911 resultados para agile project management method
Resumo:
For executing the activities of a project, one or several resources are required, which are in general scarce. Many resource-allocation methods assume that the usage of these resources by an activity is constant during execution; in practice, however, the project manager may vary resource usage by individual activities over time within prescribed bounds. This variation gives rise to the project scheduling problem which consists in allocating the scarce resources to the project activities over time such that the project duration is minimized, the total number of resource units allocated equals the prescribed work content of each activity, and precedence and various work-content-related constraints are met.
Resumo:
Experiences relating to the InternationalMasters in Rural Development from the Technical University of Madrid (Universidad Politécnica de Madrid, UPM), the first Spanish programme to receive a mention as a Registered Education Programme by InternationalProject Management Association (IPMA) are considered. Backed by an educational strategy based on Project-Based Learning dating back twenty years, this programme has managed to adapt to the competence evaluation requirements proposed by the European Space for Higher Education (ESHE). In order to do this the training is linked to the professional qualification using competences as a reference leading to the qualification in project management as established by the IPMA.
Resumo:
La crisis afecta a todos los sectores, es un terremoto en cadena que se inicio en el sector inmobiliario y se ha ido introduciendo en el resto. Todo esto ha dado lugar a una caída brusca de la demanda de los servicios relacionados con la construcción, con un posicionamiento en “espera” de los Promotores e Inversores, que aún tienen liquidez para invertir, buscando oportunidades que lógicamente se tienen que producir en un entorno escasamente fiable como el actual. Aquellos Inversores que vean oportunidades, se aseguraran de que los productos que van a realizar, tengan una demanda suficiente, sus costes estén en consonancia con el mercado, pero sin que aquello perjudique al resultado final, es decir manteniendo la calidad propuesta al inicio del proceso con los costes previstos, dando lugar a un control exhaustivo del producto a realizar, lo cual obligará a una gran profesionalidad por parte de los agentes implicados. Para todo esto habrá que contar con Empresas especializadas, que aporten garantías en este proceso y aseguren tanto al promotor como al Inversor en todo momento donde y en que se invierten sus recursos. La Dirección Integrada de Proyecto (“Project Management “) aplicada al proceso constructivo es una Técnica Metodológica que ayuda a organizar, controlar y gestionar los recursos de los promotores dentro del proceso edificatorio. Cuando los recursos están limitados (que normalmente es la mayoría de las situaciones) gestionarlos de una manera eficiente se convierte en algo muy importante. Bien, pues nos encontramos con que en esta situación actual, los recursos no solo están limitados, si no que son limitados, por lo que un control y un exhaustivo seguimiento de los mismos se convierte no solo en importante si no en fundamental.
Resumo:
In the year 1999 approves the Law of Construction Building (LOE, in Spanish) to regulate a sector such as construction, which contained some shortcomings from the legal point of view. Currently, the LOE has been in force 12 years, changing the spanish world of the construction, due to influenced by internationalization. Within the LOE, there regulating the different actors involved in the construction building, as the Projects design, the Director of Construction, the developer, The builder, Director of execution of the construction (actor only in Spain, similar as construcion engineer and abroad in), control entities and the users, but lacks figure Project manager will assume the delegation of the promoter helping and you organize, direct and management the process. This figure assumes that the market and contracts are not legally regulated in Spain, then should define and establish its regulation in the LOE. (Spain Construction Law) The translation in spanish of the words "Project Manager is owed to Professor Rafael de Heredia in his book Integrated Project Management, as agent acting on behalf of the organization and promoter assuming control of the project, ie Integraded Project Management . Already exist in Spain, AEDIP (Spanish Association Integrated of Project Construction management) which comprises the major companies in “Project Management” in Spain, and MeDIP (Master in Integrated Construction Project) the largest and most advanced studies at the Polytechnic University of Madrid, in "Construction Project Management" they teach which is also in Argentina. The Integrated Project ("Project Management") applied to the construction process is a methodological technique that helps to organize, control and manage the resources of the promoters in the building process. When resources are limited (which is usually most situations) to manage them efficiently becomes very important. Well, we find that in this situation, the resources are not only limited, but it is limited, so a comprehensive control and monitoring of them becomes not only important if not crucial. The alternative of starting from scratch with a team that specializes in developing these follow directly intervening to ensure that scarce resources are used in the best possible way requires the use of a specific methodology (Manual DIP, Matrix Foreign EDR breakdown structure EDP Project, Risk Management and Control, Design Management, et ..), that is the methodology used by "Projects managers" to ensure that the initial objectives of the promoters or investors are met and all actors in process, from design to construction company have the mind aim of the project will do, trying to get their interests do not prevail over the interests of the project. Among the agents listed in the building process, "Project Management" or DIPE (Director Comprehensive building process, a proposed name for possible incorporation into the LOE, ) currently not listed as such in the LOE (Act on Construction Planning ), one of the agents that exist within the building process is not regulated from the legal point of view, no obligations, ie, as is required by law to have a project, a builder, a construction management, etc. DIPE only one who wants to hire you as have been advanced knowledge of their services by the clients they have been hiring these agents, there being no legal obligation as mentioned above, then the market is dictating its ruling on this new figure, as if it were necessary, he was not hired and eventually disappeared from the building process. As the aim of this article is regular the process and implement the name of DIPE in the Spanish Law of buildings construction (LOE)
Resumo:
Nowadays, it has become evident the need to seek sustainable development models that address challenges arising in a variety of contexts. The resilience concept appears connected to the ability of people to cope with adversities that inevitably arise due to context dynamics, at different spatial and temporal scales. This concept is related to the model known as Working With People (WWP), focused on rural development projects planning, management and evaluation, from the integration of three dimensions: technical-entrepreneurial, ethical-social and political-contextual. The research reported is part of the RETHINK European Project, whose overall aim is farm modernization and rural resilience. The resilience concept has been analyzed, in the scope of rural development projects management, and a relationship with the WWP model has been established. To this end, a thorough review of the scientific literature concerning this topic has been addressed, in order to develop the state of the art of the different concepts and models involved. A conceptual proposal for the integration of resilience in rural development projects sustainable management, through the three-dimensional WWP model is presented.
Communication Project for development: 25 years of experience in andean rural communities in Ecuador
Resumo:
IThis paper analyses communication for development from a new perspective: the project in its broader and most genuine sense, as an instrument for changing current reality. This is examined from both its theoretical and practical implementation side. Knowledge/action binomial as a two-way relationship is one of the basis of the project cycle. It allows for better knowing the reality that the project itself (what constitutes the action) is intended to improve. Besides that, this knowledge/action binomial also offers new knowledge that nourishes future actions (projects). From a project based communication perspective, the project nourishes the knowledge, which leads to a transformative action. Reflecting about the action is a new knowledge source whose adoption by the community is eased by the communication process. Radio Mensaje project among the indigenous Andean communities in Cayambe (Ecuador) was born and also developed within this approach, supporting the collaborative participation in project management. This leads to the development process which is described in this case study.
Resumo:
In Chile, during the last three decades there has been a strong decentralization process whose main objective has been to improve the management of schools through the transfer of responsibilities and resources of education and thus improve the outcome of learning, reducing equity gaps between schools and territories. This is how, there has been an evolution of school principals¿ professional profile from an administrative to a management approach, in which principals have become project managers of educational projects. From a competence model for school leaders, based on IPMA guidelines, the present article presents an analysis of best practices for school management, allowing to generate a link between competencies and school management, from the perspective of project management. Results showed that the different competence elements, have relative weights according to the different practice fields, and that this analysis can be considered as a strategic element in educational project planning and development.
Resumo:
In Chile, during the last three decades there has been a strong decentralization process whose main objective has been to improve the management of schools through the transfer of responsibilities and resources of education and thus improve the outcome of learning, reducing equity gaps between schools and territories. This is how, there has been an evolution of school principals¿ professional profile from an administrative to a management approach, in which principals have become project managers of educational projects. From a competence model for school leaders, based on IPMA guidelines, the present article presents an analysis of best practices for school management, allowing to generate a link between competencies and school management, from the perspective of project management. Results showed that the different competence elements, have relative weights according to the different practice fields, and that this analysis can be considered as a strategic element in educational project planning and development.
Resumo:
Hoy en día, existen numerosos sistemas (financieros, fabricación industrial, infraestructura de servicios básicos, etc.) que son dependientes del software. Según la definición de Ingeniería del Software realizada por I. Sommerville, “la Ingeniería del Software es una disciplina de la ingeniería que comprende todos los aspectos de la producción de software desde las etapas iniciales de la especificación del sistema, hasta el mantenimiento de éste después de que se utiliza.” “La ingeniería del software no sólo comprende los procesos técnicos del desarrollo de software, sino también actividades tales como la gestión de proyectos de software y el desarrollo de herramientas, métodos y teorías de apoyo a la producción de software.” Los modelos de proceso de desarrollo software determinan una serie de pautas para poder desarrollar con éxito un proyecto de desarrollo software. Desde que surgieran estos modelos de proceso, se investigado en nuevas maneras de poder gestionar un proyecto y producir software de calidad. En primer lugar surgieron las metodologías pesadas o tradicionales, pero con el avance del tiempo y la tecnología, surgieron unas nuevas llamadas metodologías ágiles. En el marco de las metodologías ágiles cabe destacar una determinada práctica, la integración continua. Esta práctica surgió de la mano de Martin Fowler, con el objetivo de facilitar el trabajo en grupo y automatizar las tareas de integración. La integración continua se basa en la construcción automática de proyectos con una frecuencia alta, promoviendo la detección de errores en un momento temprano para poder dar prioridad a corregir dichos errores. Sin embargo, una de las claves del éxito en el desarrollo de cualquier proyecto software consiste en utilizar un entorno de trabajo que facilite, sistematice y ayude a aplicar un proceso de desarrollo de una forma eficiente. Este Proyecto Fin de Grado (PFG) tiene por objetivo el análisis de distintas herramientas para configurar un entorno de trabajo que permita desarrollar proyectos aplicando metodologías ágiles e integración continua de una forma fácil y eficiente. Una vez analizadas dichas herramientas, se ha propuesto y configurado un entorno de trabajo para su puesta en marcha y uso. Una característica a destacar de este PFG es que las herramientas analizadas comparten una cualidad común y de alto valor, son herramientas open-source. El entorno de trabajo propuesto en este PFG presenta una arquitectura cliente-servidor, dado que la mayoría de proyectos software se desarrollan en equipo, de tal forma que el servidor proporciona a los distintos clientes/desarrolladores acceso al conjunto de herramientas que constituyen el entorno de trabajo. La parte servidora del entorno propuesto proporciona soporte a la integración continua mediante herramientas de control de versiones, de gestión de historias de usuario, de análisis de métricas de software, y de automatización de la construcción de software. La configuración del cliente únicamente requiere de un entorno de desarrollo integrado (IDE) que soporte el lenguaje de programación Java y conexión con el servidor. ABSTRACT Nowadays, numerous systems (financial, industrial production, basic services infrastructure, etc.) depend on software. According to the Software Engineering definition made by I.Sommerville, “Software engineering is an engineering discipline that is concerned with all aspects of software production from the early stages of system specification through to maintaining the system after it has gone into use.” “Software engineering is not just concerned with the technical processes of software development. It also includes activities such as software project management and the development of tools, methods, and theories to support software production.” Software development process models determine a set of guidelines to successfully develop a software development project. Since these process models emerged, new ways of managing a project and producing software with quality have been investigated. First, the so-called heavy or traditional methodologies appeared, but with the time and the technological improvements, new methodologies emerged: the so-called agile methodologies. Agile methodologies promote, among other practices, continuous integration. This practice was coined by Martin Fowler and aims to make teamwork easier as well as automate integration tasks. Nevertheless, one of the keys to success in software projects is to use a framework that facilitates, systematize, and help to deploy a development process in an efficient way. This Final Degree Project (FDP) aims to analyze different tools to configure a framework that enables to develop projects by applying agile methodologies and continuous integration in an easy and efficient way. Once tools are analyzed, a framework has been proposed and configured. One of the main features of this FDP is that the tools under analysis share a common and high-valued characteristic: they are open-source. The proposed framework presents a client-server architecture, as most of the projects are developed by a team. In this way, the server provides access the clients/developers to the tools that comprise the framework. The server provides continuous integration through a set of tools for control management, user stories management, software quality management, and software construction automatization. The client configuration only requires a Java integrated development environment and network connection to the server.
Resumo:
Este proyecto ha sido estructurado en tres bloques diferenciados que tiene como objetivo analizar el presente, pasado y futuro de la gestión de proyectos con una orientación clara a ofrecer apoyo a aquellas empresas que planeen realizar un giro en sus estructura de organización de trabajo hacia filosofías ágiles. La gestión de proyectos a acompañado al hombre desde el inicio de los tiempos, pero sin embargo no fue hasta nuestra historia más cercana cuando se comienza a tener conciencia de la necesidad de establecer aplicar métodos generales a la hora de afrontar proyectos de ingeniería. Pioneros fueron en este sentido personajes como Taylor, Fayol o Gantt, cuyas aportaciones iniciales posibilitaron el nacimiento de la gestión de proyectos a mediados del siglo XX. En las década sucesivas hasta nuestros días han aparecido un número considerable de metodologías, perfeccionando elementos anteriormente asimilados y adaptándose a la realidad tecnológica y social del momento. Este recorrido histórico se aborda en el primer bloque de este proyecto. Los puntos revisados en la introducción histórica proporcionan las bases de conocimiento para entender las principales características entre las grandes familias de metodologías que actualmente son implantadas en el mundo empresarial. Es precisamente este punto, el de la exposición y análisis de las metodologías más extendidas y contemporáneas a la elaboración de este proyecto, lo que se aborda en el segundo bloque. En él se desarrolla con intenso detalle dos metodologías de la familia de filosofías ágiles, elegidas entre las más extendidas en la industria: Scrum, eXtreme Programming (XP) y un híbrido de ambas. Para entender la dimensión del cambio filosófico en cuanto a la gestión de proyectos que emprenden estas metodologías, se hace necesario repasar cuales son las metodologías no ágiles más extendidas actualmente. Para ello se introducen metodologías como la llamada tradicional o PRINCE2, principalmente, ya que también se realiza un repaso más superficial por otras aproximaciones notables. El último bloque que construye el desenlace del proyecto, intenta responder a las cuestiones futuras relacionadas con la adopción de metodologías ágiles. Para ello se revisa los puntos más conflictivos a señalar en este proceso y se ofrecerán soluciones teóricas y prácticas para ayudar a las empresas en su fase de migración hacia filosofías de organización ágiles. Ya que toda empresa hoy en día debería tener un soporte tecnológico que ofrezca apoyo a su desarrollo empresarial, gran parte de la elaboración de este proyecto se ha dedicado a hacer un estudio comparativo de las actuales herramientas Open Source. Se han instalado y probado 25 herramientas para posteriormente seleccionar 3 que han sido analizadas en profundidad. Así mismo, se enumeran pros y contras de estas herramientas, aportando ideas de mejoras y trazando cuál debería ser su evolución para ofrecer una alternativa real a las herramientas comerciales orientadas a esta labor. Las empresas pueden utilizar este índice de herramientas de software para decidir si pueden sustentar su proceso de migración en una herramienta Open Source o si deben orientarse a herramientas comerciales o de creación propias. ABSTRACT. This project has been divided into three different blocks that aims to analyze the past, present and future of project management with a clear focus on providing support to those companies that are planning to make a shift in its organizational structure working towards agile philosophies . The project management has walked together with the humanity since the beginning of time , but it was on our recent history when it begins to become aware of the need to establish general methods to apply to engineering projects. There was pioneers like Taylor , Fayol or Gantt, whose contributions made possible the birth of project management in the mid- twentieth century. In the following decades, there was a considerable number of new methodologies, improving concepts and adapting then to the technological and social reality of the moment . This historical journey is addressed in the first block of this project. The different facts reviewed at the first block provide the knowledge to understand the key features among the most important families of methodologies that nowadays are implemented in the business world. It is precisely this point, the presentation and analysis of the most widespread methodologies what is addressed in the second block. Two of the most widespread agile methodologies are detailed: Scrum , eXtreme Programming ( XP ) and a hybrid of both . In order to understand the philosophical shift in terms of project management performed by these methodologies , it is necessary to review what are the most widespread no agile methodologies currently. For this purpose, methodologies like Waterfall or PRINCE2 are explained. Other no agile methodologies are explained as well, but not so deeply in comparison with them. The last section of this project is the conclusion, it tries to answer future questions related to the adoption of agile methodologies. For that reason, the most important milestones are reviewed to provide theoretical and practical solutions and answers to help companies in this migration process toward agile methodologies. Since every company should has a solid technical support for its business development, a considerably part of the time has been applied to make a comparative study of the existing Open Source tools. 25 tools have been installed and tested. Then, 3 tools has been selected to be analyzed deeply. Also, pros and cons of these tools have been exposed in order to suggest a roadmap to offer a real alternative to the existing commercial tools in this business area. The companies that are involved in a migration progress toward a agile methodology can used this study about the available Open Source tools to decide if they can afford the migration process based on one of them or if they should use a commercial tool or a tailor-made software.
Resumo:
Sob as condições presentes de competitividade global, rápido avanço tecnológico e escassez de recursos, a inovação tornou-se uma das abordagens estratégicas mais importantes que uma organização pode explorar. Nesse contexto, a capacidade de inovação da empresa enquanto capacidade de engajar-se na introdução de novos processos, produtos ou ideias na empresa, é reconhecida como uma das principais fontes de crescimento sustentável, efetividade e até mesmo sobrevivência para as organizações. No entanto, apenas algumas empresas compreenderam na prática o que é necessário para inovar com sucesso e a maioria enxerga a inovação como um grande desafio. A realidade não é diferente no caso das empresas brasileiras e em particular das Pequenas e Médias Empresas (PMEs). Estudos indicam que o grupo das PMEs particularmente demonstra em geral um déficit ainda maior na capacidade de inovação. Em resposta ao desafio de inovar, uma ampla literatura emergiu sobre vários aspectos da inovação. Porém, ainda considere-se que há poucos resultados conclusivos ou modelos compreensíveis na pesquisa sobre inovação haja vista a complexidade do tema que trata de um fenômeno multifacetado impulsionado por inúmeros fatores. Além disso, identifica-se um hiato entre o que é conhecido pela literatura geral sobre inovação e a literatura sobre inovação nas PMEs. Tendo em vista a relevância da capacidade de inovação e o lento avanço do seu entendimento no contexto das empresas de pequeno e médio porte cujas dificuldades para inovar ainda podem ser observadas, o presente estudo se propôs identificar os determinantes da capacidade de inovação das PMEs a fim de construir um modelo de alta capacidade de inovação para esse grupo de empresas. O objetivo estabelecido foi abordado por meio de método quantitativo o qual envolveu a aplicação da análise de regressão logística binária para analisar, sob a perspectiva das PMEs, os 15 determinantes da capacidade de inovação identificados na revisão da literatura. Para adotar a técnica de análise de regressão logística, foi realizada a transformação da variável dependente categórica em binária, sendo grupo 0 denominado capacidade de inovação sem destaque e grupo 1 definido como capacidade de inovação alta. Em seguida procedeu-se com a divisão da amostra total em duas subamostras sendo uma para análise contendo 60% das empresas e a outra para validação (holdout) com os 40% dos casos restantes. A adequação geral do modelo foi avaliada por meio das medidas pseudo R2 (McFadden), chi-quadrado (Hosmer e Lemeshow) e da taxa de sucesso (matriz de classificação). Feita essa avaliação e confirmada a adequação do fit geral do modelo, foram analisados os coeficientes das variáveis incluídas no modelo final quanto ao nível de significância, direção e magnitude. Por fim, prosseguiu-se com a validação do modelo logístico final por meio da análise da taxa de sucesso da amostra de validação. Por meio da técnica de análise de regressão logística, verificou-se que 4 variáveis apresentaram correlação positiva e significativa com a capacidade de inovação das PMEs e que, portanto diferenciam as empresas com capacidade de inovação alta das empresas com capacidade de inovação sem destaque. Com base nessa descoberta, foi criado o modelo final de alta capacidade de inovação para as PMEs composto pelos 4 determinantes: base de conhecimento externo (externo), capacidade de gestão de projetos (interno), base de conhecimento interno (interno) e estratégia (interno).
Resumo:
L’obiettivo della tesi è quello di fare una panoramica sulla strategia BIM e quindi sulla digitalizzazione del processo costruttivo. Grazie alla analisi di un caso di studio, altro obiettivo è quello di analizzare e valutare la metodologia BIM 4D/5D, ossia la gestione dei tempi e dei costi di realizzazione dell’opera. Nella prima fase si affronta il tema del BIM, con una analisi sull’evoluzione degli strumenti di elaborazione e rappresentazione digitale del progetto architettonico, su come questi strumenti si differenzino sia dal punto di vista operativo che concettuale rivoluzionando il flusso di lavoro odierno. Quindi, partendo da un’analisi che e ritrae l’estrema frammentazione del settore delle costruzioni, si va ad analizzare come il BIM aumenti e favorisca la collaborazione delle parti interessate, armonizzando l’intero processo costruttivo dell’opera. Si prosegue con l'esame della diffusione e del livello di maturità degli strumenti BIM, di come i privati e le amministrazioni pubbliche, a livello mondiale, stiano spingendo per favorire l’adozione della metodologia BIM. Inoltre si analizzano le dinamiche dell’interoperabilità, delle metodologie e protocolli di interscambio dati, che sono un elemento chiave per il successo del BIM per via dei numerosi strumenti, specializzati nelle varie discipline del settore edile. Nella terza parte, dedicata al Project Management di un caso di studio, si verifica la bontà delle metodologie teorizzate attraverso la realizzazione di un modello virtuale in Revit. Dal modello realizzato dal laureando sono estrapolate le informazioni necessarie alla gestione, e tramite il software STRVison CPM, si elaborano i principali documenti per la progettazione e gestione del cantiere: il CM, il CME, i tempi operativi, il cronoprogramma Gantt. Obbiettivo è constatare l’effettivo livello di maturità della strategia BIM 4D e 5D e la reale possibilità di un impiego capillare nel panorama italiano del settore delle costruzioni.
Resumo:
"IEPA/WPC/82-001".