to be constructed with far less flight time and research expenditure. The development and basic functionality of the device is discussed here. Deeper analysis of performance and applications of this technology is reserved for future publications.
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On virtual commissioning of manufacturing systems : proposals for a systematic VC simulation study methodology and a new simulation model building approachHoffmann, Peter January 2016 (has links)
The development of manufacturing systems is faced with progressively tightening time frames, along with growing requirements on planning quality and engineering accuracy. These demands result from significant cost constraints, shortening of product life-cycles, increasing number of product variants and economic needs for rapid time-to-market. Thus, an efficient production ramp-up including the commissioning as the crucial part, becomes more and more important for engineering companies to stay profitable. Virtual Commissioning (VC) is widely considered as promising method to address the challenges associated with real commissioning, but the simulation model building necessary for VC is affiliated with considerable effort and required expertise. VC of manufacturing systems has been a research topic in academia and industry for far more than a decade. Positive results are reported from large companies e.g. from the automotive industry, which are mostly utilising the complex and costly suites of tools in the context of the Digital Factory, rarely from SMEs. However, in particular also SMEs are forced to improve their engineering and commissioning processes, but suites of tools and methodologies used in large companies are not reasonably transferable to SMEs. Rationale for the rare use of VC, besides its general complexity, are a high modelling effort to build the necessary virtual plant models and a lack of availability of methodologies for systematic implementation and reasonable execution of VC. Thus, the main goal of this research is the development of a new systematic simulation study methodology as general guideline for planning, implementation and execution of VC. It is intended to be notably beneficial for engineers from SMEs, as helpful guideline for planning, implementation and execution of VC and to facilitate the substantially high modelling effort required for VC of manufacturing systems. Besides clarifying the requirements and specifying an environment for VC, the criteria to select an appropriate simulation tool have been established. The proposed modular, component based simulation model building has been split into specified procedures for “Low-level Component Modelling”, to be conducted for the components of the decomposed real manufacturing system, and subsequent “High-level Plant Modelling” of the virtual manufacturing system. The applicability of these new approaches has been validated by planning, implementing and conducting a VC for a trackbound transportation system with self-driving transport cars on passive tracks, which is the major subsystem of the manufacturing system used as test-bed at the UASA Hannover. As one main result, a novel workflow for Low-level Component Modelling has been proposed that aims for the gradual relocation of this modelling task as far as possible to the origin of components, in the end the component manufacturers should provide together with the deliverable components their mechatronic component models. This is related to a novel proposal for exchangeable mechatronic component models and an outlined possible implementation with AutomationML.
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