A front-end system to support cloud-based manufacturing of customised products

In today’s global market, customized products are amongst an important means to address diverse customer demand and in achieving a unique competitive advantage. Key enablers of this approach are existing product configuration and supporting IT-based manufacturing systems. As a proposed advancement, it considered that the development of a front-end system with a next level of integration to a cloud-based manufacturing infrastructure is able to better support the specification and on-demand manufacture of customized products. In this paper, a new paradigm of Manufacturing-as-a-Service (MaaS) environment is introduced and highlights the current research challenges in the configuration of customizable products. Furthermore, the latest development of the front-end system is reported with a view towards further work in the research

Combining configuration and recommendation to enable an interactive guidance of product line configuration

This paper is interested in e-commerce for complex configurable products/systems. E-commerce makes a wide use of recommendation techniques to help customers identify relevant products or services in large collections of offers. One particular way to achieve this is to offer customers a panel of options among which they can select their preferred ones. A trend in the industry is to go a step further, beyond the selection of pre-defined products from a catalogue by handling products customization. The systems engineering community has shown that, based on product line engineering methods, techniques and tools, it is possible to produce customized products efficiently and at low cost. The problem is that there are usually so many products in a PL that it is impossible to specify all of them explicitly, and therefore traditional recommendation techniques cannot be simply applied. This paper proposes an approach that combines two complementary forms of guidance: configuration and recommendation, to help customers define their own products out of a product line specification. The proposed approach, called interactive configuration supports the combination by organizing the configuration process in a series of partial configurations where decisions are made by the recommendation. This paper illustrates this process by applying it to an example with the content based method for recommendation and the a priori configuration approach

Cloud-based manufacturing-as-a-service environment for customized products

This paper describes the paradigm of cloud-based services which are used to envisage a new generation of configurable manufacturing systems. Unlike previous approaches to mass customization (that simply reprogram individual machines to produce specific shapes) the system reported here is intended to enable the customized production of technologically complex products by dynamically configuring a manufacturing supply chain. In order to realize such a system, the resources (i.e. production capabilities) have to be designed to support collaboration throughout the whole production network, including their adaption to customer-specific production. The flexible service composition as well as the appropriate IT services required for its realization show many analogies with common cloud computing approaches. For this reason, this paper describes the motivation and challenges that are related to cloud-based manufacturing and illustrates emerging technologies supporting this vision byestablishing an appropriate Manufacturing-as-a-Service environment based on manufacturing service descriptions

OpenConfigurator - A Practical Approach to Configurator Implementation

Selling customizable products, tailored to customers demands becomes an increasingly important business opportunity in highly competitive, saturated markets. Enterprises pursuing product customization, employ product configurators to support the configuration of customized product variants. Thereby, product configuration systems efficiently facilitate the integration of the customer into the enterprise's value chain and reduce the complexity induced by the manufacturing of customizable products. Since configurators encapsulate the complete product knowledge, including manifold constraints, implementing them technically in a sustainable way, is challenging and complex. The adequate modeling of configurable products is decisive for the system's maintainability. Therefore, the modeling capabilities must support the precise, correct and compact, yet human readable and verifiable definition of configuration knowledge. The researched methodology presented in this work, called OpenConfigurator, implements a framework for realizing custom product configurators. OpenConfigurator defines a conceptual modeling language to describe configurable products as Java classes, annotated with configuration meta-data. The generic API offered by the framework, allows to instantiate the custom, domain-specific product model, while maintaining the configuration's consistency during the specification process. The framework's capabilities are demonstrated by the implementation of a generic mobile configurator application. The methodology shows how modern Java EE technologies including JPA, Bean Validation and CDI are used, to simplify the development of configurators. Leveraging standardized technologies, the introduced approach is easy to learn. Moreover, the resulting configurator incorporates a highly flexible, extensible architecture, that strongly fosters maintainability

Consumer Preferences for Mass Customization

Increasingly, firms allow consumers to mass customize their products. In this study, the authors investigate consumers’ evaluations of different mass customization configurations when asked to mass customize a product. For instance, mass customization configurations may differ in the number of modules that may be mass customized. The authors find – in the context of mass customization of personal computers – that mass customization configuration affects the product utility consumers can achieve in mass customization as well as their perception of mass customization complexity. In turn, product utility and complexity affect the utility consumers derive from using a certain mass customization configuration. More specifically, product utility has a positive, and complexity has a negative effect on mass customization configuration utility. The effect of complexity is direct as well as indirect, because complexity also lowers product utility. The authors also find that consumers with high product expertise find mass customization configurations less complex than consumers with low product expertise and that for more expert consumers complexity has a less negative impact on product utility. The study has important managerial implications for how companies can design their mass customization configuration to increase utility and decrease complexity.marketing ;

Challenges for the comprehensive management of cloud services in a PaaS framework

The 4CaaSt project aims at developing a PaaS framework that enables flexible definition, marketing, deployment and management of Cloud-based services and applications. The major innovations proposed by 4CaaSt are the blueprint and its lifecycle management, a one stop shop for Cloud services and a PaaS level resource management featuring elasticity. 4CaaSt also provides a portfolio of ready to use Cloud native services and Cloud-aware immigrant technologies

Analysis of Feature Models Using Alloy: A Survey

Feature Models (FMs) are a mechanism to model variability among a family of closely related software products, i.e. a software product line (SPL). Analysis of FMs using formal methods can reveal defects in the specification such as inconsistencies that cause the product line to have no valid products. A popular framework used in research for FM analysis is Alloy, a light-weight formal modeling notation equipped with an efficient model finder. Several works in the literature have proposed different strategies to encode and analyze FMs using Alloy. However, there is little discussion on the relative merits of each proposal, making it difficult to select the most suitable encoding for a specific analysis need. In this paper, we describe and compare those strategies according to various criteria such as the expressivity of the FM notation or the efficiency of the analysis. This survey is the first comparative study of research targeted towards using Alloy for FM analysis. This review aims to identify all the best practices on the use of Alloy, as a part of a framework for the automated extraction and analysis of rich FMs from natural language requirement specifications.Comment: In Proceedings FMSPLE 2016, arXiv:1603.0857