An In-Depth Analysis of Smart Service Systems: Exploring Concepts and Overcoming Challenges
Abstract
This comprehensive survey delves into the realm of Smart Service Systems, aiming to provide an in-depth analysis of its fundamental concepts and address the challenges faced in its implementation. Smart Service Systems represent a transformative paradigm that leverages cutting-edge technologies, such as artificial intelligence, Internet of Things, and cloud computing, to enhance the efficiency, effectiveness, and personalization of service delivery. The paper explores the key components and underlying principles that form the backbone of these systems, shedding light on their potential applications and benefits across various domains. However, the realization of Smart Service Systems comes with a set of formidable challenges that need to be tackled. These challenges encompass technical, ethical, legal, and societal aspects, among others. By examining and understanding these obstacles, the paper aims to propose potential strategies and solutions to overcome them. The analysis is further enriched with case studies and real-world examples to provide valuable insights for researchers, practitioners, and policymakers. In conclusion, this survey serves as a comprehensive resource for the exploration of Smart Service Systems, illuminating the path towards harnessing their full potential while addressing the complexities they present. It is hoped that this work will inspire further research and foster advancements in this burgeoning field, ultimately leading to the widespread adoption and integration of intelligent service systems for a more efficient and sustainable future.
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References
S. Alter, "Service system fundamentals: Work system, value chain, and life cycle," IBM Syst. J. , 2010.
SL Vargo, PP Maglio, and MA Akaka, "On value and value co-creation: A service systems and service logic perspective," Eur. Manag. J. , 2008.
WJ Van Den Heuvel and MP Papazoglou, “Toward business transaction management in smart service networks,†IEEE Internet Comput. , vol. 14, no. 4, pp. 71–75, 2010.
P. Castillejo, JF MartÃnez, L. López, and G. Rubio, “An internet of things approach for managing smart services provided by wearable devices,†Int. J. Distribut. Sens. Networks , vol. 2013, 2013.
F. Ye, Y. Qian, and RQ Hu, “Smart Service-Aware Wireless Mixed-Area Networks,†IEEE Netw. , vol. 33, no. 1, pp. 84–91, 2019.
Y. Guo, H. Zhu, and L. Yang, “Smart service system(SSS): A novel architecture enabling coordination of heterogeneous networking technologies and devices for Internet of Things,†China Commun. , vol. 14, no. 3, pp. 130–144, 2017.
DH Shin, “Measuring the quality of smartphones: development of a customer satisfaction index for smart services,†Int. J. Mob. commun. , vol. 12, no. 4, p. 311, 2014.
J. Anke, “Design-integrated financial assessment of smart services,†Electron. mark. , pp. 1–17, 2018.
S. Sivamani, N. Bae, and Y. Cho, "A smart service model based on ubiquitous sensor networks using vertical farm ontology," Int. J. Distribut. Sens. Networks , vol. 2013, 2013.
S. Sivamani, J. Choi, K. Bae, H. Ko, and Y. Cho, "A smart service model in a greenhouse environment using event-based security based on wireless sensor network," Concurr . Comput. , vol. 30, no. 2, 2018.
AV Anttiroiko, P. Valkama, and SJ Bailey, “Smart cities in the new service economy: Building platforms for smart services,†AI Soc. , vol. 29, no. 3, pp. 323–334, 2014.
G. Concilio, A. Deserti, and F. Rizzo, “Exploring the interplay between urban governance and smart services codesign,†Interact. dec. Archit. J. -- IxD&A , vol. 20, no. 20, pp. 33–47, 2014.
MF Tsai, YC Kiong, and A. Sinn, "Smart service relying on Internet of Things technology in parking systems," J. Supercomput. , vol. 74, no. 9, pp. 4315–4338, 2018.
D. Hussein, SN Han, GM Lee, N. Crespi, and E. Bertin, “Towards a dynamic discovery of smart services in the social internet of things,†Comput. electr. Eng. , vol. 58, pp. 429–443, 2017.
EA Oliveira, M. Kirley, JCB Fonseca, and K. Gama, “Device Nimbus: An Intelligent Middleware for Smarter Services for Health and Fitness,†Int. J. Distribut. Sens. Networks , vol. 2015, 2015.
D. Georgakopoulos and PP Jayaraman, “Internet of things: from internet scale sensing to smart services,†Computing , vol. 98, no. 10, p. 1041–1058, 2016.
A. Poniszewska-Maranda, D. Kaczmarek, N. Kryvinska, and F. Xhafa, "Studying the usability of AI in the IoT systems/paradigm through embedding NN techniques into mobile smart service systems," Computing , 2018 .
H. Al-Hamadi, I.-R. Chen, and J. -H. Cho, “Trust Management of Smart Service Communities,†IEEE Access , vol. 7, pp. 26362–26378, 2019.
RB Wiegard and MH Breitner, “Smart services in healthcare: A risk-benefit-analysis of pay-as-you-live services from a customer perspective in Germany,†Electron . mark. , pp. 1–17, 2017.
D. Beverungen, M. Matzner, and C. Janiesch, “Information systems for smart services,†Info. syst. E-buses. Manag. , vol. 15, no. 4, pp. 781–787, 2017.
D. Beverungen, O. Müller, M. Matzner, J. Mendling, and J. Vom Brocke, “Conceptualizing smart service systems,†Electron. mark. , pp. 1–12, 2017.
H. Ko, S. Hwang, L. Mesicek, JJ Choi, JJ Choi, and P. Kim, “A study on context-relationship with context-attributes for a smart service generation in smart city,†J. Univers . Comput. sci. , vol. 24, no. 3, pp. 249–260, 2018.
R. Alt, H. Demirkan, JF Ehmke, A. Moen, and A. Winter, “Smart services: The move to customer orientation,†Electron. mark. , pp. 1–6, 2019.
S. Dreyer, D. Olivotti, B. Lebek, and MH Breitner, “Focusing the customer through smart services: a literature review,†Electron. mark. , 2019.
J. Spohrer, Y. Moghaddam, D. Allen, H. Demirkan, C. Bess, and A. Rayes, “Innovations with Smart Service Systems: Analytics, Big Data, Cognitive Assistance, and the Internet of Everything,†commun. Assoc. inf. syst. , vol. 37, no. 1, pp. 733–752, 2018.
B. Kitchenham, O. Pearl Brereton, D. Budgen, M. Turner, J. Bailey, and S. Linkman, “Systematic literature reviews in software engineering - A systematic literature review,†Information and Software Technology . 2009.
M. Rahman and W. MacCaull, “An Application Suite for Service Enabled Workflow,†Procedia Comput. sci. , vol. 83, pp. 480–487, 2016.
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