Thematische Bibliographien / Cmms software

Auswahl der wissenschaftlichen Literatur zum Thema „Cmms software“

Autor: Grafiati

Veröffentlicht am 25. Juli 2024

Zuletzt aktualisiert am 26. Juli 2024

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Zeitschriftenartikel zum Thema "Cmms software"

Braglia, Marcello, Gionata Carmignani, Marco Frosolini und Andrea Grassi. „AHP‐based evaluation of CMMS software“. Journal of Manufacturing Technology Management 17, Nr. 5 (Juli 2006): 585–602. http://dx.doi.org/10.1108/17410380610668531.

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Abu Bakar, Zulazhan, und Syahrul Nizam Kamaruzzaman. „FACILITY MANAGER’S ACCEPTANCE OF CMMS IN MALAYSIA: AN EXPLORATORY STUDY USING PLS-SEM APPROACH“. Journal of Surveying, Construction & Property 14, Nr. 1 (28.06.2023): 83–93. http://dx.doi.org/10.22452/jscp.vol14no1.7.

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Computerised Maintenance Management System (CMMS) is a widely recognised software in Facilities Management (FM) that provides numerous advantages to facility managers by enhancing productivity at work. The objective of this research is to provide insight and assess the factors influencing the acceptance of CMMS among facility managers in Malaysia. As a result, an improved comprehension of CMMS technology acceptance can be formed, as well as a better understanding of other FM technology adoption. Multiple factors influence CMMS acceptance, and this study used a quantitative technique to verify the hypothesis, using the Technology Acceptance Model (TAM) in conjunction with a Partial Least Square-Structural Equation Model (PLS-SEM). In addition, 125 facility managers completed an online survey that was utilised to collect primary data. The quantitative and structural models were analysed using PLS-SEM. Based on the study's findings, perceived usefulness (PU) and perceived ease of use (PEOU) have a favourable impact on behavioural intention (BI), which influences actual usage (AU) of CMMS. The research aims to improve awareness of the degree of acceptance of CMMS among facility managers and to contribute to FM organisations' better understanding of future technology adoptions.

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Amorim, ES, EGM Silva und AC Lordsleem JR. „Current Overview of CMMS Operationality: Brazilian Scenario“. International Journal of Business Administration 14, Nr. 4 (16.01.2024): 66. http://dx.doi.org/10.5430/ijba.v14n4p66.

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Currently, the impacts of Industry 4.0 are observed in the construction industry, commonly referred to as Construction 4.0, emerging linked to technological innovations. Construction 4.0 presents a standardized model for smart cities and buildings, with the existence of some important points being essential, such as the capacity for adaptation, improvement and efficiency of resources and connections for everyone involved. As a result, new technologies and applications have been emerging that directly impact building maintenance activities, enabling increased efficiency and productivity in this sector, which reduces the risk of errors, failures and defects by maintenance managers. One of these applications is the use of computerized maintenance management systems (CMMS), which is a software solution designed to simplify building maintenance processes, in addition to improving the management of organizations' assets. In this sense, the present work aims to evaluate the CMMS available in the Brazilian scenario, showing the current panorama in which this technology has been presented to the market. To this end, we carried out a survey of the CMMS used by Brazilian maintenance companies using the snowball method to list the CMMS to be analyzed. The research carried out in 16 maintenance companies identified 9 CMMS, which were evaluated using the method proposed by Roscoff; Costella; Pilz (2020), which evaluates CMMS functionalities and activities. As a result, the sample analyzed presents heterogeneity in the results linked to CMMS functionalities and activities. In short, the registration items, a basic function, were met by all CMMS analyzed. However, advanced functions that are linked to the principles of Industry 4.0, such as interoperability, virtualization, real-time and service orientation, present disparities in results. Because among the nine CMMS evaluated, only three reached the levels proposed in the methodology.

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Alemayehu, Gadisa, Muralidhar Avvari, Bikila Alemu und Atkilt Mulu Gebrekidan. „Performance Evaluation of Faffa Food Share Company through Computerized Maintenance Management System (CMMS)“. Journal of Engineering 2023 (14.07.2023): 1–13. http://dx.doi.org/10.1155/2023/4856457.

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Since 1962 EC, the Faffa Food Share Company has been producing and supplying flour in Ethiopia both for relief and commercial markets. However, it is incompetent in the market due to a poor maintenance management system. So, the aim of this research is to overcome the poor maintenance management problems by using the CMMS application. The data collected from the company by survey studies, unstructured interviews, and stopwatches and from company records revealed that frequent failure machines, as well as a poor maintenance management system, cause production downtimes, resulting in a 29.19% decrease in production from the planned production. The collected data are analyzed by, tools such as time and motion study, SPSS software and CMMS effectively. The finding from the outcome of the bivariate correlation of CMMS elements and manufacturing performance dimension has an alpha α value of greater than 0.5, which indicates that the relationships between CMMS and manufacturing performance are positive. The findings from company records and stopwatch equipment and manpower (technicians) should be managed to activate machine servicing. Finally, the proposed smart maintenance management system tool, CMMS improves the availability of machines, reduces the frequency of equipment failure, reduces the breakdown time, decreases the cost of maintenance, and then improves the manufacturing performance by 5 percent.

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Ardila Marín, Maria Isabel, William Orozco Murillo, Oscar Julian Galeano Echeverri und Andrés Mauricio Medina Escobar. „Desarrollo de software para la gestión del mantenimiento en los laboratorios de la I.U. Pascual Bravo“. Revista CINTEX 23, Nr. 1 (19.10.2018): 43–50. http://dx.doi.org/10.33131/24222208.307.

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La importancia de las acciones de mantenimiento en el sector de bienes y servicios para garantizar la disponibilidad y confiabilidad necesaria en los activos, ha generado la necesidad de tener herramientas que mejoren la administración de los departamentos de mantenimiento; es por esto que los Sistemas Computarizados para la Gestión del Mantenimiento (CMMS) aparecen para contribuir con la planeación, ejecución y control de las actividades en tales departamentos, haciendo que los datos obtenidos se conviertan en información relevante para la toma de decisiones para mejoramiento continuo. Para la I.U. Pascual Bravo, institución de educación superior con laboratorios para la prestación de servicios educativos y productivos, es fundamental trabajar en la conservación y seguridad de sus activos a través de la gestión del mantenimiento; por esto, se genera la necesidad de desarrollar un CMMS adaptado a las características de los activos de los diferentes laboratorios de la Facultad de Ingeniería, para centralizar la información de mantenimiento. En el presente artículo se revisa la evolución y desarrollo de los CMMS y se describe el diseño y la funcionalidad de SIMA, Sistema de Información de Mantenimiento, aplicación para centralizar la gestión del mantenimiento de los equipos de los laboratorios de la Facultad de Ingeniería. Con este módulo se pretende contribuir con la creación de cultura de mantenimiento, apoyando el correcto registro de la información para optimizar tanto las actividades y los recursos disponibles.

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Beldjoudi, Samia. „Improving Existing CMMS Software Packages Using Association Rules“. Revue d'Intelligence Artificielle 37, Nr. 1 (28.02.2023): 223–30. http://dx.doi.org/10.18280/ria.370128.

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Gerasimov, Dmitry, und Arthur Gartvig. „Parallel computing of metal forming simulation in QForm software“. Computer Methods in Material Science 16, Nr. 3 (2016): 139–42. http://dx.doi.org/10.7494/cmms.2016.3.0582.

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In this study, the principle of parallelization of data and tasks implemented in QForm software is described. The dependence of the number of simultaneously working logical processors or cores of a multi-core CPU on the solving time of metal forming simulation is investigated.

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Majstorovic, Vidosav D., Slavenko M. Stojadinovic und Tatjana V. Sibalija. „Development of a knowledge base for the planning of prismatic parts inspection on CMM“. ACTA IMEKO 4, Nr. 2 (29.06.2015): 10. http://dx.doi.org/10.21014/acta_imeko.v4i2.205.

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Inspection on coordinate measuring machines (CMMs) is based on software support for various classes of metrological tasks, i.e. tolerances. Today, the design of a uniform inspection plan for a measuring part presents a rather complex issue due to the following: (i) metrological complexity of a measuring part; (ii) skills and knowledge of a designer / inspection planner; and (iii) software for CAI model, considered as a part of an integrated CAD-CAPP-CAM-CAI system. This issue could be addressed by the usage of expert systems that generate a conceptual inspection plan for a measuring part, based on which the inspection plan for a selected CMM could be automatically developed. This paper presents the development of a model of an automatic inspection planning system for CMMs, and, in particular, the developed knowledge base model.

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Vo, Tran Anh, T. H. Dung und Hyun Chul Kim. „Design of a High Accuracy 3-Axis Coordinate Measuring Machine Working on the Shop Floor“. Advanced Materials Research 1125 (Oktober 2015): 521–25. http://dx.doi.org/10.4028/www.scientific.net/amr.1125.521.

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One of the key features of advanced manufacturing technologies is the metrology of geometric quantities. Coordinate measuring machines (CMMs) now are widely used to perform relevant measurements. Normally, the use of CMMs in traditional quality control rooms, isolated from the production floor, often proves unsuitable for effective and timely feedback on the manufacturing process. However, CMMs are sensitive to environmental factors such as humidity, suspended dust and oil, vibrations, and especially temperature. For this reason, measuring machines must to be designed with features that make them more resistant to the environmental influences on shop floor operations. The main goal of this work is to enhance accuracy of a CMM working on the shop floor conditions by design improvements and error compensation. A 3-axis CMM will be built with some improved designed features and a software compensation technique will be applied to enhance the machine accuracy.

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Rodrigues, Rui Calejo, Hipólito Sousa und Ivo Almino Gondim. „SMARTS-Based Decision Support Model for CMMS Selection in Integrated Building Maintenance Management“. Buildings 13, Nr. 10 (05.10.2023): 2521. http://dx.doi.org/10.3390/buildings13102521.

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An Integrated Maintenance System (IMS) represents a coordinated methodology including different maintenance policies, such as preventive and corrective. These systems rely on Computerized Maintenance Management Systems (CMMSs), specialized software available from multiple suppliers. Given the diverse features of commercial CMMS software, this work aims to develop a decision support model for CMMS evaluation emphasizing an integrated perspective within IMS. A Simple Multi-Attribute Rating Technique using Swings (SMARTS) method was used to build the decision model. Five existing market software were evaluated, and a minimum profile was defined for IMS requirements. Three of the assessed software types met these minimum IMS requirements, while the absence of certain features limited scores for others. The results obtained from the decision support model provide a simple and synthetic way to support decision-makers and promote a systemic view of the software features. The evaluation model has the advantage of adopting criteria that integrate software evaluation; its framing in a building maintenance management model; and new technological trends, such as Building information modeling (BIM), Virtual Reality (VR), Augmented Reality (AR), and Internet of Things (IoT). Considering these outcomes, future developments and alternatives can capitalize on these trends.

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Dissertationen zum Thema "Cmms software"

Barrios, Lambruschini Daniel Eduardo, und Monteagudo Robert Erickson Espinoza. „Planificación y control de las actividades de empresas outsourcing de mantenimiento del sector gas natural mediante un CMMS“. Bachelor's thesis, Universidad Nacional Mayor de San Marcos, 2015. https://hdl.handle.net/20.500.12672/8663.

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Publicación a texto completo no autorizada por el autor
Plantea una solución tecnológica para mostrar cómo con la tecnología, se puede mejorar el problema de la demora en la planificación de actividades, mejorando así el servicio brindado hacia sus clientes. Se presenta como una alternativa para las empresas outsourcing dedicadas a las actividades de mantenimiento de equipos industriales del sector gas natural a través de las TIC’s, para que ayude a mejorar la planificación de sus actividades, mantener informados a los encargados sobre las actividades de mantenimiento actuales y programadas, a la gestión de clientes y máquinas, gestión de repuestos y stock, y generar reportes para que sea de apoyo a la toma de decisiones de la empresa. Todo esto se alcanzará desarrollando un sistema de información basado en el modelo de un CMMS y empleando la metodología ágil AUP (Agile Uniffied Process) para su desarrollo. Esta solución podrá permitir a aquellas empresas outsourcing llevar una planificación más rápida de las actividades de mantenimiento y contar con la información deseada con rapidez.
Tesis

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Fink, Miriam. „Metrikeinsatz in Software-Projekten“. [S.l. : s.n.], 2005.

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Sun, Yan. „Business-oriented Software Process Improvement based on CMM and CMMI using QFD“. Diss., Rolla, Mo. : University of Missouri-Rolla [sic] [Missouri University of Science and Technology], 2008. http://scholarsmine.mst.edu/thesis/pdf/Sun_09007dcc8047a90b.pdf.

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Thesis (Ph. D.)--Missouri University of Science and Technology, 2008.
Degree granted by Missouri University of Science and Technology, formerly known as the University of Missouri-Rolla. Vita. The entire thesis text is included in file. Title from title screen of thesis/dissertation PDF file (viewed April 29, 2008) Includes bibliographical references (p. 108-111).

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Sousa, Sandra Cristina Catarino. „O impacto do cmm / cmmi na qualidade do software: um estudo sobre a percepção dos profissionais de tic“. Universidade Federal da Bahia, 2009. http://www.adm.ufba.br/sites/default/files/publicacao/arquivo/sousa_sandra_c._catarino.pdf.

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p. 1 - 119
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Diante de diversos estudos que relacionam a qualidade do software à qualidade do processo que o gera e da crescente pressão do mercado de TIC (Tecnologia da Informação e Comunicação) pela criação de produtos qualidade com prazos e custos cada vez menores, as empresas produtoras de software passaram a investir na utilização de processos no desenvolvimento de softwares. Diversos padrões e modelos de qualidade foram criados e difundidos com foco na definição de processos, dentre eles os modelos de maturidade da capacidade CMM (Capability Maturity Model) e CMMI (Capability Maturity Model Integration), criados pelo SEI (Software Engineering Institute), que tiveram uma grande aceitação mundial. Em face desta realidade, a SUNAC/SDR (Superintendência de Negócio, Administração Tributária e Comércio Exterior/Salvador), regional do SERPRO (Serviço Federal de Processamento de Dados), conquistou em 2003 o nível dois do CMM e desde então trabalha no aperfeiçoamento do processo de desenvolvimento de software para atingir níveis superiores do modelo CMMI. A presente pesquisa explicita a percepção dos profissionais da SUNAC/SDR, que trabalharam nesta unidade no intervalo de ]2003 - 2008], sobre como a utilização dos modelos CMM / CMMI afeta a qualidade dos produtos gerados ao longo do ciclo de vida de desenvolvimento de software. Verificou-se que os profissionais perceberam a importância de utilizar um processo de desenvolvimento para a melhoria dos produtos gerados. Além disso, perceberam que houve melhoria nos produtos desenvolvidos por eles e também no produto final entregue ao cliente após a implantação do processo.
Salvador

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Gajdušek, Radek. „Certifikace CMMI ve vývoji software v agilním prostředí“. Master's thesis, Vysoké učení technické v Brně. Fakulta informačních technologií, 2013. http://www.nusl.cz/ntk/nusl-235462.

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The goal of master thesis "CMMI Certification for Software Development in Agile Environment" is CMMI quality model research with focus on software development in agile environment in the Siemens company. In the beginning CMMI model and Scrum methodics are introduced. The core of this thesis is focused on the current state analysis. Output of the analysis is a list of potential areas that are currently not compatible with quality model requirements. These areas are to be improved for the company to achieve the desired CMMI certification level. Possible improvements are introduced to the consultant. During the implementation part a web application is realized helping to remove most of the identified imperfections. Application benefit is objectively evaluated by an internal audit. The work includes discussion of possible further application development and quality model standard evolution in this company.

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ALBUQUERQUE, Carlos Antônio Menezes de. „Qualidade ágil de software“. Universidade Federal de Pernambuco, 2005. https://repositorio.ufpe.br/handle/123456789/2818.

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Com a necessidade de se ter metodologias que facilitassem a produção de software para que fossem evitados a baixa qualidade, os atrasos, bem como os gastos excessivos, foram introduzidos diversos padrões e processos de desenvolvimento de software. Porém, em alguns casos houve uma preocupação excessiva em relação aos papéis exercidos, documentação e artefatos gerados. Tais metodologias passaram a ser consideradas, por alguns, burocráticas e com ênfase nas atividades meio, pois traziam a necessidade de um grande formalismo para os artefatos intermediários (por exemplo, especificações e modelos) ao invés de focarem na qualidade dos artefatos fins (por exemplo, código). Surgiram então algumas metodologias mais simplificadas, voltadas para equipes menores com intensa comunicação, utilizando processos mais leves e uma maior flexibilidade a mudanças, as quais foram chamadas de metodologias ágeis. Tanto em metodologias tradicionais como nas ágeis, é aconselhável que exista alguma atividade que garanta a qualidade tanto do processo que está sendo utilizado como do produto sendo construído. Neste contexto, a garantia da qualidade auxilia o controle do projeto, fornecendo uma visão adequada do processo que está sendo utilizado pelo projeto de software e dos produtos que estão sendo construídos. Entre suas atividades podemos ressaltar, revisões, validações e auditorias nos produtos e processos de software. Um dos representantes dos modelos de melhoria da qualidade é o CMMI (Capability Maturity Model Integration) que apresenta a possibilidade de uma evolução contínua, fornecendo maior flexibilidade, focando em áreas de processo específicas, de acordo com metas e objetivos de negócio. Neste trabalho apresentamos uma disciplina, doravante chamada Qualidade Ágil de Software (QAS), para qualidade de software, independente de metodologia de desenvolvimento e voltada para projetos com equipes de até 20 pessoas. A QAS foi desenvolvida com base no TSP (Team Software Process) e em metodologias ágeis, de modo a estar alinhada ao nível 2 de Capacidade do CMMI (segundo o modelo contínuo) para as áreas de processo Verificação, Validação e Garantia da Qualidade do Processo e do Produto

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Jedlitschka, Andreas. „An empirical model of software managers' information needs for software engineering technology selection a framework to support experimentally-based software engineering technology selection“. Stuttgart Fraunhofer-Verl, 2009. http://d-nb.info/99559161X/04.

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Mikhemar, Mohyee. „Interference cancellation in software-defined CMOS receivers“. Diss., Restricted to subscribing institutions, 2010. http://proquest.umi.com/pqdweb?did=2026903671&sid=1&Fmt=2&clientId=1564&RQT=309&VName=PQD.

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Jorge, Acapana Katherine Miluska. „Aplicación de CMMI DEV nivel 3 a la fábrica de software de la empresa Contasis S.A.C“. Bachelor's thesis, Universidad Continental, 2018. http://repositorio.continental.edu.pe/handle/continental/4920.

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La tesis “APLICACIÓN DE CMMI DEV NIVEL 3 A LA FÁBRICA DE SOFTWARE DE LA EMPRESA CONTASIS S.A.C”, aplica el modelo de mejora continua CMMI (Capability Madurity Model Integration for Development) en los procesos de la Fábrica de Software, que conllevó dos etapas, la primera efectuó el diagnóstico inicial; denominada evaluación Nro 1, valoro la adecuación a los niveles de madurez 2 y 3 de la Fábrica de Software previa a la implementación CMMI, la metodología de evaluación fue SCAMPI (Standard CMMI Appraisal Method for Process Improvement), se obtuvo que el 66% de prácticas no estaban implementadas mientras que el 34% si eran implementadas. La segunda etapa, implementa y mejora las oportunidades detectadas, se tenían 28% de prácticas sin implementar, éstas se gestionaron tomando en cuenta el diagnóstico inicial; Evaluación Nro 1 y la pre-evaluación de certificación; Evaluación Nro 2. La tesista, en calidad de analista de procesos implementó las oportunidades de mejoras detectadas en las evaluaciones Nro 1 y Nro 2. Los resultados indicaron cambios positivos que influenciaron en los proyectos y operaciones de Fábrica de Software, obteniendo el 100% de procesos que se adecuaron a CMMI, debido a la mejora de estimación en los tiempos de análisis de requerimientos, gestión de cambios y corrección de errores, lo que se demuestra mediante regresiones lineales. También se demuestra y concluye que la aplicación de las buenas prácticas de CMMI y adecuación de los procesos implementados por la tesista ha permitido a la Fábrica de Software obtener la certificación CMMI DEV Nivel 3.

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Lito, Ana Luísa Ferreira. „Sistema de gestão da certificação de software : CMMI“. Master's thesis, Universidade de Aveiro, 2009. http://hdl.handle.net/10773/2085.

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Mestrado em Engenharia Electrónica e Telecomunicações
O Capability Maturity Model Integration (CMMI) é um modelo de optimização de processos, desenvolvido pelo Software Engineering Institute de Carnegie Mellon, que disponibiliza às organizações os elementos essenciais para gerir com eficiência projectos de desenvolvimento de software. Uma grande parte das grandes empresas de desenvolvimento de software a nível mundial estão nesta fase a adoptar as medidas necessárias para uma correcta implementação e monitorização da certificação CMMI, necessitando para tal recursos humanos e sistemas informáticos que permitam gerir os vários requisitos da norma. Existem vários estudos a partir dos quais se conclui que pequenas empresas são capazes de implementar uma melhoria para os seus processos de software, de forma tão eficaz como as grandes empresas. No entanto, para a maioria destas empresas, o CMMI é uma meta bastante desafiadora. Este trabalho tem como objectivo o estudo aprofundado do modelo CMMI e das diversas componentes que fazem parte do modelo, e a preparação da empresa Metatheke para a obtenção do nível de capacidade 2 do modelo CMMI, nas seguintes áreas de processo: Gestão de Requisitos, Desenvolvimento de Requisitos, e Solução Técnica. ABSTRACT: The Capability Maturity Model Integration (CMMI) is a process optimization model, developed by Software Engineering Institute of Carnegie Mellon, which provide to the organisations the essential elements to effectively manage software projects. A large number of big companies of software development are now adopting the necessary ways towards a correct implementation and monitoring of the CMMI certification, requiring human resources and informatic systems that allow all of the standard requirements. Enumerous studies evidende that small companies are able to implement a improvement on its software processes, as effectively as big companies do. However, CMMI is a big challenge to the most of small companies. The objective of this work is to study deeply the CMMI model and its various components, and to prepare the Metatheke company to reach the capacity level 2 of CMMI model, in the following proces areas: Requirements Management, Requirements Development, and Technical Solution.

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Bücher zum Thema "Cmms software"

Land, Susan K. Jumpstart CMM/CMMI software process improvement: Using IEEE software engineering standards. Hoboken, N.J: Wiley, 2005.

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Kasse, Tim. Practical insight into CMMI. 2. Aufl. Boston: Artech House, 2008.

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Kasse, Tim. Practical insight into CMMI. 2. Aufl. Boston: Artech House, 2008.

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Kulpa, Margaret K. Interpreting the CMMI (R). London: Taylor and Francis, 2008.

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Kneuper, Ralf. CMMI: Improving software and systems development processes using capability maturity model integration (CMMI-DEV). Santa Barbara, CA: Rocky Nook, 2009.

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Kneuper, Ralf. CMMI: Improving software and systems development processes using capability maturity model integration (CMMI-DEV). Santa Barbara, CA: Rocky Nook, 2009.

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Forrester, Eileen C. CMMI for services: Guidelines for superior service. Upper Saddle River, NJ: Addison-Wesley, 2009.

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K, Dunaway Donna, Hrsg. CMMI assessments: Motivating positive change. Upper Saddle River, NJ: Addison-Wesley, 2005.

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1954-, Turner Richard, Hrsg. CMMI survival guide: Just enough process improvement. Upper Saddle River, NJ: Addison-Wesley, 2007.

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Kenett, Ron. Process improvement and CMMI for systems and software. Boca Raton, Fla: Auerbach Publications, 2010.

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Buchteile zum Thema "Cmms software"

Wu, Zhanchun, David Christensen, Mingshu Li und Qing Wang. „A Survey of CMM/CMMI Implementation in China“. In Unifying the Software Process Spectrum, 507–20. Berlin, Heidelberg: Springer Berlin Heidelberg, 2006. http://dx.doi.org/10.1007/11608035_41.

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Summers, Boyd L. „CMMI for Software Engineering“. In Effective Methods for Software Engineering, 135–42. Boca Raton : CRC Press, 2020.: Auerbach Publications, 2020. http://dx.doi.org/10.1201/9781003025665-16.

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O’Regan, Gerard. „CMMI and Software Process Improvement“. In The Innovation in Computing Companion, 75–79. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-030-02619-6_16.

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O’Regan, Gerard. „CMMI Level 2 Implementation“. In Introduction to Software Process Improvement, 89–138. London: Springer London, 2010. http://dx.doi.org/10.1007/978-0-85729-172-1_5.

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O’Regan, Gerard. „Setting Up a CMMI Initiative“. In Introduction to Software Quality, 233–51. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-06106-1_14.

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O’Regan, Gerard. „Setting Up a CMMI Initiative“. In Introduction to Software Process Improvement, 67–87. London: Springer London, 2010. http://dx.doi.org/10.1007/978-0-85729-172-1_4.

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Monteiro, Paula, Ricardo J. Machado, Rick Kazman und Cristina Henriques. „Dependency Analysis between CMMI Process Areas“. In Product-Focused Software Process Improvement, 263–75. Berlin, Heidelberg: Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-642-13792-1_21.

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O’Regan, Gerard. „CMMI Level 3CMMI Level 3 Implementation“. In Introduction to Software Process Improvement, 139–94. London: Springer London, 2010. http://dx.doi.org/10.1007/978-0-85729-172-1_6.

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Hefner, Rick. „Poster Title: CMMI Compliance in COTS-Based Development“. In COTS-Based Software Systems, 17. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-540-24645-9_13.

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Kneuper, Ralf. „CMM-Assessments zur Prozeßverbesserung bei der Softwareentwicklung — Ein Praxisbericht“. In Software-Management ’99, 225–41. Wiesbaden: Vieweg+Teubner Verlag, 1999. http://dx.doi.org/10.1007/978-3-322-84793-5_14.

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Konferenzberichte zum Thema "Cmms software"

Dong, Chensong, Chuck Zhang, Ben Wang und Guoxiong Zhang. „Dynamic Error Prediction and Compensation of Coordinate Measuring Machines“. In ASME 2000 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2000. http://dx.doi.org/10.1115/imece2000-1790.

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Abstract Coordinate measuring machines (CMMs) are already widely used as a measuring tool in the manufacturing industry. Fast probing is now the trend for next generation CMMs. However, increases in the measuring velocity of CMMs are limited by dynamic errors that occur in CMMs. In this paper, theoretical analysis and experimental research is used to create a systematic approach for modeling the dynamic errors of a touch-trigger probe CMM. First, an overall analysis of the dynamic errors of CMMs is given, and methods to improve the stiffness of air bearings are presented. Weak elements of the CMM are identified with a laser interferometer. The probing process, as conducted with a touch-trigger probe, is analyzed and dynamic errors are measured. Based on these analyses, the dynamic errors in touch-trigger probing are modeled using neural networks. In turn, dynamic errors are predicted. An approach to achieving software error compensation is discussed. Finally, the method and results from this study illustrate that it is possible to compensate for dynamic errors of CMMs.

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Morse, Edward. „Accreditation for Dimensional Testing With Coordinate Measuring Machines“. In NCSL International Workshop & Symposium. NCSL International, 2015. http://dx.doi.org/10.51843/wsproceedings.2015.30.

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This paper will address some of the issues surrounding the accreditation of laboratories for dimensional testing (and calibration) using Coordinate Measuring Machines (CMMs). The differences between calibrating instruments and using them for subsequent measurements will be explained. This is particularly important with CMMs because their calibration is made up of very specific measurements, while subsequent measurements can cover an enormous range of measurands (length, diameter, flatness, true position, run out, and many more). Given this difference in calibration and use, the next step is to discuss how measurement uncertainty for this discipline will appear on a scope of accreditation, and then the different ways that the uncertainty could, or should, appear on a test or calibration certificate. Although many CMMs are operated under direct computer control, with validated software to perform calculations, the interpretation of part drawings and the ability to transform the part specification into a measurement program to determine conformance relies heavily on the CMM programmer's knowledge of both GD&T and the CMM software implementation of GD&T. The next section of this paper will discuss the qualitative and quantitative evaluations that occur in the evaluation of a laboratory that performs CMM measurements, either for internal or external customers. While these subjects will be addressed in the context of laboratory accreditation, the underlying principles are important for anyone who has to justify the value of the CMM measurements that they perform.

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Vemulapalli, Prabath, Jami J. Shah und Joseph K. Davidson. „Reconciling the Differences Between Tolerance Specification and Measurement Methods“. In ASME 2013 International Manufacturing Science and Engineering Conference collocated with the 41st North American Manufacturing Research Conference. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/msec2013-1206.

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The ASME Y14.5M standard has defined different types of tolerances that can be applied to a feature to achieve the required functionality. Each tolerance defines a zone within which the feature under inspection must lie. The conformance of the parts to these tolerances is checked by manual measurements or a CMM. But it has been observed that the measurements between different CMMs do not match. There are two generally accepted reasons for this discrepancy. The first one is the measurement uncertainty in CMM software. This problem was addressed by NIST by developing reference softwares for feature fitting algorithms. And the second one is the distinct choice of algorithms for fitting substitute feature to the data points measured from CMM. Feature fitting algorithms used in CMMs are often based on their mathematical convenience rather than the interpretation of definitions in the GD&T standard. Our research is focused on identifying that normative algorithm that is best to be used for each type of tolerance. Each normative algorithm is identified as the one to best represent the interpretation of geometric control as defined by the Standard and on the manual methods used for the measurement of a specific tolerance type.

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B. Alshokry, Gumma, Mohamed A. Hagal und Bilal A. Aljabour. „Tracking and Reporting Software Maintenance Requests Challenges in CMMS Systems“. In ICEMIS'21: The 7th International Conference on Engineering & MIS 2021. New York, NY, USA: ACM, 2021. http://dx.doi.org/10.1145/3492547.3492621.

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Mohan, Prashant, Jami Shah und Joseph Davidson. „Simulated and Experimental Verification of CMM Feature Fitting Algorithms“. In ASME 2015 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2015. http://dx.doi.org/10.1115/detc2015-46515.

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Coordinate Measuring Machines (CMMs) collect a sampling of points on measured features for use in dimensional metrology. Conformance to specified geometric tolerances is done by analyzing the point cloud to fit the corresponding feature to the point cloud to determine if the simulated feature lies within the specified tolerance limits. Different types of feature fitting algorithms are needed: nominal, minimal/maximal, circumscribing/inscribing, and zone. Studies have shown that the same point cloud data sent to different vendors CMM software, produces different results. It is suspected that some of these algorithms may be inconsistent with the tolerance class definitions in tolerance standards and, in some cases, with shop floor conventional practices. We have previously reported on the development of normative algorithms and a feature fitting library that could be used by all CMMs. This paper gives a summary of those algorithms and then reports on methods used for verification. Three different types of verification methods were used to validate the algorithms developed. The scope of the current work is limited to linear, planar, circular, and cylindrical features. This set of algorithms described conforms to the international Standards for GD&T. In order to reduce the number of points to be analyzed, and to identify the possible candidate points for linear, circular and planar features, 2D and 3D convex hulls are used. For minimum, maximum, and Chebyshev cylinders, geometric search algorithms are used. Algorithms are divided into three major categories: least square, unconstrained, and constrained fits. Primary datums require one sided unconstrained fits for their verification. Secondary datums require one sided constrained fits for their verification. For size and other tolerance verifications, we require both unconstrained and constrained fits. Use of three different methods has validated the robustness, efficiency and accuracy of the algorithms.

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Ribeiro, Robison T., Marcio Single und Reinaldo F. Sima. „Handheld PC Used in Field Maintenance of the GASBOL Pipeline: A Case Study“. In 2004 International Pipeline Conference. ASMEDC, 2004. http://dx.doi.org/10.1115/ipc2004-0273.

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One of the most important challenges in maintenance and integrity is the correct register of maintenance data. Information about failures, diagnostics and services execution are extremely important for the background history of equipments and future analysis. Field personnel usually supply the information in the CMMS (Computerized Maintenance Management System) in the form of few words (or key words) written in a notepad, agenda or at the backside of a maintenance work order. Therefore, most of the time the quality of data is very low, registries are very poor, information is generic and does not add value to the background history of equipment. Sometimes these data are not really true; they are only remembrances from the maintenance worker’s memory. In natural gas pipeline companies, like TBG, with large extensions of pipes and installations distributed so far from each other it is usual that maintenance personnel go to the field job and sometimes do not come back to the office at the same day. In addition, the need to access the corporate network to input maintenance data in the Maintenance Module of Enterprise Resource Planning means that maintenance registries are something that do not flow easily from field to database. Technicians also spend a lot of time in front of the computer decreasing their productive working hours. Being aware of the importance of data to a consistent integrity pipeline program and to solve the problems related above, TBG implemented Maintenance in the Palm of the Hand project and distributed handheld PCs to all technicians, with software that works like an electronic maintenance work order. This system permits to collect maintenance data in real time (timesheet, measurements and information about the job and related problems) and also providing important information to help technicians perform their jobs (equipment data, set points and task list). If necessary, they can start a maintenance request. At any moment it is possible to connect to the corporate network and download data to CMMS. This project allowed TBG to increase quality and reliability of maintenance data and speed of information flow from field to CMMS, eliminating the need to print work orders and data sheets, increasing the productivity of technicians and reducing the time spent on boring tasks such as taking notes.

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McNeely, Marcus. „Leveraging Integration of Calibration Management Systems in Healthcare Metrology“. In NCSL International Workshop & Symposium. NCSL International, 2015. http://dx.doi.org/10.51843/wsproceedings.2015.20.

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Software packages with targeted calibration and maintenance functionality have long been incorporated to track calibration, maintenance and asset management for IM&TE in regulated environments with an ever-increasing list of functionality to meet specific needs of the end-user group. As corporations move towards implementations of major ERP (Enterprise Resource Planning) software applications, resident calibration functionality ´modules’ are increasingly mandated to metrology organizations, often without user acceptance, with corporate focus on efficiency of implementing a single solution at the cost functionality that falls short of specific metrology user requirements. API (Application Programming Interface, AKA, Integration) is a viable option to leverage the desired functionality between two or more systems’ data. Integration is a user-defined interaction (to the field-level) so that key information can be ´pushed’ or ´pulled’ to and from target and source software packages. This paper discusses the strategy of justifying and incorporating integration between an ERP (or other software systems) and desired CMMS software (Calibration/Maintenance Management System), its architecture overview and common validation plans to satisfy corporate quality and IT organizations in order to maximize compliance and efficiency in the metrology department

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Qonitah, H. „Asset Tagging and Line Number Automation: A Cloud-Based Application System Used for Identification and Registering of Tag and Line Numbers of Equipment, Components, Device, and Valves“. In Indonesian Petroleum Association - 46th Annual Convention & Exhibition 2022. Indonesian Petroleum Association, 2022. http://dx.doi.org/10.29118/ipa22-f-13.

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All equipment in a facility, plant or pipeline system shall be identified with unique labels and tag numbers in a consistent manner. EMCL has used a Computerized Maintenance Management System (CMMS) to locate information, track repair histories, develop historical cost indices, and other predefined requirements. This software is intended for managing maintainable items starting from planning, purchasing, and maintaining until reporting. However, for non-maintainable & new items, it is difficult to track using CMMS. This paper will explain how EMCL builds a cloud-based application to register tag and line numbers of equipment, components, devices, and valves in order to comply with the company's guidelines requirements and simplify the process by implementing the guidelines’ algorithm so that no manual validation is required. The metadata of the application is enriched which enables the tag number and line number connected to each other so that users can easily find what pipes or devices are connected before and after the specific equipment. In addition, each tag or line number has detailed information including a hyperlink to the referenced documents i.e. P&ID and Data Sheets as well as the status of the Critical and Equipment Strategy. Besides the technical aspects, this paper will also highlight the importance of having an automation system for identification and registering of tag and line numbers for equipment, component, device, and valves for maintainable or non-maintainable items. Finally, the paper will conclude with the benefits of the system due to the cost efficiency, productivity, and collaboration enhancement among the cross-functional team.

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Shacham, Danny. „New Laser Technology in Turbine Blade Measurements“. In ASME 2008 9th Biennial Conference on Engineering Systems Design and Analysis. ASMEDC, 2008. http://dx.doi.org/10.1115/esda2008-59598.

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Mechanical touch probes on CMMs (Coordinate Measuring Machines) are the most common sensors used for blade inspection. Most Blade Measurements today are based on a mechanical probe. The amount of useful data that can be collected using the mechanical touch probe is limited. Since blades are characterized by complicated free form 3D geometry shapes, the traditional solution of touch trigger probes on a CMM is very limited both in hardware as well as in measurement software. One of the major challenges of blade measurement is the “blade alignment” — finding the blade position relative to the CMM and moving the coordinate system from the CMM to the blade. It is a tricky trail and error approach, unless one is using very high precision (and very expensive) mechanical jigs. The recent trend from the touch trigger probe to a mechanical (Analog) scanning probe is a step in the right direction, in terms of data collection rate; however it is still limited by some major fundamental characteristics of the mechanical analog sensor: a. A mechanical probe needs to maintain continuous contact with the surface and thus is limited in its scanning speed. b. By nature, the dynamic range of a mechanical probe is only a few hundred microns, which makes the scanning pattern, the alignment routine and the programming of the scan path more complicated. c. Programming a mechanical probe for a cross-section scanning operation requires operator skill and experience. d. The resolution and size of the features that can be scanned are limited by the diameter of the stylus, so features such as leading and trailing edges are not good candidates for any mechanical or analog probe measurements.

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dos Santos, Rodrigo Pinheiro, Kathia Marçal de Oliveira und Wander Pereira da Silva. „Percepção dos Clientes sobre a Qualidade do Serviço de Provedores Formalmente Avaliados nos Modelos CMM®/CMMI®“. In Simpósio Brasileiro de Qualidade de Software. Sociedade Brasileira de Computação - SBC, 2007. http://dx.doi.org/10.5753/sbqs.2007.15577.

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Recentemente muitas empresas decidiram pela adoção de modelos como o CMMI® e MPS.BR para garantir qualidade de seus processos de software. No entanto, quão satisfeitos estão os clientes dessas empresas? Qual a percepção sobre a qualidade do serviço realizado por esses provedores? O presente trabalho investiga a percepção da qualidade dos serviços providos, por empresas formalmente avaliadas nos modelos CMM®/CMMI®. Para isso foi utilizado um instrumento baseado em um modelo de avaliação da qualidade de serviço largamente empregado (o SERVQUAL). Os resultados mostram um desalinhamento negativo entre as expectativas dos clientes e a sua percepção em relação aos serviços prestados.

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Berichte der Organisationen zum Thema "Cmms software"

Linger, Richard C., Mark C. Paulk und Carmen J. Trammell. Cleanroom Software Engineering Implementation of the Capability Maturity Model (CMMsm) for Software. Fort Belvoir, VA: Defense Technical Information Center, Dezember 1996. http://dx.doi.org/10.21236/ada320485.

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Bocci, Andrea, W. David Dagenhart, Vincenzo Innocente, Christopher D. Jones, Matti J. Kortelainen, Felice Pantaleo und Marco Rovere. Bringing heterogeneity to the CMS software framework. Office of Scientific and Technical Information (OSTI), Oktober 2019. http://dx.doi.org/10.2172/1623357.

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Bocci, A., W. David Dagenhart, Vincenzo Innocente, Christopher D. Jones, Matti J. Kortelainen, Felice Pantaleo und Marco Rovere. Bringing heterogeneity to the CMS software framework. Office of Scientific and Technical Information (OSTI), Oktober 2019. http://dx.doi.org/10.2172/1630717.

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Straut, Christine. CMS Software: Installation Guide and User Manual. Office of Scientific and Technical Information (OSTI), Dezember 2016. http://dx.doi.org/10.2172/1337767.

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Cummins, J. L. CMM functional software evaluation (algorithm qualification). Final report. Office of Scientific and Technical Information (OSTI), Januar 1995. http://dx.doi.org/10.2172/10115647.

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Jones, Lawrence G., und Albert L. Soule. Software Process Improvement and Product Line Practice: CMMI and the Framework for Software Product Line Practice. Fort Belvoir, VA: Defense Technical Information Center, Juli 2002. http://dx.doi.org/10.21236/ada403868.

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Cooper, Jack, und Matthew Fisher. Software Acquisition Capability Maturity Model (SA-CMM) Version 1.03. Fort Belvoir, VA: Defense Technical Information Center, März 2002. http://dx.doi.org/10.21236/ada399794.

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Gash, J. D., F. L. Greitzer, L. D. Hatfield, M. H. Portwood und C. R. Turney. CMS Distribution Subsystem User`s Guide. Software: Version 1.2. Office of Scientific and Technical Information (OSTI), Oktober 1993. http://dx.doi.org/10.2172/10104764.

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Didier, B. T., J. D. Gash, F. L. Greitzer, S. L. Havre, J. V. Ramsdell und C. R. Turney. CMS Preprocessing Subsystem user`s guide. Software version 1.2. Office of Scientific and Technical Information (OSTI), Oktober 1993. http://dx.doi.org/10.2172/10191509.

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Cooper, Jack, Matthew Fisher und S. W. Sherer. Software Acquisition Capability Maturity Model (SA-CMM) Version 1.02. Fort Belvoir, VA: Defense Technical Information Center, April 1999. http://dx.doi.org/10.21236/ada362667.

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