Thematische Bibliographien / Automation of production process / Zeitschriftenartikel
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Zeitschriftenartikel zum Thema „Automation of production process“

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

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1

Yu, Wen Wei, und Xue Tao Wang. „Plate Production Line Automation Control System Based on Automatic Gauge Control“. Applied Mechanics and Materials 214 (November 2012): 674–78. http://dx.doi.org/10.4028/www.scientific.net/amm.214.674.

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The automation control system to plate production line is developed independently. It has been applied for several plants in China and has a good effect. The whole automaton control system is designed as several levels: basic automation system, process automation system and HMI system. The control functions are realized with these levels. With AGC function in plate mill area basic automation system, the plate thickness accuracy can be guaranteed.
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Simeone, R., und M. Sogaro. „Automation in the Primary Aluminium Production Process“. IFAC Proceedings Volumes 22, Nr. 11 (September 1989): 329–35. http://dx.doi.org/10.1016/s1474-6670(17)53130-4.

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3

Manoilo, A. M., I. M. Rudovich, V. A. Barnaev und V. G. Bondarchuk. „Automation of production of lubricating/cooling process media“. Chemistry and Technology of Fuels and Oils 28, Nr. 12 (Dezember 1992): 663–66. http://dx.doi.org/10.1007/bf00729570.

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4

SOROKIN, KONSTANTIN, NIKOLAY SOROKIN und EFIM PESTRYAKOV. „MODERN APPROACHES TO AUTOMATION AND DIGITALIZATION OF EQUIPMENT IN THE DEVELOPMENT OF PRODUCTION LINES“. Elektrotekhnologii i elektrooborudovanie v APK 4, Nr. 41 (Dezember 2020): 96–103. http://dx.doi.org/10.22314/2658-4859-2020-67-4-96-103.

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When developing and operating industrial production lines where chemical and technological processes for processing organic raw materials are carried out, exceptional importance is attached to ensuring reliable control over the course of the technological process. To solve this problem, there are needed modern digital devices and microprocessor controllers, which will allow to control the process through personal computers. The article considers approaches to automation of the production line and proposals to automate the selection of modular equipment for its manufacture based on certain criteria. (Research purpose) The research purpose is in developing a software package for controlling automation tools installed on modular equipment when creating new technological lines for processing organic raw materials in industrial volumes. (Materials and methods) Authors studied the theoretical foundations of automation development at the present stage. Authors used scientific materials and articles that consider various approaches to solving the problems of automation of technological lines for processing organic raw materials. (Results and discussion) The article proposes a control algorithm, functional and schematic diagrams for automating the main technological operations on the production line. Authors determined the algorithm for selecting modular equipment adapted to automation for the development and assembly of production lines based on the customer’s technical specification. The article presents a version of the matrix based on the software materials used in order to develop a project for automating the main technological operations on the production line. (Conclusions) The article shows that the scientific novelty consists in the creation of information and software for specialists in the development of automated production lines for processing organic raw materials based on multivariate solutions for its formation from the optimal equipment available on the market.
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Kromann, Lene, und Anders Sørensen. „Automation, performance and international competition: a firm-level comparison of process innovation“. Economic Policy 34, Nr. 100 (01.10.2019): 691–722. http://dx.doi.org/10.1093/epolic/eiaa002.

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SUMMARY The automation of production processes is an important topic on the policy agenda in high-wage countries, and Denmark is no exception. However, the knowledge of the adoption of automation technologies across firms, of drivers of investments in automation, and on the association between automation and firm performance are limited. This paper uses a new survey to collect data on automation combined with register data to examine these issues. The variation in the adoption of automation technologies is high but the change in adoption over time is slow, and almost half of Danish manufacturing firms relied greatly on manual production processes in 2010. Increasing international competition from China is a driver for investments in automation, i.e. the manufacturing firms that are exposed to intensifying competition from China in their output markets invest more in automation than firms that are not exposed to this type of competition. We conduct external validation of the automation survey by examining the association between the automation measures and firm performance measures constructed from completely independent data sources. We find that the measures of automation are significantly associated with productivity and profitability.
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Rybakovskaya, A. A., I. V. Fakhretdinov, A. A. Prokhorov, T. Ch Fatkhullin, A. N. Zvada und I. A. Skvarko. „Automation of the forecasting process for wells base production“. PROneft’. Proffessional’no o nefti 6, Nr. 2 (30.06.2021): 45–49. http://dx.doi.org/10.51890/2587-7399-2021-6-2-45-49.

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The article describes the automation of the production forecast calculation method for producing wells. Calculation for each well based on monthly production report data and current residual recoverable reserves. The Arps curve and the Corey function are used to approximate the actual production curves. Comparative analysis of actual data with retro-forecast data showed high accuracy with a short calculation time.
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Nagasaka, Yoshiyuki. „Automation and Process Management in Foundry“. International Journal of Automation Technology 2, Nr. 4 (05.07.2008): 266–75. http://dx.doi.org/10.20965/ijat.2008.p0266.

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The changes in the management environment of casting industry are summarized. Global and agile competition, bipolarization and human resources development are problems. Outsourcing, alliances, and M&A occur very often. Tough cost competition and improved quality requested by the market are very important issues. Automation should be developed for these problems as well as environmental ones. From the above, the fusion of traceability, data management, and process management are discussed especially as an approach to solving the quality problem in the foundry. In short, a system for the traceability solution is requested that dramatically enhances the level of results, including a reduction in production costs and quality enhancement connecting to improvements in the process from the solution of the manufacturing quality problem. Here, BPM (business process management) is considered as a core methodology to validate the traceability solution. If BPM can be installed in the foundry, added values/costs will be enhanced while balancing with customer power, leading to the implementation of a production environment that will be able to cope with changes in the market.
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Balasevicius, Leonas, Darius Ezerskis, Algirdas Straksas und Raimundas Stulpinas. „Appreciation of Process Control Automation in the Fertilizers Production“. IFAC Proceedings Volumes 33, Nr. 12 (Juni 2000): 41–43. http://dx.doi.org/10.1016/s1474-6670(17)37272-5.

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Wittig, Jürgen. „Process automation for the production of large composite parts“. Reinforced Plastics 49, Nr. 1 (Januar 2005): 30–33. http://dx.doi.org/10.1016/s0034-3617(05)00519-9.

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Ting, K. C. „Mechanization, Automation, and Computerization for Greenhouse Production“. HortTechnology 2, Nr. 1 (Januar 1992): 59–63. http://dx.doi.org/10.21273/horttech.2.1.59.

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Availability and capability of labor have become dominating factors affecting agriculture's productivity and sustainability. Agricultural mechanization can substitute for human and animal physical power and improve operational uniformity. Automation complements mechanization by implementing the capabilities of automatic perception, reasoning, communication, and task planning. Fixed automation is traditionally cost-effective for mass production of standard items. In addition, flexible automation responds to make-to-order batch processing. The appropriateness of each automation type depends on the situation at hand. Because of their vast memory and high calculation speed, computers are highly effective for rapid information processing. Incorporating state-of-the-art hardware and software, computers can generate status reports, provide decision support, gather sensor signals, and/or instruct machines to perform physical work. It is no surprise, therefore, that computerization is essential to the evolutionary process, from mechanization through fixed automation to flexible automation. Fundamentals of agricultural mechanization, automation, and computerization applied to greenhouse production are discussed. Recent research activities conducted at Rutgers Univ. are presented for illustrative purposes.
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Ferreira Braga, Ruan Mattheus, Fabiana Rocha Pinto, David Barbosa de Alencar und Gisele De Freitas Lopes. „Low Cost Process Modeling for a Manaus Industrial Polo factory“. International Journal for Innovation Education and Research 7, Nr. 11 (30.11.2019): 620–27. http://dx.doi.org/10.31686/ijier.vol7.iss11.1916.

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Through the centuries man has found easier and better ways to produce the goods he needs and desires. Thus through new technologies through different forms of automation, manual processes of high physical risk and high financial cost are minimized. The aim of this paper is to show that industrial automation can be applied aiming at a low cost in its implementation, presenting a fast financial return time, besides improving the product quality, reducing the production defect rates and consequently the production increase. Article was based on the automation of a modem assembly cell, where it was necessary to use four (4) operators to assemble it, the modem had a defect index of 0.12% related to annual production. The result achieved showed that after the implementation of an automatic tightening machine, only one (1) operator is required to assist in assembly and one (1) defect rate per year dropped to 0.02% per year. Industrial automation has been showing companies the power to become more competitive in the world market. Thus, it becomes essential in the process of using technologies as a tool to support business management.
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Liang, Steven Y., Rogelio L. Hecker und Robert G. Landers. „Machining Process Monitoring and Control: The State-of-the-Art“. Journal of Manufacturing Science and Engineering 126, Nr. 2 (01.05.2004): 297–310. http://dx.doi.org/10.1115/1.1707035.

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Research in automating the process level of machining operations has been conducted, in both academia and industry, over the past few decades. This work is motivated by a strong belief that research in this area will provide increased productivity, improved part quality, reduced costs, and relaxed machine design constraints. The basis for this belief is two-fold. First, machining process automation can be applied to both large batch production environments and small batch jobs. Second, process automation can autonomously tune machine parameters (feed, speed, depth of cut, etc.) on-line and off-line to substantially increase the machine tool’s performance in terms of part tolerances and surface finish, operation cycle time, etc. Process automation holds the promise of bridging the gap between product design and process planning, while reaching beyond the capability of a human operator. The success of manufacturing process automation hinges primarily on the effectiveness of the process monitoring and control systems. This paper discusses the evolution of machining process monitoring and control technologies and conducts an in-depth review of the state-of-the-art of these technologies over the past decade. The research in each area is highlighted with experimental and simulation examples. Open architecture software platforms that provide the means to implement process monitoring and control systems are also reviewed. The impact, industrial realization, and future trends of machining process monitoring and control technologies are also discussed.
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Shinkevich, A. I., N. V. Barsegyan, M. V. Shinkevich, S. S. Ostanina, F. F. Galimulina und M. E. Nadezhdina. „Reserves for improving the efficiency of petrochemical production on the basis of “Industry 4.0”“. E3S Web of Conferences 124 (2019): 04006. http://dx.doi.org/10.1051/e3sconf/201912404006.

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One of the current problems in the industrial complex is the issue of resource saving and energy efficiency, which is confirmed by the relevant government programs, strategies, regulatory documents. The solution of the problem of increasing the efficiency of the organization of production systems requires the definition and development of the necessary mechanisms, in particular, by automating production processes. The article analyses the key trends in the development of the concept of “industry 4.0” in the petrochemical industry. The factors influencing efficiency of the organization of production systems are revealed. The main directions promoting development and improvement of the organization of production are defined. It considers the basic tools of process improvements, process automation, petrochemical plants: work on the system of just-in-time, 5S system of rationalization of the workplace, different information systems, particularly ERP systems, CALS-technologies. Advantages of automation of production processes at the enterprises of petrochemical complex are defined.
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Adrita, Mumtahina Mahajabin, Alexander Brem, Dominic O’Sullivan, Eoin Allen und Ken Bruton. „Methodology for Data-Informed Process Improvement to Enable Automated Manufacturing in Current Manual Processes“. Applied Sciences 11, Nr. 9 (25.04.2021): 3889. http://dx.doi.org/10.3390/app11093889.

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Manufacturing industries are constantly identifying ways to automate machinery and processes to reduce waste and increase profits. Machines that were previously handled manually in non-standardized manners can now be automated. Converting non-digital records to digital formats is called digitization. Data that are analyzed or entered manually are subject to human error. Digitization can remove human error, when dealing with data, via automatic extraction and data conversion. This paper presents methodology to identify automation opportunities and eliminate manual processes via digitized data analyses. The method uses a hybrid combination of Lean Six Sigma (LSS), CRISP-DM framework, and “pre-automation” sequence, which address the gaps in each individual methodology and enable the identification and analysis of processes for optimization, in terms of automation. The results from the use case validates the novel methodology, reducing the implant manufacturing process cycle time by 3.76%, with a 4.48% increase in product output per day, as a result of identification and removal of manual steps based on capability studies. This work can guide manufacturing industries in automating manual production processes using data digitization.
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Zhou, Xi En, Fei Luo, Xiao Yan Deng und Feng Jiao Che. „Transformation Design of Mixed Injection Molding Production Line“. Applied Mechanics and Materials 364 (August 2013): 329–32. http://dx.doi.org/10.4028/www.scientific.net/amm.364.329.

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Due to the problems of the traditional mixed injection molding production, such as unsatisfactory of the injection molding machine cylinder temperature control, the dispersed devices, the low automation degree and the lack of supervision for the whole production process, the production line of the mixed injection molding machine has been modified. The fuzzy self-adaptive PID control method is used to improve the temperature control accuracy and stability. Two sets of equipments of the injection molding machine have been communicated via the bus technology to realize automation production. And the computer monitoring system has been designed by VB technology to monitor the operating status and parameters of the entire production process. This transformation design can achieve to shorten production cycle, reduce labor costs and covering area, and also improve the production automation level and efficiency.
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Vladimir, Velichkin. „Production Process Automation for Construction of Monolithic Buildings and Structures“. Journal of Civil, Construction and Environmental Engineering 6, Nr. 3 (2021): 87. http://dx.doi.org/10.11648/j.jccee.20210603.11.

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Belousova, Anna I., und Lyudmila V. Donchenko. „Automation of technological process of obtaining pectin“. E3S Web of Conferences 126 (2019): 00062. http://dx.doi.org/10.1051/e3sconf/201912600062.

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The article discusses the feasibility of automation of the process of obtaining liquid pectin for the production of functional beverages to ensure the desired quality and physiological properties. There were presented comparative differences between traditional operator panels and workstations. There was substantiated the expediency of control and regulation of main technological parameters of the process of extraction of pectin substances. There was described the algorithm of evaluating the results of real–time monitoring of the process.
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Aydemir, Emre, und İnci Bilge. „Automation Applications in Integrated Animal Production System“. Turkish Journal of Agriculture - Food Science and Technology 8, Nr. 3 (18.03.2020): 643. http://dx.doi.org/10.24925/turjaf.v8i3.643-644.3133.

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In livestock enterprises, with the developing technology, the use of automation instead of control with manpower has become widespread. With the use of automation, it provides easy and reliable production, healthy product, decrease of labor force, prevention of economic losses, periodic and systematic operation and keeping data record regularly. In this way, it is possible to evaluate all records of animal production in digital environment. Control element (PC, PLC, PIC, Microprocessor, Electronic Cards), Activation Element (Motors, Cylinders, motion elements, etc.), Process (Production, temperature, control, chemical, events, etc.), Adjustment in automation used in animal husbandry Element (Acceleration, Angle, Speed, Flow, Encoders, Force, Load, Price, Pressure, Temperature, Slope, Torsion, Vibration Measurement Elements). Thanks to the intelligent sensors and controllers of these elements, feed and water of animals are recorded from central computers in automation control. In the studies, S7-300 PLC was used to carry out the general operation and collect the data. In addition, SCADA is used for central system supervision and control, data collection and storage, irrigation and feeding, warning and warning for security. In this study, it is aimed to give information about the use of automation in industrial animal husbandry enterprises.
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Rudyka, R. I., Yu E. Zingerman und K. G. Lavrov. „Trends in the automation of coke production“. Coke and Chemistry 52, Nr. 7 (Juli 2009): 329–34. http://dx.doi.org/10.3103/s1068364x09070138.

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Lukić, Dejan, Mijodrag Milošević, Mitar Jocanović, Savo Bojić und Stevica Koledin. „Automation design of the hydraulic cylinders and their manufacturing processes“. Tehnika 75, Nr. 4 (2020): 321–30. http://dx.doi.org/10.5937/tehnika2003321l.

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Within the production program of the observed company, production and repair of hydraulic cylinders that are intended for installation on agricultural and other machines and devices is very significant. A specific problem within production process is the design of hydraulic cylinders and the generation appropriate technical and technological documentation. In order to improve the technical preparation of production in the observed company, a software system has been developed. The basic task of this software is the automation design of hydraulic cylinders and their manufacturing processes. The application of this software significantly reduces the time from the order of hydraulic cylinders or certain components to the generation of technical and technological documentation, production and delivery to the customer.
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Lima, Rui M. „Integrating Production Planning and Control Business Processes“. International Journal of Productivity Management and Assessment Technologies 1, Nr. 4 (Oktober 2012): 1–21. http://dx.doi.org/10.4018/ijpmat.2012100101.

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Organizations have production planning and control (PPC) processes supported by systems that execute, mainly, repetitive calculations. Based on these calculation results, decisions are taken by production managers. These decision processes make the connection between different levels of aggregation of information and could benefit from the increment of the level of automation. An increased level of application of business process modelling languages is proposed in order to contribute to increment the level of process automation and the detail of business analysis. Thus being, concepts of integration of production management processes, specifically of production planning and control processes are presented. These concepts, the application of business process modelling language (BPML) and some solutions of PPC integration compose the core content of this work. Additionally, criteria for evaluation of these processes of integration are identified and discussed. Finally, the presentation of an industrial case will be supported by BPML model.
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Yeh, Chin-Ching. „Trend Analysis on the Automation of the Notebook PC Production Process“. International Journal of Automation and Smart Technology 2, Nr. 3 (01.09.2012): 173–75. http://dx.doi.org/10.5875/ausmt.v2i3.153.

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Zankovets, P. V., und V. K. Sheleg. „MATHEMATICAL SIMULATION AND AUTOMATION OF PROCESS ENGINEERING FOR WELDED STRUCTURE PRODUCTION“. Science & Technique 16, Nr. 1 (01.01.2017): 5–15. http://dx.doi.org/10.21122/2227-1031-2017-16-1-5-15.

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Domrachev, V. G., und A. A. Skripnik. „Automation of calibration of tanks in industrial production process control systems“. Measurement Techniques 55, Nr. 8 (November 2012): 876–82. http://dx.doi.org/10.1007/s11018-012-0053-5.

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Khatamov, U. Kh, Z. R. Rakhmanov und D. I. Maksudov. „Technological process of porcelain component production as an object of automation“. Glass and Ceramics 46, Nr. 9 (September 1989): 362–64. http://dx.doi.org/10.1007/bf00677800.

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Waszkowski, Robert, Tadeusz Nowicki und Kazimierz Worwa. „Corporate efficiency improvement with business process automation“. MATEC Web of Conferences 210 (2018): 02012. http://dx.doi.org/10.1051/matecconf/201821002012.

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The paper outlines the concept for using the Business Process Management System (BPMS) to improve processes in a rental company. It also presents a case study of the implementation of the process approach in a medium-sized company dealing in the production, rental and service of work and protective clothing. The aim of the paper is to prepare reference business process models that allow you to measure and improve all the corporate activities. The process models were prepared in accordance with the BPMN (Business Process Model and Notation). The results of the conducted research prove that well designed business processes may not only be managed but also easily enhanced and automated in a way that allows organization to improve its performance in meaningful ways. The paper describes in detail - in subsequent chapters - sales, warehouse delivery, incoming correspondence handling, and cost accounting processes. In the last chapter the system architecture is presented. The proess models are prepared in an innovative way that allows easy process automation.
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Barnes, Edward, Gaylon Morgan, Kater Hake, Jon Devine, Ryan Kurtz, Gregory Ibendahl, Ajay Sharda et al. „Opportunities for Robotic Systems and Automation in Cotton Production“. AgriEngineering 3, Nr. 2 (28.05.2021): 339–62. http://dx.doi.org/10.3390/agriengineering3020023.

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Automation continues to play a greater role in agricultural production with commercial systems now available for machine vision identification of weeds and other pests, autonomous weed control, and robotic harvesters for fruits and vegetables. The growing availability of autonomous machines in agriculture indicates that there are opportunities to increase automation in cotton production. This article considers how current and future advances in automation has, could, or will impact cotton production practices. The results are organized to follow the cotton production process from land preparation to planting to within season management through harvesting and ginning. For each step, current and potential opportunities to automate processes are discussed. Specific examples include advances in automated weed control and progress made in the use of robotic systems for cotton harvesting.
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Gajjar, Bhavya R., und Saurin Sheth. „Design and Automation in Back Plug Press Fitting Process of Ball Pen Assembly“. Applied Mechanics and Materials 592-594 (Juli 2014): 2596–600. http://dx.doi.org/10.4028/www.scientific.net/amm.592-594.2596.

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In today’s era automation in the production is a key parameter of interest. Rise in the productivity is the main aim of every industry. To sustain in the global era many companies are switching their assembly line from manual to automatic. Consequently, assembly systems should be more flexible and efficient. Even which process needs the automation should be justified to make it automatic. The amount of automation and payback period plays an important role. On that basis authors identify the back plug process needs to be automate. So an attempt is made to design an Automatic Back Plug Press Fitting Process. The paper describes the design, modeling and manufacturing aspects of this process. In automation decisions, it is necessary to consider human resources, as well as mechanical technology and information flow. The paper also includes rise in the productivity along with payback period.
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Herbert, Meike, Andreas Selmaier, Florian Hefner und Jörg Franke. „Potenziale zur Produktionsautomatisierung/Systematic approach for identifying automation projects - Potential for production automation“. wt Werkstattstechnik online 110, Nr. 09 (2020): 597–601. http://dx.doi.org/10.37544/1436-4980-2020-09-27.

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Unternehmen der produzierenden Industrie, insbesondere der deutsche Mittelstand, sind bei der digitalen Transformation mit vielen Herausforderungen konfrontiert, beginnend mit der Analyse und Identifikation geeigneter Automatisierungsprojekte. In dem Beitrag wird eine ganzheitliche Vorgehensweise vorgestellt, um Potenziale für eine Automatisierung in Produktion und Logistik zu erkennen und konkrete Projekte zu definieren.   Companies in the manufacturing industry, especially German small and medium-sized businesses, face many challenges in the digital transformation process that begins with analysis and identification of appropriate automation projects. This paper presents an integrated approach to identifying potential for automation in production and logistics and defining concrete projects.
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Zhirkova, V. S., N. L. Kleymenova, O. P. Dvoryaninova, L. I. Nazina und S. V. Ershov. „Creation of an automated system for measuring technological parameters in the rubber production line“. Proceedings of the Voronezh State University of Engineering Technologies 81, Nr. 3 (20.12.2019): 225–30. http://dx.doi.org/10.20914/2310-1202-2019-3-225-230.

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The introduction of an automated control system on the production line of the rubber compound will reduce the influence of the human factor on the quality of rubber products, which will lead to a significant improvement in the operational and physico-mechanical characteristics of the final product. Also, the development of this system will create a centralized data collection system for creating reports on technological operations of the production process. To obtain high-quality products, it is necessary to control and maintain all technological parameters during equipment operation at the same level, modern means of registration and parameter management. In the production of rubber compounds, it is necessary to ensure a high degree of automation of the main technological equipment, which will make it possible to more accurately dose the ingredients, including dusting ones, to conduct the process in a given temperature regime for the time required to obtain high-quality products. The implementation of automatic control during the use of high-performance equipment is not possible without the use of measuring and control equipment. The article is devoted to the problem of automation of a system for measuring technological parameters on a rubber compound production line in order to improve the quality of manufactured products. The analysis of the technological process is carried out, the controlled parameters of not only the modes of the technological process, but also of raw materials, semi-finished products and finished products are selected. The choice of instruments and local automation equipment is presented, as well as the choice of an industrial microcontroller with which control is carried out at the lower level of an integrated automation system. A functional diagram of the automation of the rubber compound production process is proposed, which will allow to obtain a product with quality indicators corresponding to the regulated level.
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Haubeck, Christopher, Heiko Bornholdt, Winfried Lamersdorf, Abhishek Chakraborty und Alexander Fay. „Step-based evolution support among networked production automation systems“. at - Automatisierungstechnik 66, Nr. 10 (25.10.2018): 849–58. http://dx.doi.org/10.1515/auto-2018-0047.

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Abstract Production systems are no longer rigid, unyielding, and isolated systems anymore. They are rather interconnected cyber-physical systems with an evolution process that needs to be supported. To enable reusability in evolution, a change-first cooperative support is proposed that relies on model-based evolution steps. The approach establishes a network-wide evolution process in a peer-to-peer networked community. Thus, moving towards decentralised marketplaces for evolution steps.
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He, La Mei, und Yan Hu. „Logistic Simulator for Steel-Making Process“. Advanced Materials Research 154-155 (Oktober 2010): 712–15. http://dx.doi.org/10.4028/www.scientific.net/amr.154-155.712.

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Setting up an adaptable and flexible simulation model for steel-making process is very important to improve production system design and manufacture automation. To assist the decision-makers in steel-making plants, the Logistical simulator for steel-making has been developed using em-Plant software. The Simulator can be used to rapidly model any steel plant, including the movement of the operation equipments and the changes of production parameters. With the help of Simulator, the influences of lay-out changes, process parameters, and changes in planning could be revealed vividly, and the realistic production planning could be created. Results include production Gantt charts, display of cranes track, utilization figures and production statistics. Simulation cases show that the simulator is valid for simulating different steel-making processes, and production states on different conditions can be investigated by using this model.
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Cinco, Samantha Joy. „Companion or Substitution? Automation and Digitisation in the Workplace“. Journal of Entrepreneurship and Innovation in Emerging Economies 7, Nr. 2 (10.02.2021): 263–68. http://dx.doi.org/10.1177/2393957520973509.

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The production process is no longer purely limited to human workers. Automation and digitisation have come in. Workers are aided by various machines that assist them in production. This has led to faster production and lower prices. The benefits are obvious, yet up to what extent can we automate and digitise production? Will it ever come to a point when we would no longer need any human intervention to produce the things we need? Can the digital and the automated ever substitute human hands? This article offers a brief discussion on how digitisation and automation have affected our lives and the way we work. It presented an overview of automation’s history and recent developments. Moreover, it discussed the various opportunities and risks associated with these fast improvements. Lastly, an analysis of the possible future of digitisation was mentioned: What must be done to take full advantage of the opportunities and to curb the risks? Automation has made production faster and this has led to various benefits and opportunities just waiting to be taken advantaged off, yet I firmly believe that human labour will continue to flourish. Automation and digitisation may have been going on for decades, but human work still exists because there are aspects of work that cannot just simply be replaced by machines. Machines are to complement us and help us to do things better. Moreover, there should be a focus on education and on fostering a culture of innovation so that we can be ready to face any changes in the workplace. There should also be a conscious effort to fight the factors that further inequality in society.
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Piętak, Andrzej, Sławomir Wierzbicki und Kamil Duda. „Possibility of Automation of a Mobile Biodiesel Production Plant“. Solid State Phenomena 180 (November 2011): 76–88. http://dx.doi.org/10.4028/www.scientific.net/ssp.180.76.

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This paper presents a method of production and properties of ethyl esters as well as the differences between them and methyl esters. It discusses the technology of esterification and the benefits brought by the use of rapeseed ethyl esters as renewable fuel. It also presents elements of structure, actuators and control mechanisms of a mobile biodiesel production plant, owned by the Department of Mechatronics, University of Warmia and Mazury. An algorithm of a transesterification process is presented along with algorithms of a flow-through process control and the possibilities of their automation. The benefits of applying such a solution are also discussed.
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Grishchenko, Sergey, Konstantin Rymarenko, Marat Nukhaev, Galymzhan Aitkaliyev, Vasilii Kabanov und Daniil Minin. „AUTOMATION SYSTEM FOR IMPROVING THE EFFICIENCY OF PRODUCTION FOR GAS LIFT WELLS“. Interexpo GEO-Siberia 2, Nr. 1 (2019): 42–48. http://dx.doi.org/10.33764/2618-981x-2019-2-1-42-48.

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The paper deals with the problem of automation of one of the methods of mechanized production - gas lift wells operation. The main advantages of this method of operation are its low cost, work with high gas content, simplicity of the design of deep equipment, fast repair in cattle, minimal power consumption and control and automation of the extraction process at the expense of the Gazlift process control system. This complex is designed to control the process of gas-lift oil production by remote control, as well as the collection and processing of information from primary transducers, the ability to control actuators that provide optimal performance of wells, as well as the ability to quickly change the mode of operation of wells.
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Yan, Ya Lin, Yi Fang, Xiao Peng Li, Xiao Qiang Zhu und Sheng Miao. „Material Sorting Control System Design Based on Mitsubishi FX2N-48 MT PLC“. Advanced Materials Research 898 (Februar 2014): 563–67. http://dx.doi.org/10.4028/www.scientific.net/amr.898.563.

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In order to achieve the automation of industrial production, this paper designs TVT-METS3 type electromechanical integration training equipment as the platform, based on Mitsubishi FX2N-48MT PLC controller, using MM440 inverter to control motor speed, and the material sorting system with multiple types of sensors to detect the signal as a whole. The system can simulate industrial automation production line cargo sorting process, which can be completed cargo identificationhandlingsortingstorage management of the operations and so on, achieve the realization of industrial automation material sorting control system.
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Stankovic, Mirjana, und Lato Pezo. „Dry alcohol production plant“. Chemical Industry 57, Nr. 2 (2003): 83–85. http://dx.doi.org/10.2298/hemind0302083s.

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The IGPC Engineering Department designed basic projects for dry alcohol production plant, using technology developed in the IGPC laboratories. Several projects were completed: technological, machine, electrical, automation. On the basis of these projects a production plant with a capacity of 40 m3/y was manufactured, at "Zorka Pharma", Sabac in 1995-1996. The product meets all quality demands, as well as environmental regulations. The dry alcohol production process is fully automatized. There is no waste in the process, neither gaseous, nor liquid. The chosen process provides safe operation according to temperature regime and resistance in the pipes, air purification columns and filters. Working at increased pressure is suitable for evaporation and condensation at increased temperatures. The production process can be controlled manually, which is necessary during start-up, and repairs.
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Du, Dong, Jun Ying Zhao, Jian Yuan Lu, Cheng Sheng Wang und Feng Chuang Yu. „The Design of Industrial Robot Sorting and Pallet System“. Applied Mechanics and Materials 536-537 (April 2014): 1009–14. http://dx.doi.org/10.4028/www.scientific.net/amm.536-537.1009.

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industrial assembly line development in the direction of automation and flexibility. Not only more and more automated machinery and more industrial manipulator into the production line. Manipulator instead of artificial heavy labor, realize mechanization, automation and flexibility production process. But in the process of production, first of all to the parts, then is all kinds of processing actions. So, will the application of automatic identification in combination with manipulator is very necessary. This paper introduces a can demonstrate the technology training equipment, from the development of the technology are integrated into the software are introduced. Hope that this technology can be widely used in industrial production.
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Li, Jing Min. „On Current Situation and Development of our Industrial Automation Control Technology“. Advanced Materials Research 383-390 (November 2011): 5697–99. http://dx.doi.org/10.4028/www.scientific.net/amr.383-390.5697.

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The industrial automation control technology is comprehensive technology, mainly including industrial automation hardware, software and systems which reaches inspect, control and optimization, scheduling, management and decision-making, and increases yield and improve quality, reduce cost, to ensure safety. Industrial automation control technology as the most important technology in modern manufacturing in 20th century, which mainly solve the problem of production efficiency and consistency. Although automation system itself is not directly creating benefit of enterprise production, but it has obvious effect of ascension process. Our industrial automation control development road, mostly in the introduction of complete sets of equipment, and at the same time the digestion and absorption of second development and application. Currently our industrial automation control technology, industry and applications have developed greatly in industrial computer system, has been formed. At present, industrial automation control technology is intelligent, network integration and development direction
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Otto, Jens, Birgit Vogel-Heuser und Oliver Niggemann. „Online parameter estimation for cyber-physical production systems based on mixed integer nonlinear programming, process mining and black-box optimization techniques“. at - Automatisierungstechnik 66, Nr. 4 (25.04.2018): 331–43. http://dx.doi.org/10.1515/auto-2017-0124.

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AbstractCyber-Physical Production Systems (CPPS) should adapt to new products or product variants efficiently and without extensive manual engineering effort. In comparison to rewriting the automation software for each adaption, manual engineering effort can be reduced by reusable software components with free parameters, which must be adjusted to individual production scenarios. This paper introduces CyberOpt Online, a novel online parameter estimation approach for reusable automation software components. In contrast to classic mathematical modeling approaches, such as Mixed Integer Nonlinear Programming (MINLP), our approach requires no predefined models that represent the system. Models, e. g., of the energy consumption of CPPS, are learned automatically from data observed during the operation of the production system. Therefore, the manual engineering effort is minimized as postulated by the paradigm of CPPS. The presented approach combines MINLP, process mining and black-box optimization techniques for calculating optimal timing parameter configurations for automation software components with free parameters in the domain of discrete manufacturing.
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Istomin, A. B., I. N. Gemba und I. V. Lizunov. „Multi-tool processing in the conditions of complex automation of technical processes“. Glavnyj mekhanik (Chief Mechanic), Nr. 7 (11.06.2021): 24–30. http://dx.doi.org/10.33920/pro-2-2107-02.

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The article analyzes the influence of errors from elastic deformations on the accuracy of processing in the conditions of complex automation. Different variants of multi-tool processing are considered: parallel processing, when different tools are alternately, one after the other, involved in the processing of the workpiece surfaces, and parallel-sequential processing, when different surfaces of the workpiece are processed simultaneously by several tools located in the working position. Design automation in machine-building production is part of the complex problem of automation of engineering work in all areas of the functioning of a modern production system. Therefore, when creating design automation systems, its connections in the general complex of automation of engineering activities in the production cycle should be taken into account. In general, the automation of the engineer's work is task planning, design and technological preparation of production, and management of the production system. The choice of favorable cutting modes for multi-tool processing is a difficult task, since, along with taking into account the features of each individual tool, it is necessary to make a general analysis of the entire setup, i.e. the set of tools used on the machine, and the distribution of processing transitions among them. Machine-building production is currently characterized by the desire to constantly update the range of released products. The requirements of multi-product manufacture can be met under the condition of its automation, which covers both the automation of production preparation and management. The article provides recommendations for reducing the error from elastic deformations in the conditions of complex automation. English version ofthe article is available at URL: https://panor.ru/articles/multi-tool-machining-in-complex-process-automation/65225.html
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Matveykin, V. G., A. A. Ishin, S. A. Skvortsov und S. I. Dvoretsky. „Automation of the Process of Gas Mixtures Adsorptive Separation and Hydrogen Production“. Vestnik Tambovskogo gosudarstvennogo tehnicheskogo universiteta 23, Nr. 4 (2017): 548–56. http://dx.doi.org/10.17277/vestnik.2017.04.pp.548-556.

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Belyanin, P. N., I. V. Bobrova und A. Gonzalez-Sabater. „Principles of Process Planning Automation Under Flexible Manufacturing Systems (FMS) Production Preparation“. IFAC Proceedings Volumes 19, Nr. 2 (April 1986): 163–67. http://dx.doi.org/10.1016/s1474-6670(17)64116-8.

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D'Costa, Susan, Michael Delahaye, Michael DiBiasio-White, Franz Gerner, Jessica Tate und Jim Warren. „Viral vector production process intensification: analytics, automation, in-line testing and more“. Cell and Gene Therapy Insights 6, Nr. 11 (09.02.2021): 1739–54. http://dx.doi.org/10.18609/cgti.2020.192.

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Pereira, Juan Carlos, Ramón Moreno, Christian Tenbrock, Arnold Herget, Thomas Wittich und Kelvin Hamilton. „Advances in Multi-Process Hybrid Production Cells for Rapid Individualised Laser-Based Production“. Applied Sciences 11, Nr. 4 (18.02.2021): 1812. http://dx.doi.org/10.3390/app11041812.

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In this paper, the approach and main advances made in multi-process hybrid production cells (HyProCell) for rapid individualised laser-based production are compiled and discussed, including highlights and achievements. HyProCell constructs automated manufacturing platforms that integrate highly flexible laser-based additive build processes with more conventional yet precise subtractive machining processes and include novel solutions like automatic powder removal system/machines and robot arms in integrated multi-process production cells. The HyProCell approach can either build parts additively from scratch and finish them in a coherent production single line/cell or prepare parts by machining and add laser-based additive features, achieving otherwise impossible shapes. In addition to producing new parts, existing parts can be repaired or improved by adding new details with the HyProCell hybrid concept. The research work includes the design of pilot cell facilities, the development of the, and a new modular architecture including a middleware and integration layer to ensure automation with improved pallet handling systems. Finally, the MES and data management methodologies for future improvements and pilot facility implementation were made.
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Pandit, Madhukar. „Integrated Extruder Plant Automation with Learning Control“. Key Engineering Materials 424 (Dezember 2009): 273–80. http://dx.doi.org/10.4028/www.scientific.net/kem.424.273.

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Integrated automation in a manufacturing plant demands control of manufacturing and material and product flow processes. Efficient data archiving and retrieval, quality control and process automation facilities are essential components which should be deployed to form one coherent system. As managers of extruder plants running look for ways and means for meeting market requirements, the demand for such integrated automation systems is rising. Integrated Process automation involves: - Overall production and process control - Data acquisition, archiving evaluation with feed-back to production planning and process control - Decentral control in local control loops for achieving isothermal extrusion - On-line visualisation of process variables for tighter man-machine interaction Providing the facility for prescribing the ranges of relevant process variables viz. billet temperature, die temperature, profile temperature at die exit, rate of cooling of the profile and extrusion speed is part of the integrated automation system. At the heart of the system are processes for mastering the core task of management of the thermal processes in the extruder by employing sensors and control techniques. Goal is to minimise the time to extrude a billet and simultaneously keep the process variables within prescribed limits. Automation in extrusion plants is made possible by progress in sensor technology and enhanced possibilities of data processing and organisation, advanced control methods which require simple models and facilities of integration of hardware and software employing state-of-the-art networking and protocols. Crucial is the non-contact temperature measurement of the billet and the profile at die exit. Since about two decades there has been a continuous progress in temperature measurement technology based on multi-spectral radiation pyrometers. They perform well for a large number of alloys and surface finishes and are reliable for industrial use. Disturbances can be suppressed using adequate signal processing
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Xi, Xu. „The Design and Application of Mechanical Automation Technology in Food Factory Network Management System Based on Fractional Algorithm“. Open Mechanical Engineering Journal 9, Nr. 1 (09.11.2015): 1092–96. http://dx.doi.org/10.2174/1874155x01509011092.

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With development of mechanical and electronic technology, mechanical automation technology plays an important role in many areas. Because of high demand for food safety, mechanical automation technology in food factory is used widely. But there still is gap with advanced countries, mainly in automation software design. Through designing the automation monitoring system of food packaging production line, general process of automation control software design is introduced. And the results shows current machines are potential to work automatically and efficiently and produce goods with low lost and high quality.
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Li, Zheng Jeremy. „A New Automated and High Speed Machinery System for Filling High Viscous Liquids“. Applied Mechanics and Materials 66-68 (Juli 2011): 140–45. http://dx.doi.org/10.4028/www.scientific.net/amm.66-68.140.

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The application of automation to industries brings revolution for manufacturing techniques and allows more sophisticated, flexible, reliable, and cost-effective manufacturing process control. Automation is to use control system to reduce human labor intervention during manufacturing processes and production. It plays very important role and puts strong impact in industries. Automation is not only significantly increasing the production speed but also more accurately controlling product quality. The automated manufacturing can maintain consistent quality, shorten lead time, simplify material handling, optimize work flow, and meet the product demand for flexibility and convertibility in production. The current economic globalization requires significant labor cost reduction through industry automation, better machine tools, and efficient production process. This paper is to design and develop a new automated and high speed machinery system for filling high viscous liquids. It includes the design of automated and high speed machinery, computer aided modeling and simulation of automated mechanical system, and prototype testing. The major advantages of this new automated and high speed liquid filling system include reliable function, high volume filling rates, good sealing capacity, and cost-effective manufacturing process. This new automated and high speed manufacturing systems has been analyzed by computer aided modeling and simulation, and verified through prototype testing. Both results indicate that this automated and high speed manufacturing systems can keep high product quantity and reliable product quality.
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Usta, Selçuk, Serpil Gençoğlan und Cafer Gençoğlan. „Sulama Otomasyonu Sistemlerinin Tasarımında Kullanılabilecek İş Akış Şemalarının Oluşturulması“. Turkish Journal of Agriculture - Food Science and Technology 7, Nr. 7 (19.07.2019): 1014. http://dx.doi.org/10.24925/turjaf.v7i7.1014-1020.2507.

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Automation is a mechanical, electronic and computer based technology that enables the operation of various devices, systems and programs without the need for human intervention. The irrigation automation system should be planned with less manpower, more controlled and better quality agricultural production considering the environment, water resources and production cost. It should have the ability to implement the irrigation program in greenhouse, field and garden plants cultivation. Irrigation automation system is formed by following some process steps. These are; preparing the irrigation program, selecting the system components, preparing the project, preparing and testing the software and the establishment of the system. The irrigation automation system, which is passed through these stages, ensures the effective use of irrigation water, reduces labour, controls the irrigation program and reduces production costs. In this study, flow charts have been created which can help to design of irrigation automation systems sensitive to crop water consumption and soil moisture level in root region.
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Laugier, Alain, Trevor Steele und François Falco. „Laboratory Automation - The Design of User Interfaces“. Laboratory Automation News 2, Nr. 1 (März 1997): 22–23. http://dx.doi.org/10.1177/221106829700200107.

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The end result of the laboratory process is the production of information. The quality of what is produced depends not only on quality factors such as the reliability of the information but also its turnaround time, accessibility and production cost.
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