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A social network for supporting end-users in the composition of services: definition and proof of concept

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A social network for supporting end-users in the composition of services: definition and proof of concept

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Valderas, P.; Torres Bosch, MV.; Pelechano Ferragud, V. (2020). A social network for supporting end-users in the composition of services: definition and proof of concept. Computing. 102(8):1909-1940. https://doi.org/10.1007/s00607-020-00796-8

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Título: A social network for supporting end-users in the composition of services: definition and proof of concept
Autor: Valderas, Pedro Torres Bosch, Maria Victoria Pelechano Ferragud, Vicente
Entidad UPV: Universitat Politècnica de València. Departamento de Sistemas Informáticos y Computación - Departament de Sistemes Informàtics i Computació
Fecha difusión:
Resumen:
[EN] Nowadays, end users are surrounded by plenty of services that are somehow supporting their daily routines and activities. Involving end users into the process of service creation can allow end users to benefit from a ...[+]
Palabras clave: Service composition , End-user development , Social network
Derechos de uso: Reserva de todos los derechos
Fuente:
Computing. (issn: 0010-485X )
DOI: 10.1007/s00607-020-00796-8
Editorial:
Springer-Verlag
Versión del editor: https://doi.org/10.1007/s00607-020-00796-8
Código del Proyecto:
info:eu-repo/grantAgreement/AEI/Plan Estatal de Investigación Científica y Técnica y de Innovación 2013-2016/TIN2017-84094-R/ES/DISEÑO DE SISTEMAS AUTO-ADAPTATIVOS INVOLUCRANDO AL HUMANO/
Agradecimientos:
This work has been developed with the financial support of the Spanish State Research Agency under the Project TIN2017-84094-R and co-financed with ERDF.
Tipo: Artículo

References

Yu J, Sheng QZ, Han J, Wu Y, Liu C (2012) A semantically enhanced service repository for user-centric service discovery and management. Data Knowl Eng 72:202–218

Daniel F, Casati F, Benatallah B, Shan M-C (2009) Hosted universal composition: models, languages and infrastructure in mashart. In: International conference on conceptual modeling. Springer, pp 428–443

Danado J, Paternò F (2014) Puzzle: a mobile application development environment using a jigsaw metaphor. J Vis Lang Comput 25(4):297–315 [+]
Yu J, Sheng QZ, Han J, Wu Y, Liu C (2012) A semantically enhanced service repository for user-centric service discovery and management. Data Knowl Eng 72:202–218

Daniel F, Casati F, Benatallah B, Shan M-C (2009) Hosted universal composition: models, languages and infrastructure in mashart. In: International conference on conceptual modeling. Springer, pp 428–443

Danado J, Paternò F (2014) Puzzle: a mobile application development environment using a jigsaw metaphor. J Vis Lang Comput 25(4):297–315

Aghaee S, Pautasso C (2014) End-user development of mashups with naturalmash. J Vis Lang Comput 25(4):414–432

Valderas P, Torres V, Mansanet I, Pelechano V (2017) A mobile-based solution for supporting end-users in the composition of services. Multimed Tools Appl 76(15):16315–16345

Al-Masri E, Mahmoud QH (2007) Wsce: a crawler engine for large-scale discovery of web services. In: IEEE international conference on web services (ICWS 2007). IEEE, pp 1104–1111

Santanche A, Nath S, Liu J, Priyantha B, Zhao F (2006) Senseweb: browsing the physical world in real time. Demo Abstract, ACM/IEEE IPSN06. Nashville, TN, pp 1–2

Nielsen J (2015) Tops of 2015: digital, media and entertainment. http://www.nielsen.com/us/en/insights/news/2015/tops-of-2015-digital.html, 2015. Accessed Jan 2019

IFTTT, If this then that. https://ifttt.com/, 2015. Accessed Jan 2019

Dlvr.it, Social media auto posting & scheduling tool. https://dlvrit.com/, 2018. Accessed: Jan 2020

Zapier, Connect your apps and automate workflows. https://zapier.com/, 2018. Accessed Jan 2019

Node-RED, Flow-based programming for the internet of things. https://nodered.org/, 2017. Accessed Jan 2019

Maaradji A, Hacid H, Daigremont J, Crespi N (2010) Towards a social network based approach for services composition. In: 2010 IEEE international conference on communications. IEEE, pp 1–5

Soriano J, Lizcano D, Hierro JJ, Reyes M, Schroth C, Janner T (2008) Enhancing user-service interaction through a global user-centric approach to SOA. In: 4th international conference on networking and services (ICNS 2008). IEEE, pp 194–203

Jiang P, Ding K, Leng J (2016) Towards a cyber-physical-social-connected and service-oriented manufacturing paradigm: social manufacturing. Manuf Lett 7:15–21

Tamburri DA, Lago P, Vliet Hv (2013) Service networks for development communities. In: Proceedings of the 2013 international conference on software engineering. IEEE Press, pp 1253–1256

Maamar Z, Wives LK, Badr Y, Elnaffar S (2009) Even web services can socialize: a new service-oriented social networking model. In: 2009 international conference on intelligent networking and collaborative systems. IEEE, pp 24–30

Yu S, Woodard CJ (2008) Innovation in the programmable web: characterizing the mashup ecosystem. In International conference on service-oriented computing. Springer, pp 136–147

Chen W, Paik I, Hung PC (2013) Constructing a global social service network for better quality of web service discovery. IEEE Trans Serv Comput 8(2):284–298

Ren M, Ren L, Jain H (2018) Manufacturing service composition model based on synergy effect: a social network analysis approach. Appl Soft Comput 70:288–300

Kranz M, Roalter L, Michahelles F (2010) Things that twitter: social networks and the internet of things. In: What can the internet of things do for the citizen (CIoT) workshop at the 8th international conference on pervasive computing (Pervasive 2010), pp 1–10

Bleecker J (2006) A manifesto for networked objects—cohabiting with pigeons, ARPHIDS and AIBOS in the internet of things. In: Proceedings of the 13th international conference on human–computer interaction with mobile devices and services, MobileHCI, pp 1–17

Atzori L, Iera A, Morabito G (2011) Siot: giving a social structure to the internet of things. IEEE Commun Lett 15(11):1193–1195

Guinard D, Fischer M, Trifa V (2010) Sharing using social networks in a composable web of things. In: PerCom workshops, pp 702–707

Meissa M, Benharzallah S, Kahloul L (2017) Service composition based on the social relations in the internet of things. In: The 18th international Arab conference on information technology (ACIT’2017)

Wang S, Zhou A, Yang M, Sun L, Hsu C-H, Yang F (2017) Service composition in cyber-physical-social systems. IEEE Transactions on Emerging Topics in Computing. IEEE, pp 1–1. https://doi.org/10.1109/TETC.2017.2675479

Reuter C, Kaufhold M-A, Ludwig T (2017) End-user development and social big data–towards tailorable situation assessment with social media. In: New perspectives in end-user development. Springer, pp 307–332

Massa D, Spano L (2016) Facemashup: an end-user development tool for social network data. Future Internet 8(2):10

Boyd DM, Ellison NB (2007) Social network sites: definition, history, and scholarship. J Comput Mediat Commun 13(1):210–230

Hung PC, Li H, Jeng J-J (2004) Ws-negotiation: an overview of research issues. In: Proceedings of the 37th annual Hawaii international conference on system sciences, 2004. IEEE, p 10

Ding Z, Xiao L, Hu J (2008) Performance analysis of service composition using ordinary differential equations. In 2008 12th IEEE international workshop on future trends of distributed computing systems. IEEE, pp 30–36

Milanovic N, Malek M (2004) Current solutions for web service composition. IEEE Internet Comput 8(6):51–59

Lieberman H, Paternò F, Klann M, Wulf V (2006) End-user development: an emerging paradigm. In: End user development. Springer, pp 1–8

Segal J (2005) Two principles of end-user software engineering research. ACM SIGSOFT Softw Eng Not 30(4):1–5

Workflow.is, Workflow. spend less taps, get more done. https://workflow.is/, 2018. Accessed Jan 2019

Dey AK (2001) Understanding and using context. Pers Ubiquit Comput 5(1):4–7

Steinbock D (2005) The mobile revolution: the making of mobile services worldwide. Kogan Page Publishers, London

Snoonian D (2003) Smart buildings. IEEE Spectr 40(8):18–23

Milicevic AK, Nanopoulos A, Ivanovic M (2010) Social tagging in recommender systems: a survey of the state-of-the-art and possible extensions. Artif Intell Rev 33(3):187–209

Ermagan V, Krüger IH (2007) A UML2 profile for service modeling. In: International conference on model driven engineering languages and systems. Springer, pp 360–374

Amir R, Zeid A (2004) A UML profile for service oriented architectures. In: Companion to the 19th annual ACM SIGPLAN conference on object-oriented programming systems, languages, and applications. ACM, pp 192–193

Paolucci M, Kawamura T, Payne TR, Sycara K (2002) Semantic matching of web services capabilities. In: The semantic web—ISWC 2002, (Berlin, Heidelberg). Springer, Berlin, pp 333–347

Klusch M, Sycara K (2001) Brokering and matchmaking for coordination of agent societies: a survey. In: Coordination of internet agents. Springer, pp 197–224

Wellman B, Berkowitz SD (1988) Social structures: a network approach. CUP Archive

Ehrig H, Mahr B (2012) Fundamentals of algebraic specification 1: equations and initial semantics, vol 6. Springer, Berlin

de Lara J, Bardohl R, Ehrig H, Ehrig K, Prange U, Taentzer G (2007) Attributed graph transformation with node type inheritance. Theor Comput Sci 376(3):139–163

Valderas P, Torres V, Pelechano V (2019) A graph-based definition of a social network for the composition of services by end-users. Technical report pros-tr-2019-01. tech rep, Universitat Politècnica de València. Accessed Oct 2019

Valderas P, Torres V, Pelechano V (2019) Towards the composition of services by end-users. In: Business & information systems engineering, pp 1–17

Benedek J, Miner T (2002) Measuring desirability: new methods for evaluating desirability in a usability lab setting. Proc Usability Prof Assoc 2003(8–12):57

Smith C (2018) Interesting IFTTT statistics and facts. https://expandedramblings.com/index.php/ifttt-statistics-and-facts/. Accessed Oct 2019

Ryan M (2016). The average twitter user now has 707 followers. https://kickfactory.com/blog/average-twitter-followers-updated-2016/. Accessed Jan 2020

Segal J (2003) The nature of evidence in empirical software engineering. In: 11th annual international workshop on software technology and engineering practice. IEEE, pp 40–47

Burnett M, Cook C, Rothermel G (2004) End-user software engineering. Commun ACM 47(9):53–58

Schuler D, Namioka A (1993) Participatory design: principles and practices. CRC Press, Boca Raton

Fischer G, Giaccardi E, Ye Y, Sutcliffe AG, Mehandjiev N (2004) Meta-design: a manifesto for end-user development. Commun ACM 47(9):33–37

Bouvin NO (1999) Unifying strategies for web augmentation. In: Proceedings of the 10th ACM conference on hypertext and hypermedia: returning to our diverse roots: returning to our diverse roots. Citeseer, pp 91–100

Firmenich D, Firmenich S, Rivero JM, Antonelli L, Rossi G (2018) Crowdmock: an approach for defining and evolving web augmentation requirements. Requir Eng 23(1):33–61

Gil M, Serral E, Valderas P, Pelechano V (2013) Designing for user attention: a method for supporting unobtrusive routine tasks. Sci Comput Program 78(10):1987–2008

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