الصفحة 2
الصفحة 2
Effective entrepreneurial management : Strategy, planning, risk management, and organization
Provides a comprehensive overview of the essential issues in effective entrepreneurial management. It first introduces readers to the fundamentals of entrepreneurial management, the nature of entrepreneurial managers and business planning, before exploring the specific topics of creativity and innovation, risk management, entrepreneurial marketing and organization as well as financing. The authors then move to contemporary topics such as entrepreneurial growth strategies, e-commerce challenges, ethical and socially responsible entrepreneurial management, franchising, and managing entrepreneurial family ventures.
Eco-design of buildings and infrastructure : developments in the period 2016–2020
Reviews the second five-year sequence of the Chair, first presenting methodological advances in eco-design: life cycle assessment and quantification of uncertainties; local environmental impacts of transport and biodiversity. The interdisciplinary partnership, also associating the human sciences, shows its interest in taking into account the human factor in the modelling of urban systems. This modelling is based on several numerical simulation tools, presented in the third part.
Dynamic Inventory Management in Reverse Logistics
The integration of product recovery into regular production processes enables new opportunities for cost savings. In case of a dynamic planning situation, for instance when dealing with seasonality or the product life cycle, new motives for keeping stock arise.
Drug and Biological Development : From Molecule to Product and Beyond
Drug and Biological Development: From Molecule to Product and Beyond offers a complete discussion of product development in the pharmaceutical and biotechnology industries from discovery to product launch, continuing through life cycle management. The book is organized for optimal usefulness in the education and training of health care professionals. The text's narrative descriptions are enhanced by real-life examples, illustrations, controversies in industry, and references. Dr. Ronald Evens and his contributors are industry and research experts in a variety of disciplines.
Digital Enterprise Technology : Perspectives and Future Challenges
Digital engineering methods and systems are vitally important for performing key technical and business functions of global enterprises in a distributed and collaborative manner. The product design and engineering systems are gradually being developed to include a variety of tools for DfX, as well as incorporate aspects of digital manufacturing.The chapters presented in this book are contributed by world class leaders in the field. This volume includes relevant examples of current state-of-art in the development and use of systems and methods for the digital modelling of global development and realization processes in the context of life cycle management.
Dictyostelium discoideum : Methods and protocols
Discusses the latest advancements and techniques used to study Dictyostelium discoideum. The chapters in this book cover topics such as cytokinesis, membrane function and damage, and nutrient/bacterial processing; autophagy activation and function; protein localization, interaction, and activation; cell migration and contact guidance for quantification of cytoskeletal dynamics; and global mutational screening, transcriptome analyses, and proteomics that apply to all stages of the Dictyostelium life cycle and that may generalize to human disease models. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.
Designing Sustainable Technologies, Products and Policies : From Science to Innovation
This open access book provides insight into the implementation of Life Cycle approaches along the entire business value chain, supporting environmental, social and economic sustainability related to the development of industrial technologies, products, services and policies; and the development and management of smart agricultural systems, smart mobility systems, urban infrastructures and energy for the built environment. The book is based on papers presented at the 8th International Life Cycle Management Conference that took place from September 3-6, 2017 in Luxembourg, and which was organized by the Luxembourg Institute of Science and Technology (LIST) and the University of Luxembourg in the framework of the LCM Conference Series.
Design for Environmental Sustainability
Design for Environmental Sustainability is a technical and operative contribution to the United Nations "Decade on Education for Sustainable Development" (2005-2014), aiding the development of a new generation of designers, responsible and able in the task of designing environmentally sustainable products.
Cost-Efficient Design
This is the first English edition of an established work on cost-driven product design and development. It offers tried and tested methods for understanding, influencing and reducing product costs. The methodology and organization of cost management, as well as the effects on each type of cost are described. Using this knowledge the product developer can assume responsibility for costs. The numerous examples and detailed derivation of results provide the practical user with problem solutions and hints. Methods such as Target Costing and Simultaneous Engineering are discribed. Thus the book will also help the specialist who does not have the overview of the complex interrelationships in the enterprise. The work is also suited for students, as well as for practicing engineers.
Computer-Aided Design of User Interfaces V ; Proceedings of the 6th International Conference on Computer-Aided Design of User Interfaces CADUI '06 (6-8 June 2006, Bucharest, Romania)
Today, the development life cycle of 3D User Interfaces (UIs) mostly remains an art more than a principled-based approach. Several methods [1,3,7,8,9,10,11,15,17,18,19] have been introduced to decompose this life cycle into steps and sub-steps, but these methods rarely provide the design knowledge that should be typically used for achieving each step. In addition, the development life cycle is more focusing directly on the programming - sues than on the design and analysis phases. This is sometimes reinforced by the fact that available tools for 3D UIs are toolkits, interface builders, r- dering engines, etc. When there is such a development life cycle defined, it is typically structured into the following set of activities: 1. The conceptual phase is characterized by the identification of the content and interaction requests. The meta-author discusses with the interface designer to take advantage of the current interaction technology. The int- face designer receives information about the content. The result of this phase is the production of UI schemes (e. g. , written sentences, visual schemes on paper) for defining classes of interactive experiences (e. g. , class Guided tour). Conceptual schemes are produced both for the final users and the authors. The meta-author has a deep knowledge of the c- tent domain and didactic skills too. He/she communicates with the final user too, in order to focus on didactic aspects of interaction. 2.
Computer Supported Cooperative Work in Design III ; 10th International Conference, CSCWD 2006, Nanjing, China, May 3-5, 2006, Revised Selected Papers
The design of complex artifacts and systems requires the cooperation of multidiscip- nary design teams using multiple commercial and proprietary engineering software tools (e.g., CAD, modeling, simulation, visualization, and optimization), engineering databases, and knowledge-based systems. Individuals or individual groups of mult- isciplinary design teams usually work in parallel and separately with various en- neering software tools which are located at different sites. In addition, individual members may be working on different versions of a design or viewing the design from different perspectives, at different levels of detail. In order to accomplish the work, it is necessary to have effective and efficient c- laborative design environments. Such environments should not only automate in- vidual tasks, in the manner of traditional computer-aided engineering tools, but also enable individual members to share information, collaborate, and coordinate their activities within the context of a design project. CSCW (computer-supported coope- tive work) in design is concerned with the development of such environments.
Collaborative Product and Service Life Cycle Management for a Sustainable World ; Proceedings of the 15th ISPE International Conference on Concurrent Engineering (CE2008)
Collaborative Product and Service Life Cycle Management for a Sustainable World gathers together papers from the 15th ISPE International Conference on Concurrent Engineering (CE2008), to stimulate the new thinking that is so crucial to our sustained productivity enhancement and quality of life.
Collaborative Engineering: Theory and Practice
Collaborative Engineering: Theory and Practice offers insights into the methods and techniques involved in implementing a systematic approach to the integrated, concurrent design of products and related processes, including manufacturing, product service and support. The approach discussed here will help developers consider all elements of the product life cycle from conception through disposal, including quality, cost, schedule, and user requirements.
Managing product life cycle in a supply Chain Context : A prescription based on empirical research
The aim of this book is to provide a better understanding with as to how to coordinate and improve decisions about product life cycle, process and supply chain design to improve new product development.
Managing logistics systems : Planning and analysis for a successful supply chain
Introduces logistics from a broad perspective to include all activities throughout the product and service life cycle pertaining to supply chain and logistics management, the physical supply and distribution of products, and the corresponding maintenance and support. It recognizes the mutual interdependence of the major functional areas of the organization including marketing, production, and finance. The emphasis throughout the text is on logistics in the context of a total business system design process. It views the business as a "system", managing logistics within that system, and thus transforming their Supply Chain. Pedagogy to aid learning is incorporated throughout every chapter, with chapter objectives, case studies, and concept checks. This text is intended for both upper-level undergraduate and lower-level graduate students in both Business and Engineering on logistics and supply chain tracks. It can also serve as a reference for practitioners actively engaged in day-to-day management of logistics and supply chain activities.
Managing Dynamic Networks : Organizational Perspectives of Technology Enabled Inter-firm Collaboration
Collaboration of organizations reshapes traditional managerial practices and creates new inter-organizational contexts for strategy, coordination and control, information and knowledge management. Heralded as organizational forms of the future, networks are at the same time fragile and precarious organizational arrangements, which regularly fail. In order to investigate the new realities created by technology-enabled forms of network organizations and to address the emerging managerial challenges, this book introduces an integrative view on inter-firm network management. Centred on a network life cycle perspective, strategic, economic and relational facets of business networking are explored.
Life Cycle Management
This book provides insight into the Life Cycle Management (LCM) concept and the progress in its implementation. LCM is a management concept applied in industrial and service sectors to improve products and services, while enhancing the overall sustainability performance of business and its value chains. In this regard, LCM is an opportunity to differentiate through sustainability performance on the market place, working with all departments of a company such as research and development, procurement and marketing, and to enhance the collaboration with stakeholders along a company’s value chain. LCM is used beyond short-term business success and aims at long-term achievements by minimizing environmental and socio-economic burden, while maximizing economic and social value.
Life Cycle Investing and Occupational Old-Age Provision in Switzerland
Florian Zainhofer uses the theory of life cycle investing, i.e. how we should optimally choose our savings rate and risky asset share throughout our lives, as a framework to study the implications of a potential BVG individualization. Following an introduction on the Swiss system of old-age provision, the author reviews recent life cycle models of portfolio choice and covers their numerical solution algorithms in depth. He presents an empirical analysis of Swiss workers’ earnings dynamics since these are important determinants of life cycle investment behavior. To further investigate the implications of a flexible contribution rate and risky asset share in the mandatory BVG, the author proposes a model adapted to Swiss conditions and parameterized with the estimated earnings dynamics.
Composite Systems Decisions
Composite decisions consist of interconnected parts or subdecisions and correspond to a composite (composable, modular, decomposable) system. Composite Systems Decisions describes an educational approach that is based on systems engineering and considered modular design of composite decisions. Divided into four parts, this book contains descriptions of basic systems approaches and examines basic ‘technological’ problems for composite systems, including: modular hierarchical design; multistage design; multistage planning; redesign/improvement/adaptation; evaluation; and, combinatorial evolution/development.
Complex systems concurrent engineering : Collaboration, technology innovation and sustainability
Concurrent engineering is well-established as an approach to engineer product parts. However, the concept has much broader application. Complex Systems Concurrent Engineering: Collaboration, Technology Innovation and Sustainability demonstrates how concurrent engineering can be used to benefit the development of complex systems, to produce results that sustain balanced stakeholder satisfaction over time. Gathered from the 14th ISPE International Conference on Concurrent Engineering, the collected papers cover all aspects of the sustainable and integrated development of complex systems, such as airplanes, satellites, space vehicles, automobiles and ships.
