Interoperability in IOT based smart home: A review

Interoperability in IOT based smart home: A review

Summia Taj  Uniza Asad  Moeen Azhar  Sumaira Kausar

Bahria University, Islamabad 46000, Pakistan

Corresponding Author Email: 
sumairakausar@bui.edu.pk
Page: 
50-55
|
DOI: 
https://doi.org/10.18280/rces.050302
Received: 
6 August 2018
| |
Accepted: 
26 September 2018
| | Citation

OPEN ACCESS

Abstract: 

The IOT Internet of things is rapidly moving towards reality. It is broadly applied to plenty of areas which includes healthcare, smart homes, smart cities, energy management, logistics and to forth. Smart homes are distinct class of IOT environments with a variety of connected heterogeneous devices. Daily life entities connected to the internet are enriched with the capabilities of identifying, sensing and processing. The heterogeneous entities require to execute mutual performance of activities effectively & rapidly. However, with the huge growth of connected devices, the ability of interoperation among devices is going to be a challenge. In this paper a state of the art on interoperability in smart homes is presented. The detailed discussion is given on numerous feature of connectivity protocols used for interoperation, limitation of existing solutions encounters in research.

Keywords: 

heterogeneous,iot,interoperability, feature,middleware technologies,smarthomes, sensing

1. Introduction
2. Literature Review
3. Conclusions
Acknowledgment

This study is provided by Bahria University under the supervision of Dr. Sumaira Kausar

  References

[1] Blackstock M, Lea R. (2014). IoT interoperability: A hub-based approach. In Internet of Things (IOT), 2014 International Conference on the 79-84. IEEE.

[2] Soliman M, Abiodun T, Hamouda T, Zhou J, Lung CH. (2013). Smart home: Integrating internet of things with web services and cloud computing. In 2013 IEEE 5th International Conference on Cloud Computing Technology and Science (CloudCom) 317-320. IEEE.

[3] Elkhodr M, Shahrestani S, Cheung H. (2014). A semantic obfuscation technique for the Internet of Things. In Communications Workshops (ICC), 2014 IEEE International Conference on 448-453. IEEE.

[4] Elkhodr M, Shahrestani S, Cheung H. (2016). The Internet of Things: New interoperability, management and security challenges. arXiv preprint arXiv:1604.04824.

[5] Stallings W. (2015). Foundations of modern networking: SDN, NFV, QoE, IoT, and Cloud. Addison-Wesley Professional.

[6] Atzori L, Iera A, Morabito G. (2010). The internet of things: A survey. Computer networks 54(15): 2787-2805.

[7] Gubbi J, Buyya R, Marusic S, Palaniswami M. (2013). Internet of Things (IoT): A vision, architectural elements, and future directions. Future Generation Computer Systems 29(7): 1645-1660.

[8] Jara AJ, Zamora-Izquierdo MA, Skarmeta AF. (2013). Interconnection framework for mHealth and remote monitoring based on the internet of things. IEEE Journal on Selected Areas in Communications 31(9): 47-65.

[9] Sikder AK, Acar A, Aksu H, Uluagac AS, Akkaya K, Conti M. (2018). IoT-enabled smart lighting systems for smart cities. In Computing and Communication Workshop and Conference (CCWC), 2018 IEEE 8th Annual 639-645. IEEE.

[10] Hsu AP, Lee WT, Trappey AJ, Trappey CV, Chang AC. (2015). Using system dynamics analysis for performance evaluation of IoT enabled one-stop logistic services. In Systems, Man, and Cybernetics (SMC), 2015 IEEE International Conference on 1291-1296. IEEE.

[11]  Machado K, Rosário D, Cerqueira E, Loureiro AA, Neto A, de Souza JN. (2013). A routing protocol based on energy and link quality for internet of things applications. Sensors 13(2): 1942-1964.

[12] Floerkemeier C, Roduner C, Lampe M. (2007). RFID application development with the Accada middleware platform. IEEE Systems Journal 1(2): 82-94.

[13] Gubbi J, Buyya R, Marusic S, Palaniswami M. (2013). Internet of Things (IoT): A vision, architectural elements, and future directions. Future Generation Computer Systems 29(7): 1645-1660.

[14] Farhan L, Shukur ST, Alissa AE, Alrweg M, Raza U, Kharel R. (2017). A Survey on the Challenges and Opportunities of the Internet of Things (IoT). In Sensing Technology (ICST), 2017 Eleventh International Conference on 1-5. IEEE.

[15] Hussain MI. (2017). Internet of Things: Challenges and research opportunities. CSI Transactions on ICT 5(1): 87-95.

[16] Desai P, Sheth A, Anantharam P. (2015). Semantic gateway as a service architecture for iot interoperability. In Mobile Services (MS), 2015 IEEE International Conference on 313-319. IEEE.

[17] Ahsan M, Talib MR, Sarwar MU, Khan MI, Sarwar MB. (2016). Ensuring interoperability among heterogeneous devices through IoT middleware. International Journal of Computer Science and Information Security 14(4): 251.

[18] Pandya HB, Champaneria TA. (2015). Internet of things: Survey and case studies. In Electrical, Electronics, Signals, Communication and Optimization (EESCO), 2015 International Conference on 1-6. IEEE.

[19] Fersi G. (2015). Middleware for internet of things: A study. In Distributed Computing in Sensor Systems (DCOSS), 2015 International Conference on 230-235. IEEE.

[20] Josyula SK, Gupta D. (2016). Internet of things and cloud interoperability application based on Android. In Advances in Computer Applications (ICACA), IEEE International Conference on 76-81. IEEE.

[21] Tayur VM, Suchithra R. (2017). Review of interoperability approaches in application layer of Internet of Things. In Innovative Mechanisms for Industry Applications (ICIMIA), 2017 International Conference on 322-326. IEEE.

[22] Alexiou A, Raouf D, Liu CH, Zhang Y, Antón-Haro C, Aydin O, France NCSET. (2012). W3-IoT-ET 2012: WCNC 2012 workshop on internet of things enabling technologies, embracing machine-to-machine communications and beyond-Committees and welcome.

[23] Chen HC, Al Faruque MA, Chou PH. (2016). Security and privacy challenges in IoT-based machine-to-machine collaborative scenarios. In Hardware/Software Codesign and System Synthesis (CODES+ ISSS), 2016 International Conference on 1-2. IEEE.

[24] Kientopf K, Raza S, Lansing S, Güneş M. (2017). Service management platform to support service migrations for IoT smart city applications. In Personal, Indoor, and Mobile Radio Communications (PIMRC), 2017 IEEE 28th Annual International Symposium on 1-5. IEEE.

[25] Sun L, Wang J, Higgs R, Yang C. (2017). Analysis on the Application of Dense Storage Technology in Logistics Based on the IoT. In Computational Science and Engineering (CSE) and Embedded and Ubiquitous Computing (EUC), 2017 IEEE International Conference on 2: 214-218. IEEE.

[26] Hsu AP, Lee WT, Trappey AJ, Trappey CV, Chang AC. (2015). Using system dynamics analysis for performance evaluation of IoT enabled one-stop logistic services. In Systems, Man, and Cybernetics (SMC), 2015 IEEE International Conference on 1291-1296. IEEE.

[27] Lestari D, Wahyono ID, Fadlika I. (2017). IoT based Electrical Energy Consumption Monitoring System Prototype: Case study in G4 Building Universitas Negeri Malang. In Sustainable Information Engineering and Technology (SIET), 2017 International Conference on 342-347. IEEE.

[28] Medaglia CM, Serbanati A. (2010). An overview of privacy and security issues in the internet of things. In The Internet of Things 389-395. Springer, New York, NY.

[29] Borgia E. (2014). The Internet of Things vision: Key features, applications and open issues. Computer Communications 54: 1-31.

[30] Yong H, Pengcheng N, Fei L. (2013). Advancement and trend of internet of things in agriculture and sensing instrument. Transactions of the Chinese Society for Agricultural Machinery 44(10): 216-226.

[31] Dohr A, Modre-Opsrian R, Drobics M, Hayn D, Schreier G. (2010). The internet of things for ambient assisted living. In Information technology: New generations (ITNG), 2010 Seventh International Conference on 804-809. IEEE.

[32] Amadeo M, Campolo C, Molinaro A. (2014). Multi-source data retrieval in IoT via named data networking. In Proceedings of the 1st ACM Conference on Information-Centric Networking 67-76. ACM.

[33] Amadeo M, Campolo C, Molinaro A. (2014). Multi-source data retrieval in IoT via named data networking. In Proceedings of the 1st ACM Conference on Information-Centric Networking 67-76. ACM.

[34] Daubert J, Wiesmaier A, Kikiras P. (2015). A view on privacy & trust in IoT. In Communication Workshop (ICCW), 2015 IEEE International Conference on 2665-2670. IEEE.

[35] Hassanalieragh M, Page A, Soyata T, Sharma G, Aktas M, Mateos G, Andreescu S. (2015). Health monitoring and management using Internet-of-Things (IoT) sensing with cloud-based processing: Opportunities and challenges. In 2015 IEEE International Conference on Services Computing (SCC) 285-292. IEEE.

[36] Stojkoska BLR, Trivodaliev KV. (2017). A review of Internet of Things for smart home: Challenges and solutions. Journal of Cleaner Production 140: 1454-1464.

[37] De Silva LC, Morikawa C, Petra IM. (2012). State of the art of smart homes. Engineering Applications of Artificial Intelligence 25(7): 1313-1321.

[38] Yassein MB, Mardini W, Khalil A. (2016). Smart homes automation using Z-wave protocol. In Engineering & MIS (ICEMIS), International Conference on 1-6. IEEE.

[39] Yang C, Yuan B, Tian Y, Feng Z, Mao W. (2014). A smart home architecture based on resource name service. In Computational Science and Engineering (CSE), 2014 IEEE 17th International Conference on 1915-1920. IEEE.

[40] Ciabattoni L, Cimini G, Grisostomi M, Ippoliti G, Longhi S. (2014). An interoperable framework for home automation design, testing and control. In Control and Automation (MED), 2014 22nd Mediterranean Conference of 1049-1054. IEEE.

[41] Kamilaris A, Pitsillides A. (2013). Towards interoperable and sustainable smart homes. In IST-Africa Conference and Exhibition (IST-Africa) 1-11. IEEE.

[42] Koo J, Kim YG. (2017). Interoperability of device identification in heterogeneous IoT platforms. In Computer Engineering Conference (ICENCO), 2017 13th International 26-29. IEEE.

[43] Perumal T, Ramli AR, Leong CY. (2011). Interoperability framework for smart home systems. IEEE Transactions on Consumer Electronics 57(4).

[44] Bergmann OK, Hillmann T, Stefanie G. (2012). A CoAP-gateway for smart homes. In Computing, Networking and Communications (ICNC), 2012 International Conference on 446-450. IEEE.

[45] El K, Charbel YD, François-Gaël O. (2011). Dynamic service adaptation for plug and play device interoperability. In Proceedings of the 7th International Conference on Network and Services Management 46-55. International Federation for Information Processing.

[46] Kim JS, Kim SJ. (2011). An object-based middleware for home network supporting the interoperability among heterogeneous devices. In Consumer Electronics (ICCE), 2011 IEEE International Conference on 585-586. IEEE.

[47] Kim SJ, Seo HM, Park WC, Kim SD, Lee YS. (2011). Seamless Network Bridge for Supporting Interoperability UPnP-ZigBee. In Computers, Networks, Systems and Industrial Engineering (CNSI), 2011 First ACIS/JNU International Conference on 308-313. IEEE.

[48] Perumal T, Ramli AR, Leong CY, Mansor S, Samsudin K. (2008). Interoperability among heterogeneous systems in smart home environment. In Signal Image Technology and Internet Based Systems, 2008. SITIS'08. IEEE International Conference on 177-186. IEEE.

[49] Soliman M, Abiodun T, Hamouda T, Zhou J, Lung CH. (2013). Smart home: Integrating internet of things with web services and cloud computing. In 2013 IEEE 5th International Conference on Cloud Computing Technology and Science (CloudCom) 317-320. IEEE.

[50] Jabbar S, Farhan U, Shehzad K, Murad K, Kijun H. (2017). Semantic interoperability in heterogeneous IoT infrastructure for healthcare. Wireless Communications and Mobile Computing.

[51] Seo S, Kim J, Yun S, Huh J, Maeng S. (2015). HePA: hexagonal platform architecture for smart home things. In Parallel and Distributed Systems (ICPADS), 2015 IEEE 21st International Conference on 181-189. IEEE.

[52] Courreges S, Oudji S, Meghdadi V, Brauers C, Kays R. (2016). Performance and interoperability evaluation of radiofrequency home automation protocols and bluetooth low energy for smart grid and smart home applications. In Consumer Electronics (ICCE), 2016 IEEE International Conference on 391-392. IEEE.

[53] Palma L, Pernini L, Belli A, Valenti S, Maurizi L, Pierleoni P. (2016). IPv6 WSN solution for integration and interoperation between smart home and AAL systems. In Sensors Applications Symposium (SAS), 2016 IEEE 1-5. IEEE.

[54] Toschi GM, Campos LB, Cugnasca CE. (2016). An upnp architecture for interoperability in home area network. In Consumer Electronics (ISCE), 2016 IEEE International Symposium on 51-52. IEEE.

[55] Palma L, Pernini L, Belli A, Valenti S, Maurizi L, Pierleoni P. (2016). IPv6 WSN solution for integration and interoperation between smart home and AAL systems. In Sensors Applications Symposium (SAS), 2016 IEEE 1-5. IEEE.

[56] Toschi GM, Campos LB, Cugnasca CE. (2016). An upnp architecture for interoperability in home area network. In Consumer Electronics (ISCE), 2016 IEEE International Symposium on 51-52. IEEE.

[57] An J, Hwang J, Song J. (2016). Interworking technique and architecture for connecting LAN IoT devices towards standardized IoT service layer platform. In Consumer Electronics, 2016 IEEE 5th Global Conference on 1-2. IEEE.

[58] Wu CL, Liao CF, Fu LC. (2007). Service-oriented smart-home architecture based on OSGi and mobile-agent technology. IEEE Transactions on Systems, Man, and Cybernetics, Part C (Applications and Reviews) 37(2): 193-205.

[59] Han DM, Lim JH. (2010). Smart home energy management system using IEEE 802.15. 4 and zigbee. IEEE Transactions on Consumer Electronics 56(3): 1403-1410.

[60] Xiao G, Guo J, Da XL, Gong Z. (2014). User interoperability with heterogeneous IoT devices through transformation. IEEE Trans. Industrial Informatics 10(2): 1486-1496. 

[61] Kim JE, Boulos G, Yackovich J, Barth T, Beckel C, Mosse D. (2012). Seamless integration of heterogeneous devices and access control in smart homes. In Intelligent Environments (IE), 2012 8th International Conference on 206-213. IEEE.

[62] Leong CY, Ramli AR, Perumal T. (2009). A rule-based framework for heterogeneous subsystems management in smart home environment. IEEE Transactions on Consumer Electronics 55(3).

[63] Perumal T, Ramli AR, Leong CY, Mansor S, Samsudin K. (2008). Interoperability for smart home environment using web services. International Journal of Smart Home 2(4): 1-16.

[64] Iqbal A, Ullah F, Anwar H, Kwak KS, Imran M, Jamal W, ur Rahman A. (2018). Interoperable Internet-of-Things platform for smart home system using Web-of-Objects and cloud. Sustainable Cities and Society 38: 636-646.

[65] Capitanelli A, Papetti A, Peruzzini M, Germani M. (2014). A smart home information management model for device interoperability simulation. Procedia CIRP 21: 64-69.

[66] Song HY, Park J. (2006). Design of an interoperable middleware architecture for digital data broadcasting. IEEE Transactions on Consumer Electronics 52(4).

[67] Moon KD, Lee YH, Lee CE, Son YS. (2005). Design of a universal middleware bridge for device interoperability in heterogeneous home network middleware. IEEE Transactions on Consumer Electronics 51(1): 314-318.

[68] Kim JE, Barth T, Boulos G, Yackovich J, Beckel C, Mosse D. (2017). Seamless integration of heterogeneous devices and access control in smart homes and its evaluation. Intelligent Buildings International 9(1): 23-39.

[69] HB L, Ding XK, Wang T. (2016). Research and implementation of smart home system based on ARM and ZigBee. Review of Computere Engineering Studies 3(4): 86-89. https://doi.org/10.18280/rces.030402

[70] Gupta ASB, Thakur SS. (2017). Cloud computing: its characteristics, security issues and challenges. Review of Computere Engineering Studies 4(2): 76-81. https://doi.org/10.18280/rces.040207