Relevant bibliographies by topics / Automated Processes

Contents

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

Academic literature on the topic 'Automated Processes'

Author: Grafiati
Published: 7 June 2025
Last updated: 17 July 2025

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Journal articles on the topic "Automated Processes"

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Klos, T., K. Somefun, and H. La Poutre. "Automated Interactive Sales Processes." IEEE Intelligent Systems 26, no. 4 (2011): 54–61. http://dx.doi.org/10.1109/mis.2010.34.

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Chase, H. A. "Automated affinity separation processes." Journal of Chemical Technology & Biotechnology 36, no. 8 (2007): 351–56. http://dx.doi.org/10.1002/jctb.280360803.

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Abajian, Hakob, Venkat Vuppula, Johnson Kwong, et al. "27 Automated IRB compliance and secure data delivery in i2b2." Journal of Clinical and Translational Science 9, s1 (2025): 10. https://doi.org/10.1017/cts.2024.718.

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Objectives/Goals: To address the manual, time-consuming processes of validating IRB compliance and ensuring the secure delivery of i2b2 data, this project automates compliance checks, streamlines Protected Health Information (PHI) access, and provides timely, secure data availability while reducing administrative burdens and non-compliance risks. Methods/Study Population: This project enhances the i2b2 application to automate compliance processes and facilitate secure data delivery through integration with REDCap. By linking i2b2 with the IRB system, the application performs automatic compliance checks for project requests, verifying GCP and HIPAA certifications, only allowing the release of IRB-approved PHI variables, safeguarding against unauthorized data access. Manual signatures confirm non-automated compliance processes. Once verified, the application automatically creates a REDCap project, assigns user access, and securely delivers data, ensuring compliance with HIPAA regulations. Results/Anticipated Results: The automated system successfully streamlined IRB compliance checks and data delivery for i2b2 requests. Validation of certifications like GCP and HIPAA, now occurs automatically, significantly reducing the risk of non-compliance. Personnel access to data is limited to IRB-approved PHI, ensuring data security and adherence to institutional standards. The integration with REDCap has reduced manual processes, cutting data request processing time to approximately 30 minutes. Researchers and administrative staff experienced a notable decrease in administrative burden, with faster, more efficient access to approved data while maintaining full compliance with IRB and HIPAA regulations. Discussion/Significance of Impact: The lessons learned can be adapted by institutions to improve compliance efficiency and reduce administrative overhead. Implementing similar automation of certification checks and data delivery, sites can enhance data security, minimize errors, and ensure faster, compliant access to research data.
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Konyukhov, A. G. "Metrological support to automated processes." Measurement Techniques 31, no. 2 (1988): 110–12. http://dx.doi.org/10.1007/bf00864240.

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Karhula, Henri, and Mike Nicolai. "Towards Automated Synthesis of Automatic Automated Transmission Designs." International Journal of Automotive Engineering 9, no. 4 (2018): 244–51. http://dx.doi.org/10.20485/jsaeijae.9.4_244.

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Morozov, A. O. "Decision-making. Terms and definitions." Mathematical machines and systems 2 (2022): 64–67. http://dx.doi.org/10.34121/1028-9763-2022-2-64-67.

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Decision-making is directly connected with purposeful human activity. All people are engaged in this process on a daily basis both personally and using automatic or automated systems. The paper considers the issues of decision-making technology in automatic and automated systems, identifies the main stages of decision making: data – information – knowledge – decision making – decision implementation. There are defined terms «data», «information», «knowledge», «decision», «implementation» which are used at the stages of decision making and decision implementation in automated and automatic control systems. In the paper, there are provided definitions of automatic and automated systems, robots as a separate class of automatic systems, as well as the next stage of development of robots – self-organizing automatic machines which are independently configured to perform various target functions based on the rules of acquiring knowledge. Some features of large systems such as industry or state are noted. For such systems, it is impossible to get all the necessary data about the processes that take place in them. Therefore, the information obtained as a result of their processing will not provide enough knowledge for decision-making on system management. Missing knowledge can be obtained thanks to the unformalized knowledge of people. The definition of unformalized knowledge is provided as well. The paper forms the principles of building automated and automatic systems using artificial intelligence and describes the sequence of control processes in any automatic or automated control system
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Fernández, Susana, Tomás de la Rosa, Fernando Fernández, et al. "Using automated planning for improving data mining processes." Knowledge Engineering Review 28, no. 2 (2013): 157–73. http://dx.doi.org/10.1017/s0269888912000409.

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AbstractThis paper presents a distributed architecture for automating data mining (DM) processes using standard languages. DM is a difficult task that relies on an exploratory and analytic process of processing large quantities of data in order to discover meaningful patterns. The increasing heterogeneity and complexity of available data requires some expert knowledge on how to combine the multiple and alternative DM tasks to process the data. Here, we describe DM tasks in terms of Automated Planning, which allows us to automate the DM knowledge flow construction. The work is based on the use of standards that have been defined in both DM and automated-planning communities. Thus, we use PMML (Predictive Model Markup Language) to describe DM tasks. From the PMML, a problem description in PDDL (Planning Domain Definition Language) can be generated, so any current planning system can be used to generate a plan. This plan is, again, translated to a DM workflow description, Knowledge Flow for Machine Learning format (Knowledge Flow file for the WEKA (Waikato Environment for Knowledge Analysis) tool), so the plan or DM workflow can be executed in WEKA.
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Kaiser, Bryan E., Juan A. Saenz, Maike Sonnewald, and Daniel Livescu. "Automated identification of dominant physical processes." Engineering Applications of Artificial Intelligence 116 (November 2022): 105496. http://dx.doi.org/10.1016/j.engappai.2022.105496.

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Clerx, Bart. "Fully automated, cost-effective painting processes." IST International Surface Technology 10, no. 3 (2017): 12–13. http://dx.doi.org/10.1007/s35724-017-0058-3.

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Żółkoś, Marcin, Marek Krok, Janusz Porzycki, Janusz Świder, and Marek Grabowy. "Grinding processes automated diagnostic test stand." Mechanik 91, no. 8-9 (2018): 747–50. http://dx.doi.org/10.17814/mechanik.2018.8-9.122.

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Presented is the automated measuring test stand based on the modified Haas VF-2YT machining center. That allows conducting experimental research of conventional and assisted with workpiece ultrasonic oscillations grinding processes (UAG). Respective measurement paths and automated measurement data acquisition process during the experimental research was discussed. Particular notice was given to grinding force components measurement system.
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Dissertations / Theses on the topic "Automated Processes"

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Ngemoh, Forba Augustine. "Modelling the automated screw insertion process." Thesis, King's College London (University of London), 1997. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.265043.

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Nilsson, Anna. "Effective production and automated processes in road construction." Thesis, Mälardalens högskola, Akademin för innovation, design och teknik, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:mdh:diva-15034.

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This is a bachelor thesis in the course Industrial Automation, PPU301, commissioned by Volvo Construction Equipment in Eskilstuna. This thesis treats how we can increase the effectiveness of production in roadside construction through automation. The report presents different concepts of automation and in the end of the report you can read about the concept I recommend and why. The work has been divided into different stages. In the first stage I have collected information by reading articles and by site visits. The black top process has been identified though a storyboard. The focus is on which machine that would benefit the most from automation. After identifying the process and the customer’s needs, I get a clear view of what the machines should be able to do. After studying both the paver and compactor, I decided to focus on the compactor. There are significant potential for further development of the compactors in regards of automation. I will present a concept of a totally autonomous compactor. The compactor must, among other things, be able to position and identify objects, like machines, workers and other road users. The compactor needs to get a clear signal when the road piece is finished with compaction. The packing operation is automatic controlled depending on the type of mix of asphalt, thickness and speed. There are different solutions to make the compactor autonomous. In the report, I have detailed the different concepts and the sensors needed to realize an autonomous machine.
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Wigmore, Ioan Tomos. "Automated calculation of one-loop processes within MadGolem." Thesis, University of Edinburgh, 2013. http://hdl.handle.net/1842/7967.

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In the current LHC era, a vast number of models for BSM physics are being tested. For predictions accurate enough to match experimental errors, theoretical calculations have to go beyond LO estimates. However, calculating one-loop corrections in BSM models involves many new particles with specific model dependent properties. Therefore, they are done largely by hand, or in partially–automated ways. I present a fully automated tool for the calculation of generic massive one-loop Feynman diagrams with four external particles, implemented as a module within the fully automated MadGolem framework. With this one can compute the NLO–QCD corrections to generic BSM heavy resonance production processes, for example in the context of supersymmetric theories.
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Key, Ross A. "Automated manufacturing processes for secondary structure aerospace composites." Thesis, University of Nottingham, 2016. http://eprints.nottingham.ac.uk/33572/.

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As projected manufacturing rates for commercial aircraft increase to levels of multiple ship sets per day from individual manufacturing facilities, GE Aviation have expressed the need for a shift in composites secondary structure manufacturing philosophy. Traditional manufacturing processes tend to be touch labour intensive and hence costly. The manual placement of large numbers of individual ply profiles, lengthy debulking operations and complex cure cycles, result in excessive component lead times and manufacturing costs. As a result, direct labour cost is a major factor in the total economies of production processes. The implementation of industrial robotics has proved highly successful in automotive manufacturing, and various methods for automating individual aspects of the composites manufacturing process have been suggested. Technical cost modelling has been used to anticipate the production costs of a prototype secondary structure component, as supplied by GE Aviation, through direct simulation of the existing manufacturing process. This work has clearly highlighted the potential for cost and cycle time reductions if process automation can be successfully introduced. Observation of the existing manufacturing process has allowed three alternative manufacturing scenarios to be considered with respect to cost-effectiveness and feasibility, whilst highlighting long term cost benefits. Investigations have been undertaken to identify and evaluate alternative material and processing methodologies ranging from resin infused woven dry fabrics to UD prepreg tape and tow. In addition, candidate processing routes have been systematically evaluated using design of experiments techniques, which focussed on assessing the feasibility and technology readiness of robotic deposition and consolidation methodologies, including pick and place and debulking. Process automation in these areas has the potential for total component cost and cycle time reductions in the order of 2.8 to 21.6 and 0.6 to 63.4 per cent respectively. The quasi-static mechanical testing of a range of face sheet materials has provided a performance assessment based on tensile, compressive and shear properties and laminate Vf. Findings suggest that materials offering increased suitability for automation typically have reduced mechanical performance when compared to candidate prepregs; tensile modulus and strength reductions of 5 and 34 per cent were reported when comparing a 6k woven 2X2 twill fabric and equivalent prepreg respectively. Furthermore, 26 and 4 per cent reductions in tensile modulus and 38 and 40 per cent reductions in tensile strength were observed for 179 and 318gsm UD NCF, when compared with a candidate UD prepreg. Data has also been presented on the effect of varying the traditional consolidation frequency and methodology. While earlier findings suggest that debulking has little effect on the laminate tensile modulus; ply compaction level varies considerably. Furthermore, it has been shown that on-the-fly consolidation, using a robotically mounted, roller-based end effector has the advantages of mechanical performance retention, cycle time reduction and repeatable laminate post cure thickness. In addition, when compared with candidate woven and UD prepreg laminates manufactured using the traditional vacuum bagging approach; equivalent tensile modulus, strength and fibre volume fraction have been observed and with less variability. Handling characteristics inherent to vacuum and needle grippers, including pickup performance, defined as the pickup or holding force required to overcome fabric weight, shear force performance; the maximum force that can be exerted on the fabric before the onset of slip, and the accuracy with which non-rigid-materials (NRMs) can be handled, have also been considered. The achievable positional accuracy of robotically pick and placed prepreg plies greatly exceeds that of dry fabrics in all cases and with less variability, irrespective of the gripping mechanism used. Vacuum grippers exhibit more uniform positional error and increased positional accuracy when handling dry fabrics, whilst needle grippers outperformed the vacuum alternative when handling prepregs, irrespective of form. Robotic pick and place solutions offer low variability in ply positional error with a guaranteed placement accuracy of ±0.8mm and ±2.3mm for prepregs and dry fabrics respectively. Characterisation of the gap type defect and butt and overlapping joining methodologies has provided a performance trend based on ply positional error. Quasi-static mechanical testing has revealed that laminates with equivalent tensile modulus to an un-spliced control could be achieved. However, significant reductions in the tensile strength and an increase in overall laminate thickness and thickness variation highlighted the negative effect of ply splicing on laminate performance. However, it has been shown that a robotic placement accuracy of ±0.8mm gives rise to acceptable tensile strength reductions in candidate prepreg laminates. The up-scaling of laminate level robotic manipulators has been discussed and addressed in conjunction with the commissioning of a flexible robotic manufacturing cell, facilitating the manufacture of full-scale secondary structure aerospace components. Comparisons have been made between a benchmark prepreg panel, manufactured using traditional manual methods and alternative dry fabric and prepreg panels manufactured using increased levels of process automation. In each case, manufacturing feasibility, mechanical performance and component geometric accuracy have been assessed. It has been shown that there are significant advantages to be gained from the implementation of robotic automation within the traditional manufacturing process. Component cost and cycle time reductions, coupled with the processing and performance advantages and increased suitability to automation of woven dry fibre materials are clear. Findings which support a key driver of this project, which seeks to justify alternative dry fabrics as a viable alternative to traditional prepreg broadgoods for the manufacture of secondary structure aerospace components.
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Romeo, Marco. "Automated processes and intelligent tools in CG media production." Doctoral thesis, Universitat Pompeu Fabra, 2016. http://hdl.handle.net/10803/373915.

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La producció moderna dels mitjans descansa de forma important sobre continguts generats per ordinador, tals com animacions 3D, i efectes visuals digitals. Aquests actius complexos poblen videojocs, pel•lícules, televisió, dispositius mòbils i internet, però crear-los encara és una feina complexa, que requereix molta intervenció humana, té un flux de treball complex i no estàndard, procliu als errors, i demana un esforç important. Aquesta tesi contribueix en dues àrees de contingut generat per ordinador: la investigació inicial es dirigeix a l’automatització de “rigging”, de l’expressió facial emocional i de moviments expressius, i de la generació semiautomàtica de “clips”; a la investigació més recent, basada en un treball extens amb la indústria, la tesi defineix un flux genèric de producció de mitjans generats per ordinador, inclosos processos de producció i un model de “pipeline”, i, a partir d’aquest flux, es mostren i es discuteixen unes aproximacions a l’automatització dels passos més crítics des d’una perspectiva tant industrial com acadèmica. En resum, la tesi contribueix amb un conjunt d’algorismes i eines “familiaritzats” amb el “pipeline”, que ajuden l’usuari en el procés de producció, és a dir, eines intel•ligents.<br>Modern media production heavily relies on computer generated content, such as 3D animations and digital visual effects. Those complex assets populate videogames, films, television, mobile devices and the Internet, but their creation is still a complex task requiring a lot of human intervention, and with non standard complex workflows, which are prone to errors, and demand more production effort. The thesis contributes in two main areas of computer generated content: the oldest research is geared towards the automation of rigging, of emotional facial expression and emotional movements; and towards semi-automated generation of clips; in the most recent research, based on extensive work with the industry, the thesis defines a generic computer generated media production workflow, including production processes and a sample pipeline, and starting from this workflow, approaches to automate the most critical steps are shown and discussed with both scientific and industry eyes. In summary, this thesis contributes with a series of algorithms and tools that are “aware” of the pipeline, and assist the user in the production process, thus: intelligent tools.<br>La producción moderna de los medios descansa de forma importante en contenidos generados por ordenador, tales como animaciones 3D, y efectos visuales digitales. Estos activos complejos pueblan los videojuegos, películas, televisión, dispositivos móviles e internet, pero crearlos es aún una faena compleja, que demanda mucha intervención humana, implica un flujo de trabajo complejo no estándar, proclive a errores, y exige un esfuerzo importante. Esta tesi contribuye en dos áreas de contenido generado mediante ordenador: la investigación inicial se dirige a la automatización del “rigging”, de la expresión facial emocional i de movimientos expresivos, i de la generación semiautomática de “clips”; en la investigación más reciente, basada en un trabajo extenso en la industria, la tesis define un flujo genérico de producción de medios generados mediante ordenador, incluyendo procesos de producción y un modelo de “pipeline”, y, a partir de este flujo, se muestran y discuten unas aproximaciones a la automatización de los pasos más críticos desde una perspectiva tanto industrial como académica. En resumen, la tesis contribuye con un conjunto de algoritmos y herramientas “familiarizados” con el “pipeline”, que ayudan al usuario en el proceso de producción, es decir, unas herramientas inteligentes.
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Castellanos, Ardila Julieth Patricia. "Facilitating Automated Compliance Checking of Processes against Safety Standards." Licentiate thesis, Mälardalens högskola, Inbyggda system, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:mdh:diva-42752.

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A system is safety-critical if its malfunctioning could have catastrophic consequences for people, property or the environment, e.g., the failure in a car's braking system could be potentially tragic. To produce such type of systems, special procedures, and strategies, that permit their safer deployment into society, should be used. Therefore, manufacturers of safety-critical systems comply with domain-specific safety standards, which embody the public consensus of acceptably safe. Safety standards also contain a repository of expert knowledge and best practices that can, to some extent, facilitate the safety-critical system’s engineering. In some domains, the applicable safety standards establish the accepted procedures that regulate the development processes. For claiming compliance with such standards, companies should adapt their practices and provide convincing justifications regarding the processes used to produce their systems, from the initial steps of the production. In particular, the planning of the development process, in accordance with the prescribed process-related requirements specified in the standard, is an essential piece of evidence for compliance assessment. However, providing such evidence can be time-consuming and prone-to-error since it requires that process engineers check the fulfillment of hundreds of requirements based on their processes specifications. With access to suitable tool-supported methodologies, process engineers would be able to perform their job efficiently and accurately. Safety standards prescribe requirements in natural language by using notions that are subtly similar to the concepts used to describe laws. In particular, requirements in the standards introduce conditions that are obligatory for claiming compliance. Requirements also define tailoring rules, which are actions that permit to comply with the standard in an alternative way. Unfortunately, current approaches for software verification are not furnished with these notions, which could make their use in compliance checking difficult. However, existing tool-supported methodologies designed in the legal compliance context, which are also proved in the business domain, could be exploited for defining an adequate automated compliance checking approach that suits the conditions required in the safety-critical context. The goal of this Licentiate thesis is to propose a novel approach that combines: 1) process modeling capabilities for representing systems and software process specifications, 2) normative representation capabilities for interpreting the requirements of the safety standards in an adequate machine-readable form, and 3) compliance checking capabilities to provide the analysis required to conclude whether the model of a process corresponds to the model with the compliant states proposed by the standard's requirements. Our approach contributes to facilitating compliance checking by providing automatic reasoning from the requirements prescribed by the standards, and the description of the process they regulate. It also contributes to cross-fertilize two communities that were previously isolated, namely safety-critical and legal compliance contexts. Besides, we propose an approach for mastering the interplay between highly-related standards. This approach includes the reuse capabilities provided by SoPLE (Safety-oriented Process Line Engineering), which is a methodological approach aiming at systematizing the reuse of process-related information in the context of safety-critical systems. With the addition of SoPLE, we aim at planting the seeds for the future provision of systematic reuse of compliance proofs. Hitherto, our proposed methodology has been evaluated with academic examples that show the potential benefits of its use.<br>AMASS
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Sanjeewa, Rupasinghe Kalupahana Arachchige Brian. "An investigation into automated processes for generating focus maps." Thesis, University of East London, 2015. http://roar.uel.ac.uk/4155/.

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The use of geographic information for mobile applications such as wayfinding has increased rapidly, enabling users to view information on their current position in relation to the neighbouring environment. This is due to the ubiquity of small devices like mobile phones, coupled with location finding devices utilising global positioning system. However, such applications are still not attractive to users because of the difficulties in viewing and identifying the details of the immediate surroundings that help users to follow directions along a route. This results from a lack of presentation techniques to highlight the salient features (such as landmarks) among other unique features. Another problem is that since such applications do not provide any eye-catching distinction between information about the region of interest along the route and the background information, users are not tempted to focus and engage with wayfinding applications. Although several approaches have previously been attempted to solve these deficiencies by developing focus maps, such applications still need to be improved in order to provide users with a visually appealing presentation of information to assist them in wayfinding. The primary goal of this research is to investigate the processes involved in generating a visual representation that allows key features in an area of interest to stand out from the background in focus maps for wayfinding users. In order to achieve this, the automated processes in four key areas - spatial data structuring, spatial data enrichment, automatic map generalization and spatial data mining - have been thoroughly investigated by testing existing algorithms and tools. Having identified the gaps that need to be filled in these processes, the research has developed new algorithms and tools in each area through thorough testing and validation. Thus, a new triangulation data structure is developed to retrieve the adjacency relationship between polygon features required for data enrichment and automatic map generalization. Further, a new hierarchical clustering algorithm is developed to group polygon features under data enrichment required in the automatic generalization process. In addition, two generalization algorithms for polygon merging are developed for generating a generalized background for focus maps, and finally a decision tree algorithm - C4.5 - is customised for deriving salient features, including the development of a new framework to validate derived landmark saliency in order to improve the representation of focus maps.
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Menon, U. "A multi-objective production planning framework for automated manufacturing systems." Thesis, University of Nottingham, 1985. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.356077.

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MacNish, Craig Gordon. "Nonmonotonic inference systems for modelling dynamic processes." Thesis, University of Cambridge, 1992. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.240195.

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Åman, Robin. "Design of an End Effector for Drilling in Automated Processes." Thesis, Linköping University, Department of Mechanical Engineering, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-7323.

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<p>In an attempt to solve a problem concerning drilling, a project was started at the universities in Linköping and Lund. As a part of the project this thesis aims to help solve the drilling problem. The goal of this thesis is to design an end effector that will help avoid slipping when drilling. The methods used were taken from David G. Ullman’s book The Mechanical Design Process. Members involved in the project were interviewed to get an understanding of the task. With that done the concept generation phase began, resulting in several concepts. With the use of evaluation methods, such as feasibility judgment and Go/No-Go screening, a final concept emerged. All of the parts and details of the concept were designed with respect for the customers’ requirements and demands.</p>
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Books on the topic "Automated Processes"

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Monahan, George E. Optimal acquisition of automated flexible manufacturing processes. College of Commerce and Business Administration, University of Illinois at Urbana-Champaign, 1987.

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Johnson, Jerome L. Principles of computer automated fabrication. Palatino Press, 1994.

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O'Grady, P. J. Controlling automated manufacturing systems. Chapman and Hall, 1986.

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Raman, Narayan. A simulation model for the automatic turning station at the automated manufacturing research facility. U.S. Dept. of Commerce, National Bureau of Standards, 1986.

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Nolen, James. Computer-automated process planning for world-class manufacturing. M. Dekker, 1989.

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Viswanadham, N. Performance modeling of automated manufacturingsystems. Prentice Hall, 1992.

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Doty, Charles R. Resources for automated manufacturing technologies programs. National Center for Research in Vocational Education, Ohio State University, 1985.

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Y, Narahari, ed. Performance modeling of automated manufacturing systems. Prentice Hall, 1992.

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Stetter, Ralf. Fault-Tolerant Design and Control of Automated Vehicles and Processes. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-12846-3.

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Cleland, David I. The automated factory handbook: Technology and management. TPR, 1990.

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Book chapters on the topic "Automated Processes"

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Herz, Sophie, Karl Hesse, and Laura Spindler. "Automated Sewing Places." In Sewing Machines and Processes. CRC Press, 2025. https://doi.org/10.1201/9781003293071-15.

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El Wakil, Sherif D. "Automated Manufacturing Systems." In Processes and Design for Manufacturing, 4th ed. CRC Press, 2025. https://doi.org/10.1201/9781003537106-15.

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Schnellbächer, Wolfgang, and Daniel Weise. "Processes: Clear, Lean, and Automated." In Jumpstart to Digital Procurement. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-51984-1_9.

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Cailler, Julie, Johann Rosain, David Delahaye, Simon Robillard, and Hinde Lilia Bouziane. "Goéland: A Concurrent Tableau-Based Theorem Prover (System Description)." In Automated Reasoning. Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-10769-6_22.

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AbstractWe describe , an automated theorem prover for first-order logic that relies on a concurrent search procedure to find tableau proofs, with concurrent processes corresponding to individual branches of the tableau. Since branch closure may require instantiating free variables shared across branches, processes communicate via channels to exchange information about substitutions used for closure. We present the proof search procedure and its implementation, as well as experimental results obtained on problems from the TPTP library.
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Nitta, Junya. "A customisable automated quality assurance tool." In Metalanguages for Dissecting Translation Processes. Routledge, 2022. http://dx.doi.org/10.4324/9781003250852-18.

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Washizaki, Hironori, and Yoshiaki Fukazawa. "Automated Extract Component Refactoring." In Extreme Programming and Agile Processes in Software Engineering. Springer Berlin Heidelberg, 2003. http://dx.doi.org/10.1007/3-540-44870-5_42.

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Marrella, Andrea, Massimo Mecella, Sebastian Sardina, and Paola Tucceri. "SmartPM: Automated Adaptation of Dynamic Processes." In Service-Oriented Computing - ICSOC 2014 Workshops. Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-22885-3_40.

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Alur, Rajeev, Radu Grosu, and Bow-Yaw Wang. "Automated Refinement Checking for Asynchronous Processes." In Formal Methods in Computer-Aided Design. Springer Berlin Heidelberg, 2000. http://dx.doi.org/10.1007/3-540-40922-x_5.

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Conforti, Raffaele, Arthur H. M. ter Hofstede, Marcello La Rosa, and Michael Adams. "Automated Risk Mitigation in Business Processes." In On the Move to Meaningful Internet Systems: OTM 2012. Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-33606-5_14.

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Maggi, Fabrizio Maria, Tijs Slaats, and Hajo A. Reijers. "The Automated Discovery of Hybrid Processes." In Lecture Notes in Computer Science. Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-10172-9_27.

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Conference papers on the topic "Automated Processes"

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Nivon, Quentin, and Gwen Salaün. "Semi-Automated Refactoring of BPMN Processes." In 2024 IEEE 24th International Conference on Software Quality, Reliability and Security (QRS). IEEE, 2024. http://dx.doi.org/10.1109/qrs62785.2024.00073.

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Maciazek, Patryk, Isobel Nicholson, Jean–Robert Manouvrier, et al. "Automated Algorithmic Parameter Extraction of TCAD-Based SPAD SPICE Models." In 2024 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD). IEEE, 2024. http://dx.doi.org/10.1109/sispad62626.2024.10732982.

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Tetarenko, Alex, Harriet Parsons, Sarah F. Graves, and Jessica Dempsey. "Automated project completion forecasting." In Observatory Operations: Strategies, Processes, and Systems VIII, edited by Chris R. Benn, Robert L. Seaman, and David S. Adler. SPIE, 2020. http://dx.doi.org/10.1117/12.2561634.

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Lund, Scot D. "Monitoring Machines and Processes to Improve Manufacturing Operations." In Automated Fastening Conference & Exposition. SAE International, 2003. http://dx.doi.org/10.4271/2003-01-2956.

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Gary, Kevin, Tim Lindquist, Harry Koehnemann, and Ly Sauer. "Automated process support for organizational and personal processes." In the international ACM SIGGROUP conference. ACM Press, 1997. http://dx.doi.org/10.1145/266838.266914.

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Shin, Hyundon, Ian Alleyne, and Marcel Polikar. "Automated Process Control System for Steam-Injection Processes." In SPE Annual Technical Conference and Exhibition. Society of Petroleum Engineers, 2005. http://dx.doi.org/10.2118/96031-ms.

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Foucher, Johann, Alexandre Dervilllé, Guilhem Bernard, and Xavier Chevalier. "Automated lamellar block copolymer process characterization." In Advances in Patterning Materials and Processes XXXV, edited by Christoph K. Hohle and Roel Gronheid. SPIE, 2018. http://dx.doi.org/10.1117/12.2297347.

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Lopatin, R., A. Kolesnikov, and O. Oksyuta. "AUTOMATED MACHINE BUILDING DEVICES USING GRAPH THEORY." In Modern aspects of modeling systems and processes. FSBE Institution of Higher Education Voronezh State University of Forestry and Technologies named after G.F. Morozov, 2021. http://dx.doi.org/10.34220/mamsp_61-66.

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Dobrzanski, James, Daniel De Becker, and Laura Justham. "In process monitoring and control of automated TIG welding processes." In 2nd UK-RAS ROBOTICS AND AUTONOMOUS SYSTEMS CONFERENCE, Loughborough, 2019. UK-RAS Network, 2019. http://dx.doi.org/10.31256/ukras19.9.

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De Lucia, Andrea, Rocco Oliveto, and Genoveffa Tortora. "IR-Based Traceability Recovery Processes: An Empirical Comparison of "One-Shot" and Incremental Processes." In 2008 23rd IEEE/ACM International Conference on Automated Software Engineering. IEEE, 2008. http://dx.doi.org/10.1109/ase.2008.14.

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Reports on the topic "Automated Processes"

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Bessac, Julie, William Pringle, Steven Brus, et al. AI-Automated Detection of Subgrid-scale Processes for Adaptivity Guidance. Office of Scientific and Technical Information (OSTI), 2021. http://dx.doi.org/10.2172/1769664.

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Bukreiev, Dmitriy, Pavlo Chornyi, Evgeniy Kupchak, and Andrey Sender. Features of the development of an automated educational and control complex for checking the quality of students. [б. в.], 2021. http://dx.doi.org/10.31812/123456789/4426.

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The paper reveals the problematic features of developing an automated system for teaching students. The authors emphasize the need to study the specialized needs of the system before the development process and conduct an in-depth analysis of the needs of the modern educational process in order to identify the needs of the future product. In this paper authors develop a model of knowledge representation in the system and reveal the features of the mathematical apparatus for calculating and automating the processes of obtaining and evaluating students knowledge.
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Park, Yena, Ramsey Cardwell, Sarah Goodwin, et al. Assessing Speaking on the Duolingo English Test. Duolingo, 2023. http://dx.doi.org/10.46999/djiy3654.

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This paper presents the Duolingo English Test’s speaking construct, situated within the Duolingo English Test assessment ecosystem (Burstein et al., 2022). We describe how the Duolingo English Test defines, operationalizes, and measures speaking through various speaking-related item types. The operationalization and measurement of the speaking construct includes the item-type design process and automated item generation processes.
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Vavrin, John L., Ghassan K. Al-Chaar, Eric L. Kreiger, et al. Automated Construction of Expeditionary Structures (ACES) : Energy Modeling. Engineer Research and Development Center (U.S.), 2021. http://dx.doi.org/10.21079/11681/39641.

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The need to conduct complex operations over time results in U.S. forces remaining in deployed locations for long periods. In such cases, more sustainable facilities are required to better accommodate and protect forward deployed forces. Current efforts to develop safer, more sustainable operating facilities for contingency bases involve construction activities that redesign the types and characteris-tics of the structures constructed, reduce the resources required to build, and reduce resources needed to operate and maintain the com-pleted facilities. The Automated Construction of Expeditionary Structures (ACES) project was undertaken to develop the capability to “print” custom-designed expeditionary structures on demand, in the field, using locally available materials with the minimum number of personnel. This work investigated large-scale automated “additive construction” (i.e., 3D printing with concrete) for construction applications. This document, which documents ACES energy and modeling, is one of four technical reports, each of which details a major area of the ACES research project, its research processes, and associated results, including: System Requirements, Construction, and Performance; Energy and Modeling; Materials and Testing; Architectural and Structural Analysis.
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Diggs, Brandy N., Richard J. Liesen, Michael P. Case, Sameer Hamoush, and Ahmed C. Megri. Automated Construction of Expeditionary Structures (ACES) : Energy Modeling. Engineer Research and Development Center (U.S.), 2021. http://dx.doi.org/10.21079/11681/39759.

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The need to conduct complex operations over time results in U.S. forces remaining in deployed locations for long periods. In such cases, more sustainable facilities are required to better accommodate and protect forward deployed forces. Current efforts to develop safer, more sustainable operating facilities for contingency bases involve construction activities that redesign the types and characteris-tics of the structures constructed, reduce the resources required to build, and reduce resources needed to operate and maintain the com-pleted facilities. The Automated Construction of Expeditionary Structures (ACES) project was undertaken to develop the capability to “print” custom-designed expeditionary structures on demand, in the field, using locally available materials with the minimum number of personnel. This work investigated large-scale automated “additive construction” (i.e., 3D printing with concrete) for construction applications. This document, which documents ACES energy and modeling, is one of four technical reports, each of which details a major area of the ACES research project, its research processes, and associated results, including: System Requirements, Construction, and Performance; Energy and Modeling; Materials and Testing; Architectural and Structural Analysis.
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Patel, Yusef. File to Factory: A case study of automated prefabrication house-building methods for small-to-medium enterprises. Unitec ePress, 2017. http://dx.doi.org/10.34074/ocds.0823.

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The Eco-Digital Fabrication (EDFAB) research project aimed to investigate how automated prefabrication technologies and off-the-shelf construction products can be employed to disrupt building industry norms. The aim of this research – conducted at the University of Auckland and Unitec Institute of Technology from 2014 onward – was to provide small-to-medium enterprises in the construction industry with a pathway to upskill and increase construction productivity through the use of these processes. The availability of automated machines and easy-to-use fabrication software is increasing dramatically and this can be paired with readily available construction products to produce novel mass-customised housing solutions. The application of basic automated technologies – such as CNC (Computer Numerical Control) routers – allowed researchers to create ‘recipes’ that can be adopted and adapted relatively easily. By no means did the research favour digital manufacture or assembly processes over traditional analogue construction techniques – the goal was to provide logical, productive and accessible blended solutions for greater affordability and flexibility in design. For example, the designed experiments were required to be built from readily available products, and used simple readymade screw fixings rather than digitally produced custom fixings or joining mechanisms. The research project aimed to generate discussion and provide recommendations on how the construction industry might support the adoption of automated prefabrication technology in small-to-medium enterprise (SME).
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Nowlan, M. Development of Automated Production Line Processes for Solar Brightfield Modules: Final Report, 1 June 2003-30 November 2007. Office of Scientific and Technical Information (OSTI), 2008. http://dx.doi.org/10.2172/928903.

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Al-Chaar, Ghassan K., Peter B. Stynoski, Todd S. Rushing, et al. Automated Construction of Expeditionary Structures (ACES) : Materials and Testing. Engineer Research and Development Center (U.S.), 2021. http://dx.doi.org/10.21079/11681/39721.

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Complex military operations often result in U.S. forces remaining at deployed locations for long periods. In such cases, more sustaina-ble facilities are required to better accommodate and protect forward-deployed forces. Current efforts to develop safer, more sustaina-ble operating facilities for contingency bases involve construction activities that require a redesign of the types and characteristics of the structures constructed, that reduce the resources required to build, and that decrease the resources needed to operate and maintain the completed facilities. The Automated Construction of Expeditionary Structures (ACES) project was undertaken to develop the capa-bility to “print” custom-designed expeditionary structures on demand, in the field, using locally available materials with the minimum number of personnel. This work investigated large-scale automated “additive construction” (i.e., 3D printing with concrete) for con-struction applications. This report, which documents ACES materials and testing, is one of four technical reports, each of which details a major area of the ACES research project, its research processes, and its associated results. There major areas include System Require-ments, Construction, and Performance; Energy and Modeling; Materials and Testing; Architectural and Structural Analysis.
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Nowlan, M. J., J. M. Murach, S. F. Sutherland, D. C. Miller, S. B. Moore, and S. J. Hogan. Development of Automated Production Line Processes for Solar Brightfield Modules: Annual Technical Progress Report, 1 January 2003 -- 30 June 2004. Office of Scientific and Technical Information (OSTI), 2005. http://dx.doi.org/10.2172/15016397.

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Nowlan, M. J., J. M. Murach, S. F. Sutherland, D. C. Miller, Moore S. B., and S. J. Hogan. Development of Automated Production Line Processes for Solar Brightfield Modules: Final Annual Technical Progress Report, 1 July 2004 -- 15 October 2005. Office of Scientific and Technical Information (OSTI), 2006. http://dx.doi.org/10.2172/890097.

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