- -

Addressing the evolution of automated user behaviour patterns by runtime model interpretation

RiuNet: Institutional repository of the Polithecnic University of Valencia

Share/Send to

Cited by

Statistics

Addressing the evolution of automated user behaviour patterns by runtime model interpretation

Show simple item record

Files in this item

dc.contributor.author Serral Asensio, Estefanía es_ES
dc.contributor.author Valderas Aranda, Pedro José es_ES
dc.contributor.author Pelechano Ferragud, Vicente es_ES
dc.date.accessioned 2014-09-25T10:26:12Z
dc.date.issued 2013-09
dc.identifier.issn 1619-1366
dc.identifier.uri http://hdl.handle.net/10251/40223
dc.description The final publication is available at Springer via http://dx.doi.org/10.1007/s10270-013-0371-3 es_ES
dc.description.abstract The use of high-level abstraction models can facilitate and improve not only system development but also runtime system evolution. This is the idea of this work, in which behavioural models created at design time are also used at runtime to evolve system behaviour. These behavioural models describe the routine tasks that users want to be automated by the system. However, users¿ needs may change after system deployment, and the routine tasks automated by the system must evolve to adapt to these changes. To facilitate this evolution, the automation of the specified routine tasks is achieved by directly interpreting the models at runtime. This turns models into the primary means to understand and interact with the system behaviour associated with the routine tasks as well as to execute and modify it. Thus, we provide tools to allow the adaptation of this behaviour by modifying the models at runtime. This means that the system behaviour evolution is performed by using high-level abstractions and avoiding the costs and risks associated with shutting down and restarting the system. es_ES
dc.description.sponsorship This work has been developed with the support of MICINN, under the project EVERYWARE TIN2010-18011, and the support of the Christian Doppler Forschungsgesellschaft and the BMWFJ, Austria. en_EN
dc.language Inglés es_ES
dc.publisher Springer Verlag (Germany) es_ES
dc.relation MICINN, under the project EVERYWARE TIN2010-18011 es_ES
dc.relation Christian Doppler Forschungsgesellschaft and the BMWFJ es_ES
dc.relation.ispartof Software and Systems Modeling es_ES
dc.rights Reserva de todos los derechos es_ES
dc.subject System behaviour evolution es_ES
dc.subject Routine task automation es_ES
dc.subject Models at runtime es_ES
dc.subject Runtime interpretation of models. es_ES
dc.subject.classification LENGUAJES Y SISTEMAS INFORMATICOS es_ES
dc.title Addressing the evolution of automated user behaviour patterns by runtime model interpretation es_ES
dc.type Artículo es_ES
dc.embargo.lift 10000-01-01
dc.embargo.terms forever es_ES
dc.identifier.doi 10.1007/s10270-013-0371-3
dc.rights.accessRights Abierto es_ES
dc.contributor.affiliation Universitat Politècnica de València. Departamento de Sistemas Informáticos y Computación - Departament de Sistemes Informàtics i Computació es_ES
dc.description.bibliographicCitation Serral Asensio, E.; Valderas Aranda, PJ.; Pelechano Ferragud, V. (2013). Addressing the evolution of automated user behaviour patterns by runtime model interpretation. Software and Systems Modeling. doi:10.1007/s10270-013-0371-3 es_ES
dc.description.accrualMethod S es_ES
dc.relation.publisherversion http://link.springer.com/article/10.1007/s10270-013-0371-3 es_ES
dc.type.version info:eu-repo/semantics/publishedVersion es_ES
dc.relation.senia 256113
dc.relation.references Weiser, M.: The computer of the 21st century. Sci. Am. 265, 66–75 (1991) es_ES
dc.relation.references Serral, E., Valderas, P., Pelechano, V.: Context-adaptive coordination of pervasive services by interpreting models during runtime. Comput. J. 56(1), 87–114 (2013) es_ES
dc.relation.references Ajila, S.A., Alam, S.: Using a formal language constructs for software model evolution. In: Third IEEE International Conference on Semantic Computing (IEEE-ICSC 2009). Berkeley, CA, USA, pp. 390–395 (2009) es_ES
dc.relation.references Bennett, K., Rajlich, V.: Software Maintenance and Evolution: A Roadmap. In: 22nd International Conference on Software Engineering (ICSE 2000). Limerick, Ireland, pp. 75–87 (2000) es_ES
dc.relation.references Mens, T.: The ERCIM working group on software evolution: the past and the future. In: Proceedings of the Joint International and Annual ERCIM Workshops on Principles of Software Evolution (IWPSE) and Software Evolution (Evol) Workshops. ACM (2009) es_ES
dc.relation.references Mens, T., Wermelinger, M., Ducasse, S., Demeyer, S., Hirschfeld, R.: Challenges in software evolution. In: Report of the ChaSE 2005 Workshop Organised by the ERCIM Working Group on Software Evolution. IWPSE-05. Lisbon, Portugal, pp. 13–22 (2005) es_ES
dc.relation.references Hirschfeld, R., Kawamura, K., Berndt, H.: Dynamic service adaptation for runtime system extensions. In: Wireless On-Demand Network Systems, pp. 227–240. Springer, Berlin, Heidelberg, Madonna di Campiglio, Italy (2004) es_ES
dc.relation.references Lientz, B.P., Swanson, E.B.: Software maintenance management: a study of the maintenance of computer applications software in 487 data processing organizations. Addison-Wesley, Reading, MA (1980) es_ES
dc.relation.references Buckley, J., Mens, T., Zenger, M., Rashid, A., Kniesel, G.: Towards a taxonomy of software change. J. Softw. Maint. Evolut. Res. Pract. 17(5), 309–332 (2003) es_ES
dc.relation.references Hardian, B., Indulska, J., Henricksen, K.: Balancing autonomy and user control in context-aware systems—a survey. In: CoMoRea, IEEE PerCom Workshops 2006. (2006) es_ES
dc.relation.references Biegel, G., Cahill, V.: A framework for developing mobile, context-aware applications. In: The 2nd IEEE Conference on Pervasive Computing and Communication (PerCom), pp. 361–365 (2004) es_ES
dc.relation.references Hofer, T., Schwinger, W., Pichler, M., Leonhartsberger, G., Altmann, J.: Context-awareness on mobile devices—the hydrogen approach. In: The 36th Annual Hawaii International Conference on System Sciences, pp. 292–302 (2002) es_ES
dc.relation.references Dey, A.K.: Understanding and using context. Pers. Ubiquitous Comput. 5(1), 4–7 (2001) es_ES
dc.relation.references Sheng, Q.Z., Benatallah, B.: ContextUML: a UML-based modelling language for model-driven development of context-aware web services. In: Proceedings of the International Conference on Mobile, Business (ICMB’05). pp. 206–212 (2005) es_ES
dc.relation.references Henricksen, K., Indulska, J.: A software engineering framework for context-aware pervasive computing. In: Proceedings of the Second IEEE Annual Conference on Pervasive Computing and Communications (PerCom 2004), pp. 77–86. IEEE, Orlando, FL, USA (2004) es_ES
dc.relation.references Baldauf, M., Dustdar, S., Rosenberg, F.: A survey on context-aware systems. Int. J. Ad Hoc Ubiquitous Comput. 2(4), 263–277 (2007) es_ES
dc.relation.references Ye, J., Coyle, L., Dobson, S., Nixon, P.: Ontology-based models in pervasive computing systems. Knowl. Eng. Rev. 22(4), 315–347 (2007) es_ES
dc.relation.references Chen, H., Finin, T., Joshi, A.: An ontology for context-aware pervasive computing environments. Special Issue on Ontologies for Distributed Systems. Knowl. Eng. Rev. 18(3), 197–207 (2004) es_ES
dc.relation.references Welty, C., McGuinness, D.L.: OWL Web Ontology Language Guide. vol. W3C Recomm. W3C Recommendation 10 Feb 2004 (2004) es_ES
dc.relation.references Shepherd, A.: HTA as a framework for task analysis. Ergonomics 41, 1537–1552 (1998) es_ES
dc.relation.references Serral, E., Valderas, P., Pelechano, V.: Towards the model driven development of context-aware pervasive systems. Special Issue on Context Modelling, Reasoning and Management. PMC 6(2), 254–280 (2010) es_ES
dc.relation.references Serral, E.: Automating Routine Tasks in Smart Environments. A Context-aware Model-driven Approach, Technical University of Valencia (2011) es_ES
dc.relation.references Mellor, S.J., Balcer, M.J.: Executable UML: A Foundation for Model Driven Architecture. Addison-Wesley, Indianapolis (2002) es_ES
dc.relation.references Muñoz, J., Ferragud, D.V.P.: Model Driven Development of Pervasive Systems. Building a Software Factory. Universidad Politécnica de Valencia, Valencia (2008) es_ES
dc.relation.references Juric, M.B., Sarang, P.: Business Process Execution Language for Web Services: BPEL and BPEL4WS (2006) es_ES
dc.relation.references Loke, S.W., Smanchat, S., Ling, S., Indrawan, M.: Formal mirror models: an approach to just-in-time reasoning for device ecologies. Int. J. Smart Home 2(1), 15–32 (2008) es_ES
dc.relation.references Code Generation conference. http://www.codegeneration.net/cg2010/ (2010) es_ES
dc.relation.references Guy, M.: Report 2: API Good Practice Good practice for provision of and consuming APIs. UKOLN (2009) es_ES
dc.relation.references Bloch, J.: How to design a good API and why it matters. pp. 506–507 (2005) es_ES
dc.relation.references Sirin, E., Parsia, B., Grau, B.C., Kalyanpur, A., Katz, Y.: Pellet: A practical OWL-DL reasoner. J. Web Semant. 5(2), 51–53 (2007) es_ES
dc.relation.references Bernstein, P.: Multiversion concurrency control—theory and algorithms. ACM Trans. Database Syst. 8(4), 465–484 (1983) es_ES
dc.relation.references Cooper, S., Dann, W., Pausch, R.: Alice: a 3-D tool for introductory programming concepts. J. Comput. Sci. Coll. 15, 107–116 (2000) es_ES
dc.relation.references Pérez, F., Valderas, P.: Allowing end-users to actively participate within the elicitation of pervasive system requirements through immediate visualization. In: Fourth International Workshop on Requirements Engineering Visualization (REV), pp. 31–40. IEEE, Atlanta, Georgia, USA (2009) es_ES
dc.relation.references Lieberman, H., Paternó, F., Wulf, V.: End User Development. Springer, Dordrecht (2006) es_ES
dc.relation.references Nielsen, J.: Usability Engineering. Morgan Kaufmann Publishers Inc, San Francisco (1993) es_ES
dc.relation.references Van Welie, M., Trætteberg, H.: Interaction Patterns in User, Interfaces. pp. 13–16 (2000) es_ES
dc.relation.references Galitz, W.O.: The Essential Guide to User Interface Design: An Introduction to GUI Design Principles and Techniques. Wiley, New York (2002) es_ES
dc.relation.references Kitchenham, B., Pickard, L., Pfleeger, S.L.: Case studies for method and tool evaluation. Softw. IEEE 12(4), 52–62 (1995) es_ES
dc.relation.references Wohlin, C., Runeson, P., Höst, M., Ohlsson, M.C., Regnell, B., Wesslén, A.: Experimentation in Software Engineering. Springer, Berlin (2012) es_ES
dc.relation.references Jones, J.V.: Applied software measurement: assuring productivity & quality (2nd ed’97). McGraw-Hill, New York (1997) es_ES
dc.relation.references Strang, T., Linnhoff-Popien, C.: A context modeling survey. In: First International Workshop on Advanced Context Modelling, Reasoning And Management at UbiComp (2004) es_ES
dc.relation.references Lewis, J.R.: Psychometric Evaluation of an After-Scenario Questionnaire for Computer Usability Studies? The ASQ. SIGCHI Bulletin (1991) es_ES
dc.relation.references Cook, D.J., Youngblood, M., Heierman, I.I.I.E.O., Gopalratnam, K., Rao, S., Litvin, A., Khawaja, F.: MavHome: An Agent-based Smart Home. In: First IEEE International Conference on Pervasive Computing and, Communications (PerCom’03), pp. 521–524 (2003) es_ES
dc.relation.references Hagras, H., Callaghan, V., Colley, M., Clarke, G., Pounds-Cornish, A., Duman, H.: Creating an ambient-intelligence environment using embedded agents. IEEE Intell. Syst. 19(6), 12–20 (2004) es_ES
dc.relation.references Rashidi, P., Cook, D.J.: Keeping the resident in the loop: adapting the smart home to the user. IEEE Trans. Syst. Man Cybern. 39(5), 949–959 (2009) es_ES
dc.relation.references Webb, G.I., Pazzani, M.J., Billsus, D.: Machine learning for user modeling. User model. User-Adapt Interact. 11(1–2), 19–29 (2001) es_ES
dc.relation.references Valiant, L.G.: A theory of the learnable. Commun. ACM 27(11), 1134–1142 (1984) es_ES
dc.relation.references Serral, E., Valderas, P., Pelechano, V.: (2011) Improving the cold-start problem in user task automation by using models at runtime. In: Information Systems Development, pp. 671–683. (2011) es_ES
dc.relation.references García-Herranz, M., Haya, P.A., Esquivel, A., Montoro, G., Alamán, X.: Easing the smart home: semi-automatic adaptation in perceptive environments. J. Univers. Comput. Sci. 14(9), 1529–1544 (2008) es_ES
dc.relation.references Henricksen, K., Indulska, J., Rakotonirainy, A.: Using context and preferences to implement self-adapting pervasive computing applications. Sofw. Pract. Exp. 36(11–12), 1307–1330 (2006) es_ES
dc.relation.references Johnson, P.: Tasks and situations: considerations for models and design principles in human computer interaction, pp. 1199–1204. HCI International. Munich, Germany (1999) es_ES
dc.relation.references Cook, D.J., Das, S.K.: Smart environments: technologies, protocols, and applications, vol. 43. Wiley-Interscience, New York (2005) es_ES
dc.relation.references Paternò, F.: ConcurTaskTrees: an Engineered approach to model-based design of interactive systems. In: The Handbook of Analysis for Human-Computer Interaction, pp. 483–500 (2002) es_ES
dc.relation.references Pribeanu, C., Limbourg, Q., Vanderdonckt1, J.: Task modelling for context-sensitive user interfaces. In: Interactive Systems: Design, Specification, and Verification (DSV-IS), pp. 49–68. Springer, Berlin, Heidelberg 2001, Glasgow, Scotland, UK (2001) es_ES
dc.relation.references Souchon, N., Limbourg, Q., Vanderdonckt., J.: Task modelling in multiple contexts of use. In: Interactive Systems: Design, Specification, and Verification (DSV-IS), pp. 59–73 (2002) es_ES
dc.relation.references Huang, R., Cao, Q., Zhou, J., Sun, D., Su, Q.: Context-aware active task discovery for pervasive computing. In: International Conference on Computer Science and Software Engineering, pp. 463–466. IEEE, Wuhan, China (2008) es_ES
dc.relation.references Sousa, J.P., Poladian, V., Garlan, D., Schmerl, B.: Task-based adaptation for ubiquitous computing. IEEE Trans. Syst. Man Cybern. 36(3), 328–340 (2006) es_ES
dc.relation.references Masuoka, R., Parsia, B., Labrou, Y.: Task Computing—The Semantic Web Meets Pervasive Computing. In: 2nd International Semantic Web Conference on the Semantic Web (ISWC 2003), pp. 866–881. vol. LNCS 2870. Sanibel Island, FL, USA (2003) es_ES
dc.relation.references Oreizy, P., Gorlick, M.M., Taylor, R.N., Heimbigner, D., Johnson, G., Medvidovic, N., Quilici, A., Rosenblum, D.S., Wolf, A.L.: An architecture-based approach to self-adaptive software. IEEE Intell. Syst. Their Appl. 14(3), 54–62 (1999) es_ES
dc.relation.references Floch, J., Hallsteinsen, S., Stav, E., Eliassen, F., Lund, K., Gjørven, E.: Using Architecture Models for Runtime Adaptability. IEEE Software. 23(2), 62–70 (2006) es_ES
dc.relation.references Morin, B., Jézéquel, J.-M., Fleurey, F., Solberg, A.: Models at runtime to support dynamic adaptation. IEEE Comput. Soc. pp. 46–53 (2009) es_ES
dc.relation.references Cetina, C., Giner, P., Fons, J., Pelechano, V.: Using feature models for developing self-configuring smart homes. In: Fifth International Conference on Autonomic and Autonomous Systems, pp. 179–188. IEEE, Valencia, Spain (2009) es_ES
dc.relation.references Garlan, D., Schmerl, B.: Using architectural models at runtime: research challenges. In: Proceedings of the European Workshop on Software Architectures, pp. 200–205. Springer, Berlin, Heidelberg, St Andrews, UK (2004) es_ES
dc.relation.references Blumendorf, M., Lehmann, G., Feuerstack, S., Albayrak, S.: Executable models for human-computer interaction. In: Interactive Systems, Design, Specification, and Verification Workshop (DSV-IS 2008), pp. 238–251. Springer Berlin Heidelberg, Kingston, Canada (2008) es_ES
dc.relation.references Ballagny, C., Hameurlain, N., Barbier, F.: MOCAS: a state-based component model for self-adaptation. In: Third IEEE International Conference on Self-Adaptive and Self-Organizing Systems, pp. 206–215. IEEE, San Francisco, California (2009) es_ES
dc.relation.references Amoui, M., Derakhshanmanesh, M., Ebert, J., Tahvildari, L.: Achieving dynamic adaptation via management and interpretation of runtime models. J. Syst. Softw. 85(12), 2720–2737 (2012) es_ES
dc.relation.references Blair, G., Bencomo, N., France, R.B.: Models@run.time. IEEE Comput. 42, 22–27 (2009) es_ES
dc.relation.references Zhang, J., Cheng, B.H.C.: Model based development of dynamically adaptive software. In: International Conference on Software Engineering (ICSE’06), pp. 371–380. ACM, Shanghai, China (2006) es_ES


This item appears in the following Collection(s)

Show simple item record