Business Platform Model for Smart Home for Technology Planning Task Force

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Smart homes are currently facing challenges that are increasing with the diversity of their residents needs. Explosive growth in mobile Internet use, mobile apps, and smartphones, increased connectivity of devices and IoT, and cost reduction of sensors and radio frequency identification (RFID) are the trends needed in smart homes and today still cannot meets the needs of elderly residents. Analysis of the smart home business platform for technology governance planning tasks that includes the recommended decision flow process and as a recommendation from an established business model and expanded to include a series of additional parameters needed to successfully analyze new service business models that offered by the developer and detailed analysis of proposed governance in the service sector. This framework presents a technology governance model for updating strategic plans and governance models for technology and frameworks designed to meet the needs of the elderly population and as a recommendation for smart home management that aims to measurably improve the welfare of the people in Indonesia. The proposed model and strategy recognize the diversity of the community with existing household appliance provider and developers to optimize resources to achieve the goals and objectives of elderly smart home residents.

Keywords: Business Model, Smart Home, Elderly, Platform

Topic: Informatic and Information System

Kata Kunci: Keywords: Business Model, Smart Home, Elderly, Platform


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[1]     A. Caragliu, C. Del Bo, and P. Nijkamp, “Smart Cities in Europe,” Proc. 3rd Central European Conf. Regional Science, 7–9 Oct. 2009, cers2009/PDF/01_03_Nijkamp.pdf. 

[2]     R. Hollands, “Will the Real Smart City Please Stand Up?,” City, vol. 12, no. 3, 2008, pp. 303–20.

[3]     S. Graham, “Bridging Urban Digital Divides: Urban Polarisation and Information and Communication Technologies,” Urban Studies, vol. 39, no. 1, 2002, pp. 33–56.

[4]     P. Ballon, “Control and Value in Mobile Communications: A Political Economy of the Reconfiguration of Business Models in the European Mobile Industry,”

[5]     J. Benington and M. Moore, Public Value: Theory and Practice, Palgrave MacMillan, 2011, 314p.

[6]     A. Gawer and M. Cusumano, Platform Leadership: How Intel, Microsoft and Cisco Drive Industry Innovation, Harvard Business Review Press, 2002, 336p.

[8]     K. Wacks, “The successes and failures of standardization in home systems,” in Proc. 2nd IEEE Conf. Standardization Innovation Inf. Technol., Boulder, CO, Oct. 2001, pp. 77–88.

[9] OSGi service platform R3 [Online]. Available: documents [4] R. S. Hall and H. Cervantes, “Challenges in building service-oriented applications for OSGi,” IEEE Commun. Mag., vol. 42, no. 5, pp. 144– 149, May 2004.

[10]    C. L. Wu, W. C. Wang, and L. C. Fu, “Mobile agent based integrated control architecture for home automation system,” in Proc. IEEE/RSJ Int. Conf. Intell. Robots Syst., vol. 4, Sep. 28–Oct. 2, 2004, pp. 3668– 3673      

[11]     X. Li and W. Zhang, “The design and implementation of home network system using OSGi compliant middleware,” IEEE Trans. Consum. Electron., vol. 50, no. 2, pp. 528–534, May 2004.

[11]    H. Ishikawa, Y. Ogata, K. Adachi, and T. Nakajima, “Building smart appliance integration middleware on the OSGi framework,” in Proc. 7th IEEE Int. Symp. Object-Oriented Real-Time Distrib. Comput., May 2004, pp. 139–146.

[12]    D. Valtchev and I. Frankov, “Service gateway architecture for a smart home,” IEEE Commun. Mag., vol. 40, no. 4, pp. 126–132, Apr. 2002

[13]    J. E. White, C. S. Helgeson, and D. A. Steedman, “System and method for distributed computation based upon the movement, execution, and interaction of processes in a network,” U.S. Pat. Off., Washington, DC, U.S. Patent 5,603,031, 1997.

[14]    J. Baumann, F. Hohl, K. Rothermel, M. Schwehm, and M. Straber, “Mole 3.0: A middleware for Java-based mobile software agents,” in Proc. Middleware 1998: IFIP Int. Conf. Distrib. Syst. Platforms Open Distrib. Process., 1998, pp. 355–372.

[15]    D. Johansen, “Mobile agent applicability,” in Proc. 2nd Int. Workshop Mobile Agents, Sep. 1998, pp. 80–98.

[16]    FIPA Agent Management Support for Mobility Specification, FIPA Specifications 00087, Foundation for Intelligent Physical Agents, [Online]. Available:

[17]    N. Minar and M. Hedlund, “A network of peers: Peer-to-peer models through the history of the Internet,” Peer-To-Peer: Harnessing the Power of Disruptive Technologies. Sebastopol, CA: O’Reilly, Mar. 2001.

[18]    M. Wilson, E. H. Magill, and M. Kolberg, “An online approach for the service interaction problem in home automation,” in Proc. 2nd IEEE Consum. Commun. Netw. Conf., Jan. 3–6, 2005, pp. 251–256.

[19]    S. Moyer, D. Maples, S. Tsang, and A. Ghosh, “Service portability of network appliances,” IEEE Commun. Mag., vol. 40, no. 1, pp. 116–121, Jan. 2000.