196,830 research outputs found

    Module-based quality system functionality evaluation in production logistics

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    Purpose: This paper addresses a comprehensive modeling and functionality evaluation of a module-based quality system in production logistics at the highest domain abstract level of business processes. Design/methodology/approach: All domain quality business processes and quality data transactions are modeled using BPMN and UML tools and standards at the business process and data modeling. A modular web-based prototype is developed to evaluate the models addressing the quality information system functionality requirements and modularity in production logistics through data scenarios and data queries. Findings: Using the object-oriented technique in design at the highest domain level, the proposed models are subject further development in the lower levels for the implementing case. The models are specifically able to manipulate all quality operations including remedy and control in a lot-based make-to-order production logistics system as an individual module. Practical implications: Due to the specification of system as domain design structure, all proposed BPMs, data models, and the actual database prototype are seen referential if not a solution as a practical “to-be” quality business process re-engineering template. Originality/value: this paper sets out to provide an explanatory approach using different practical technique at modeling steps as well as the prototype implementation.Peer Reviewe

    Developing BP-driven web application through the use of MDE techniques

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    Model driven engineering (MDE) is a suitable approach for performing the construction of software systems (in particular in the Web application domain). There are different types of Web applications depending on their purpose (i.e., document-centric, interactive, transactional, workflow/business process-based, collaborative, etc). This work focusses on business process-based Web applications in order to be able to understand business processes in a broad sense, from the lightweight business processes already addressed by existing proposals to long-running asynchronous processes. This work presents a MDE method for the construction of systems of this type. The method has been designed in two steps following the MDE principles. In the first step, the system is represented by means of models in a technology-independent manner. These models capture the different aspects of Web-based systems (these aspects refer to behaviour, structure, navigation, and presentation issues). In the second step, the model transformations (both model-to- model and model-to-text) are applied in order to obtain the final system in terms of a specific technology. In addition, a set ofEclipse-based tools has been developed to provide automation in the application of the proposed method in order to validate the proposal.Torres Bosch, MV.; Giner Blasco, P.; Pelechano Ferragud, V. (2012). Developing BP-driven web application through the use of MDE techniques. Software and Systems Modeling. 11(4):609-631. doi:10.1007/s10270-010-0177-5S609631114Andrews, T., Curbera, F., Dholakia, H., Goland, Y., Klein, J., Leymann, F., Liu, K., Roller, D., Smith, D., Thatte, S., Trickovic, I., Weerawarana, S.: Business process execution language for Web services version 1.1 (May 2003)Barna, P., Frasincar, F., Houben, G.J.: A workow-driven design of Web information systems. In: Wolber, D., Calder, N., Brooks, C., Ginige, A. (eds.) ICWE, ACM, pp. 321–328Bakshi, K., Karger, D.R.: Semantic Web applications. In: Proceedings of the ISWC 2005 Workshop on End User Semantic Web Interaction (November 2005)Brambilla M., Ceri S., Fraternali P., Manolescu I.: Process modeling in Web applications. ACM Trans. Softw. Eng. Methodol. 15(4), 360–409 (2006)Brambilla, M., Preciado, J.C., Trigueros, M.L., Sánchez-Figueroa F.: Business process-based conceptual design of rich internet applications. In: ICWE, pp. 155–161 (2008)Brambilla, M., Butti, S., Fraternali, P.: Webratio bpm: a tool for designing and deploying business processes on the Web. In: ICWE, pp. 415–429 (2010)Business process modeling notation (BPMN). OMG final adopted specification. dtc/06-02-01 (February 2006)Ceri, S., Fraternali, P., Bongio, A.: Web modeling language (Webml): a modeling language for designing Web sites. In: Proceedings of the 9th international World Wide Web conference on Computer networks : the international journal of computer and telecommunications networking, Amsterdam, The Netherlands, pp. 137–157. North-Holland Publishing Co., The Netherlands (2000)Davis J.: Open Source SOA. Manning Publications Co, Greenwich (2009)Distante, D.: Reengineering legacy applications and Web transactions: an extended version of the UWA transaction design model. Ph.D. thesis, University of Lecce, Italy (2004)Distante D., Rossi G., Canfora G., Tilley S.R.: A comprehensive design model for integrating business processes in Web applications. Int. J. Web Eng. Technol. 3(1), 43–72 (2007)Duhl, J.: Rich internet applications. Technical report, IDC (November 2003)Fons, J.: OOWS: A model driven method for the development of web applications. Ph.D. thesis, Universidad Politécnica de Valencia (2008)Fons, J., Pelechano, V., Pastor, O., Valderas, P., Torres, V.: Applying the OOWS model-driven approach for developing web applications. The internet movie database case study. In: Web Engineering: Modelling and Implementing Web Applications. Human–Computer Interaction Series, pp. 65–108. Springer, London (2008)Fowler, M.: Inversion of control containers and the dependency injection pattern. http://martinfowler.com/articles/injection.html (January 2004)Gershenfeld N., Krikorian R., Cohen D.: The internet of things. Sci Am 291(4), 76–81 (2004)Giner P., Cetina C., Fons J., Pelechano V.: Developing mobile business processes for the internet of things. IEEE Pervasive Comput. 9, 18–26 (2010)Gómez J., Cachero C., Pastor O.: Extending a conceptual modelling approach to Web application design. In: Wangler, B., Bergman, L. (eds) CAiSE. Lecture Notes in Computer Science, vol. 1789, pp. 79–93. Springer, London (2000)Goth G.: The task-based interface: not your father’s desktop. IEEE Software 26(6), 88–91 (2009)Holmes, T., Tran, H., Zdun, U., Dustdar, S.: Modeling human aspects of business processes—a view-based, model-driven approach. In: ECMDA-FA, pp. 246–261 (2008)Kappel, G., Pröll, B., Reich, S., Retschitzegger, W. (eds): Web Engineering—The Discipline of Systematic Development of Web Applications. Wiley, England (2006)Koch, N.: Software Engineering for Adaptive Hypermedia Systems: Reference Model, Modeling Techniques and Development Process. Ph.D. thesis, Ludwig-Maximilians-University Munich, Germany (2001)Koch N., Kraus A., Cachero C., Meliá S.: Integration of business processes in Web application models. J. Web Eng. 3(1), 22–49 (2004)Limbourg, Q., Vanderdonckt, J.: Usixml: a user interface description language supporting multiple levels of independence. In: ICWE Workshops, pp. 325–338 (2004)Linaje M., Preciado J.C., Sánchez-Figueroa F.: Engineering rich internet application user interfaces over legacy Web models. IEEE Internet Comput. 11(6), 53–59 (2007)Link, S., Hoyer, P., Schuster, T., Abeck, S.: Model-driven development of human tasks for workflows. In: ICSEA ‘08: Proceedings of the 2008 third international conference on software engineering advances, Washington, DC, USA, pp. 329–335. IEEE Computer Society, Washington, DC (2008)Marcos, E., Cáceres, P., Castro, V. D.: An approach for navigation model construction from the use cases model. In: CAiSE Forum. Held in conjunction with the 16th Conference On Advanced Information Systems Engineering (June 2004)Pietschmann, S., Voigt, M., Meissner, K.: Adaptive rich user interfaces for human interaction in business processes. In: Proceedings of the 10th International Conference on Web Information Systems Engineering (WISE 2009), WISE, pp. 351–364. Springer LNCS (October 2009)Schwabe D., Rossi G.: An object oriented approach to Web-based applications design. Theor. Pract. Object Syst. 4(4), 207–225 (1998)Schmid H.A., Rossi G.: Modeling and designing processes in e-commerce applications. IEEE Internet Comput. 8(1), 19–27 (2004)Schwinger W., Retschitzegger W., Schauerhuber A., Kappel G., Wimmer M., Pröll B., Cachero C., Casteleyn S., Troyer O.D., Fraternali P., Garrigós I., Garzotto F., Ginige A., Houben G.J., Koch N., Moreno N., Pastor O., Paolini P., Pelechano V., Rossi G., Schwabe D., Tisi M., Vallecillo A., van der Sluijs K., Zhang G.: A survey on Web modeling approaches for ubiquitous Web applications. IJWIS 4(3), 234–305 (2008)Sousa K.S., Mendona H., Vanderdonckt J.: A model-driven approach to align business processes with user interfaces. J. UCS 14(19), 3236–3249 (2008)Sukaviriya, N., Sinha, V., Ramachandra, T., Mani, S.: Model-driven approach for managing human interface design life cycle. In: MoDELS, pp. 226–240 (2007)Tedre M.: What should be automated?. Interactions 15(5), 47–49 (2008)Torres, V., Giner, P., Bonet, B., Pelechano, V.: Adapting BPMN to Public Administration. In: Proceedings BPMN 2010 Springer’s Lecture Notes in Business Information Processing (LNBIP). Postdam, Germany (to appear)Troyer, O.D., Casteleyn, S.: Modeling complex processes for Web applications using wsdm. In: Proceedings of the Third International Workshop on Web-Oriented Software Technologies (held in conjunction with ICWE2003), IWWOST2003 (2003

    Classified advertisements platform for academic environment

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    Nowadays web based applications represent an important role in business success, fast global advertisement of products, easy management and internal organization and fast information access are values that have shown decisive for a correct and supported organizations development. This essay describes a project work carried out in the academic environment, with open source tools, in order to develop a classified advertisement platform using web technologies, namely JSP, XML and JavaBeans. The application aims at supplying a set of functionalities related to students and products management, businesses management and the presentation of products between the students themselves. Thus this article presents the methodology followed since the modeling of the application process and the development of a data model that corresponds to the identified needs during the modeling phase of the processes, until the system implementation

    Quality modelling and metrics of Web-based information systems

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    In recent years, the World Wide Web has become a major platform for software applications. Web-based information systems have been involved in many areas of our everyday life, such as education, entertainment, business, manufacturing, communication, etc. As web-based systems are usually distributed, multimedia, interactive and cooperative, and their production processes usually follow ad-hoc approaches, the quality of web-based systems has become a major concern. Existing quality models and metrics do not fully satisfy the needs of quality management of Web-based systems. This study has applied and adapted software quality engineering methods and principles to address the following issues, a quality modeling method for derivation of quality models of Web-based information systems; and the development, implementation and validation of quality metrics of key quality attributes of Web-based information systems, which include navigability and timeliness. The quality modeling method proposed in this study has the following strengths. It is more objective and rigorous than existing approaches. The quality analysis can be conducted in the early stage of system life cycle on the design. It is easy to use and can provide insight into the improvement of the design of systems. Results of case studies demonstrated that the quality modeling method is applicable and practical. Practitioners can use the modeling method to develop their own quality models. This study is amongst the first comprehensive attempts to develop quality measurement for Web-based information systems. First, it identified the relationship between website structural complexity and navigability. Quality metrics of navigability were defined, investigated and implemented. Empirical studies were conducted to evaluate the metrics. Second, this study investigated website timeliness and attempted to find direct and indirect measures for the quality attribute. Empirical studies for validating such metrics were also conducted. This study also suggests four areas of future research that may be fruitful

    Enterprise-Wide Object Model For Life Insurance Industry

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    The purpose of this project is to define two core life insurance business processes of the life insurance industry, namely, new applications processing and claims processing and to define an enterprise-wide object for the industry. This enterprise-wide object model is defined to act as a reference model for the industry. Development of the reference model is important for a developer to save time and resources in developing an integrated life insurance information system. This enterprise-wide object model has been developed using Unified Modeling Language (UML). Besides that, a prototype system has also been developed using this enterprise-wide object model. The prototype system is a web-based relational database. Finally, this project discusses some limitations that were discovered during the development of this project and some recommendations to overcome the limitations for the future development of this project

    Designing Information Systems for Transaction and Production Data Management A&N convection

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    Many companies have implemented technology in conducting their business, one of them is by using information systems in managing their business. The business process that runs on the Konveksi A&N is still manual because the Konveksi A&N has not implemented or is familiar with information systems like other companies has. This causes all the data collection process of goods, production, and transactions are all documented in different books, making it possible for errors in recording and calculating the data. In addition, the owner also needs to come directly to the location to find out new data or updated data where this takes more time. This research aims to establish a web-based system that can make business processes in Konveksi A&N more effective. This web-based system will be built using a system development methodology in the form of a prototyping method that uses the Hypertext Preprocessor (PHP) programming language. System modeling was developed using UML 2.5, use case diagrams, activity diagrams, and class diagrams. The final result of this study is a website-shaped information system that can document all data contained in the Konveksi A&N such as the existence of a master data that contains all the data of convection, production data, and also transaction data to facilitate the owner in checking back all activities that are occurs in Konveksi A&N. There are also some reports about the transaction that can display information related to data contained in the system

    Comparison of Supply Chain Process Models based on Service-oriented Architecture

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    With the passage of time, supply chain processes have shifted toward IT-based business processes regarding service-oriented architecture (SOA) to augment the agility, integration, and flexibility of IT-based applications in enterprise networks. SOA, as a fast-growing paradigm in IT, uses Web service technologies and provides new pattern integration and interoperability in processes, services, and data. Consequently, many reference models have been developed in the field of SC processes to support the requirements for the related modeling, as well as to apply the development and implementation of supply chain information systems. The aim of this paper is to compare six main supply chain reference models regarding SOA and its underlying concepts and to identify which reference model can support different stages of information system development. The results show that no supply chain reference model can support both the coordination and interaction of process models in more detail and with a service-oriented approach in supply chain process modeling. Moreover, there is a need for a plausible methodology for business process modeling based on the service-oriented approach in the domain of supply chain management (SCM)

    Model Driven Development and Maintenance of Business Logic for Information Systems

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    Since information systems become more and more important in today\''s society, business firms, organizations, and individuals rely on these systems to manage their daily business and social activities. The dependency of possibly critical business processes on complex IT systems requires a strategy that supports IT departments in reducing the time needed to implement changed or new domain requirements of functional departments. In this context, software models help to manage system\''s complexity and provide a tool for communication and documentation purposes. Moreover, software engineers tend to use automated software model processing such as code generation to improve development and maintenance processes. Particularly in the context of web-based information systems, a number of model driven approaches were developed. However, we believe that compared to the user interface layer and the persistency layer, there could be a better support of consistent approaches providing a suitable architecture for the consistent model driven development of business logic. To ameliorate this situation, we developed an architectural blueprint consisting of meta models, tools, and a method support for model driven development and maintenance of business logic from analysis until system maintenance. This blueprint, which we call Amabulo infrastructure, consists of five layers and provides concepts and tools to set up and apply concrete infrastructures for model driven development projects. Modeling languages can be applied as needed. In this thesis we focus on business logic layers of J2EE applications. However, concrete code generation rules can be adapted easily for different target platforms. After providing a high-level overview of our Amabulo infrastructure, we describe its layers in detail: The Visual Model Layer is responsible for all visual modeling tasks. For this purpose, we discuss requirements for visual software models for business logic, analyze several visual modeling languages concerning their usefulness, and provide an UML profile for business logic models. The Abstract Model Layer provides an abstract view on the business logic model in the form of a domain specific model, which we call Amabulo model. An Amabulo model is reduced to pure logical information concerning business logic aspects. It focuses on information that is relevant for the code generation. For this purpose, an Amabulo model integrates model elements for process modeling, state modeling, and structural modeling. It is used as a common interface between visual modeling languages and code generators. Visual models of the Visual Model Layer are automatically transformed into an Amabulo model. The Abstract System Layer provides a formal view onto the system in the form of a Coloured Petri Net (CPN). A Coloured Petri Net representation of the modeled business logic is a formal structure and independent of the actual business logic implementation. After an Amabulo model is automatically transformed into a CPN, it can be analyzed and simulated before any line of code is generated. The Code Generation Layer is responsible for code generation. To support the design and implementation of project-specific code generators, we discuss several aspects of code integration issues and provide object-oriented design approaches to tackle the issues. Then, we provide a conceptual mapping of Amabulo model elements into architectural elements of a J2EE infrastructure. This mapping explicitly considers robustness features, which support a later manual integration of generated critical code artifacts and external systems. The Application Layer is the target layer of an Amabulo infrastructure and comprises generated code artifacts. These artifacts are instances of a specific target platform specification, and they can be modified for integration purposes with development tools. Through the contributions in this thesis, we aim to provide an integrated set of solutions to support an efficient model driven development and maintenance process for the business logic of information systems. Therefore, we provide a consistent infrastructure blueprint that considers modeling tasks, model analysis tasks, and code generation tasks. As a result, we see potential for reducing the development and maintenance efforts for changed domain requirements and simultaneously guaranteeing robustness and maintainability even after several changes

    Capability driven development: an approach to designing digital enterprises

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    The final publication is available at Springer via http://dx.doi.org/10.1007/s12599-014-0362-0[EN] The need for organizations to operate in changing environments is addressed by proposing an approach that integrates organizational development with information system (IS) development taking into account changes in the application context of the solution. This is referred to as Capability Driven Development (CDD). A meta-model representing business and IS designs consisting of goals, key performance indicators, capabilities, context and capability delivery patterns, is being proposed. The use of the meta-model is validated in three industrial case studies as part of an ongoing collaboration project, whereas one case is presented in the paper. Issues related to the use of the CDD approach, namely, CDD methodology and tool support are also discussed.This work has been partially supported by the EU-FP7 funded project no: 611351 CaaS - Capability as a Service in Digital Enterprises.Berzisa, S.; Bravos, G.; Cardona Gonzalez, T.; Czubayko, U.; España, S.; Grabis, J.; Henkel, M.... (2015). Capability driven development: an approach to designing digital enterprises. Business and Information Systems Engineering. 57(1):15-25. https://doi.org/10.1007/s12599-014-0362-0S1525571ArchiMate (2013) An enterprise modeling language from the Open Group. http://www.opengroup.org/archimate/ . Accessed 3 Dec 2014Asadi M, Ramsin R (2008) MDA-based methodologies: an analytical survey. In: Proceedings Model driven architecture – foundations and applications (ECMDA-FA 2008), LNCS 5095, pp 419–431Barney JB (1991) Firm resources and sustained competitive advantage. 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Requir Eng 16:75–99De Kinderen S, Gordijn J, Akkermans H (2009) Reasoning about customer needs in multi-supplier ICT service bundles using decision models. In: Proceedings 11th international conference on enterprise information systems (ICEIS 2009), pp 131–136Deloitte (2009) Cloud computing: forecasting change. Deloitte Consulting, New York. http://public.deloitte.no/dokumenter/2_Cloud_Computing%5B1%5D.pdf . Accessed 3 Dec 2014Dey A (2001) Understanding and using context. Pers Ubiquitous Comput 5(1):4–7Gamma E, Helm R, Johnson R, Vlissides J (1995) Design patterns: elements of reusable object-oriented software architecture. Addison-Wesley, BostonGomes D, Gonçalves JM, Santos R, Aguiar R (2010) XMPP based context management architecture. In: Proceedings GLOBECOM workshop, IEEE, pp 1372–1377González A, España S, Ruiz M, Pastor Ó (2011) Systematic derivation of class diagrams from communication-oriented business process models. In: 12th working conference on business process modeling, development, and support (BPMDS’11). Springer LNBIP 81, pp 246–260Henkel M, Stirna J (2010) Pondering on the key functionality of model driven development tools: the case of mendix. In: Forbrig P, Günther H (eds) Proceedings business informatics research (BIR 2010), Springer LNBIP 64, pp 146–160Hervas R, Bravo J, Fontecha J (2010) A context model based on ontological languages – a proposal for information visualisation. J Univers Comput Sci 16(12):1539–1555Jarke M, Loucopoulos P, Lyytinen K, Mylopoulos J, Robinson W (2011) The brave new world of design requirements. Information Syst 36(7):992–1008Kaplan RS, Norton DP (2004) Strategy maps: converting intangible assets into tangible outcomes. Harvard Business School Press, BostonKleppe A, Warmer J, Bast W (2013) MDA explained. Addison-Wesley, BostonLoniewski G, Insfran E, Abrahao L (2010) A systematic review of the use of requirements engineering techniques in model-driven development. In: Proceedings model driven engineering languages and systems (MODELS 2010), Part II, LNCS 6395, pp 213–227Mohagheghi P, Dehlen V (2008) Where is the proof? - a review of experiences from applying MDE in industry. In: Proceedings model driven architecture – foundations and applications (ECMDA-FA 2008). LNCS 5095. Springer, Heidelberg, pp 432–443Nilsson AG, Tolis C, Nellborn C (eds) (1999) Perspectives on business modelling: understanding and changing organisations. Springer, HeidelbergOASIS (2011) Reference architecture foundation for service oriented architecture version 1.0, committee specification draft 03/public review draft 02 06 July 2011. http://docs.oasis-open.org/soa-rm/soa-ra/v1.0/soa-ra.pdf . Accessed 3 Dec 2014OMG (2011a) UML superstructure. http://www.omg.org/spec/UML/2.4.1/ . 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    Exact Requirements Engineering for Developing Business Process Models

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    Process modeling is a suitable tool for improving the business processes. Successful process modeling strongly depends on correct requirements engineering. In this paper, we proposed a combination approach for requirements elicitation for developing business models. To do this, BORE (Business-Oriented Requirements Engineering) method is utilized as the base of our work and it is enriched by the important features of the BDD (Business-driven development) method, in order to make the proposed approach appropriate for modeling the more complex processes. As the main result, our method eventuates in exact requirements elicitation that adapts the customers' needs. Also, it let us avoid any rework in the modeling of process. In this paper, we conduct a case study for the paper submission and publication system of a journal. The results of this study not only give a good experience of real world application of proposed approach on a web-based system, also it approves the proficiency of this approach for modeling the complex systems with many sub-processes and complicated relationships.Comment: (IEEE) 3th International Conference on Web Researc
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