INFORMATION CHANGE THE WORLD

International Journal of Engineering and Manufacturing(IJEM)

ISSN: 2305-3631 (Print), ISSN: 2306-5982 (Online)

Published By: MECS Press

IJEM Vol.8, No.4, Jul. 2018

Internet of Things based system for Smart Kitchen

Full Text (PDF, 328KB), PP.29-39


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Author(s)

Jyotir Moy Chatterjee, Raghvendra Kumar, Manju Khari, Dao Thi Hung, Dac-Nhuong Le

Index Terms

Internet of Things;Blue ocean strategy;Dynamic capabilities;Changing environments;Business model;Kitchen and furniture industry

Abstract

This paper provides insight to the dynamics that come with the emergence of IoT in the furniture and kitchen manufacturing industry. By implementing the concept of IoT companies are currently evaluating how internal knowledge and skillsets correspond to the new technical requirements that the emerging digital setting outlines and by directing internal research they are learning more about IoT and connected products as they proceed. One current major problem is that there are no open protocols that can connect all products regardless of supplier. Nevertheless, implementation of IoT does not solely involve technical aspects and companies are also faced with the dilemma on how to design and develop corresponding commercial processes. To this point early product implementations have arrived on the consumer markets and the future vision is to achieve full integration that imbeds connectivity and interaction among all products in the home.

Cite This Paper

Jyotir Moy Chatterjee, Raghvendra Kumar, Manju Khari, Dao Thi Hung, Dac-Nhuong Le,"Internet of Things based system for Smart Kitchen", International Journal of Engineering and Manufacturing(IJEM), Vol.8, No.4, pp.29-39, 2018.DOI: 10.5815/ijem.2018.04.04

Reference

[1]Kiritsis, D. (2011). Closed-loop PLM for intelligent products in the era of the Internet of things. Computer-Aided Design, 43(5), 479-501.

[2]Eisenhauer, M., Rosengren, P., & Antolin, P. (2009, June). A development platform for integrating wireless devices and sensors into ambient intelligence systems. In Sensor, Mesh and Ad Hoc Communications and Networks Workshops, 2009. SECON Workshops' 09. 6th Annual IEEE Communications Society Conference on IEEE, 1-3.

[3]Weber, R. H. (2010). Internet of Things–New security and privacy challenges. Computer law & security review, 26(1), 23-30.

[4]Haller, S. (2010). The things in the internet of things. Poster at the (IoT 2010). Tokyo, Japan, November, 5(8), 26-30.

[5]Hong, S., Kim, D., Ha, M., Bae, S., Park, S. J., Jung, W., & Kim, J. E. (2010). SNAIL: an IP-based wireless sensor network approach to the internet of things. IEEE Wireless Communications, 17(6), 321-331.

[6]Tsado, J., Imoru, O., & Olayemi, S. O. (2014). Design and construction of a GSM based gas leak Alert system, 45-54.

[7]Guo, B., Zhang, D., Wang, Z., Yu, Z., & Zhou, X. (2013). Opportunistic IoT: Exploring the harmonious interaction between human and the internet of things. Journal of Network and Computer Applications, 36(6), 1531-1539.

[8]Apeh, S. T., Erameh, K. B., & Iruansi, U. (2014). Design and Development of Kitchen Gas Leakage Detection and Automatic Gas Shut off System. Journal of Emerging Trends in Engineering and Applied Sciences (JETEAS), 5(3), 222-228.

[9]Bello, O., & Zeadally, S. (2016). Intelligent device-to-device communication in the internet of things. IEEE Systems Journal, 10(3), 1172-1182.

[10]Sun, Y., Song, H., Jara, A. J., & Bie, R. (2016). Internet of things and big data analytics for smart and connected communities. IEEE Access, 4, 766-773.

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

[12]Kranz, M., Holleis, P., & Schmidt, A. (2010). Embedded interaction: Interacting with the internet of things. IEEE internet computing, 14(2), 46-53.

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

[14]Li, B., & Yu, J. (2011). Research and application on the smart home based on component technologies and Internet of Things. Procedia Engineering, 15, 2087-2092.

[15]Bandyopadhyay, S., Sengupta, M., Maiti, S., & Dutta, S. (2011). Role of middleware for internet of things: A study. International Journal of Computer Science and Engineering Survey, 2(3), 94-105.

[16]Tozlu, S., Senel, M., Mao, W., & Keshavarzian, A. (2012). Wi-Fi enabled sensors for internet of things: A practical approach. IEEE Communications Magazine, 50(6), 271-280.

[17]Ning, H., Liu, H., & Yang, L. T. (2013). Cyber entity security in the internet of things. Computer, 46(4), 46-53.

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

[19]Yashiro, T., Kobayashi, S., Koshizuka, N., & Sakamura, K. (2013, August). An Internet of Things (IoT) architecture for embedded appliances. In Humanitarian Technology Conference (R10-HTC), 2013 IEEE Region 10, 314-319.

[20]Perera, C., Jayaraman, P. P., Zaslavsky, A., Georgakopoulos, D., & Christen, P. (2014, January). Mosden: An internet of things middleware for resource constrained mobile devices. In System Sciences (HICSS), 2014 47th Hawaii International Conference on IEEE, 1053-1062.

[21]Jing, Q., Vasilakos, A. V., Wan, J., Lu, J., & Qiu, D. (2014). Security of the internet of things: Perspectives and challenges. Wireless Networks, 20(8), 2481-2501.

[22]Singh, D., Tripathi, G., & Jara, A. J. (2014, March). A survey of Internet-of-Things: Future vision, architecture, challenges and services. In Internet of things (WF-IoT), 2014 IEEE world forum, 287-292.

[23]Puustj?rvi, J., & Puustj?rvi, L. (2015). The role of smart data in smart home: health monitoring case. Procedia Computer Science, 69, 143-151.

[24]Li, S., Da Xu, L., & Zhao, S. (2015). The internet of things: a survey. Information Systems Frontiers, 17(2), 243-259.

[25]Soldatos, J., Kefalakis, N., Hauswirth, M., Serrano, M., Calbimonte, J. P., Riahi, M., Aberer, K., Jayaraman, Prem Prakash, Zaslavsky, A., Podnar?arko, I., Herzog, R. & Skorin-Kapov, L. (2015). Openiot: Open source internet-of-things in the cloud. In Interoperability and open-source solutions for the internet of things, Springer, Cham, 13-25.

[26]Surie D., O. Laguionie, T. Pederson (2008), Wireless sensor networking of everyday objects in a smart home environment‖, Proceedings of the International Conference on Intelligent Sensors, Sensor Networks and Information Processing- ISSNIP- 2008, 189 – 194. 

[27]Tsado J., O. Imoru, S.O. Olayemi (2014), Design and construction of a GSM based gas leak Alert system, IEEE Transaction,. IRJEEE, 1(1), 2-6.

[28]Eisenhauer M., P. Rosengren, P. Antolin (2011), A Development Platform for Integrating Wireless Devices and Sensors into Ambient Intelligence Systems, 1-3.

[29]Vision and Challenges for Realizing the Internet of Things, European Union 2010. 

[30]Dohr A., R. Modre-Opsrian, M. Drobics, D. Hayn, and G. Schreier (2010), The internet of things for ambient assisted living, in Information Technology: New Generations (ITNG), 2010 Seventh International Conference, 804–809

[31]Apeh S.T , Erameh K.B, Iruansi U., (2014) Design and Development of Kitchen Gas Leakage Detection and Automatic Gas Shut off System, Journal of Emerging Trends in Engineering and Applied Sciences (JETEAS) 5(3):222-228.

[32]Sahu K, Mazumdar MSG. (2012) Digitally Greenhouse Monitoring and Controlling of System based on Embedded System. International Journal of Scientific & Engineering Research, 3(1), 41-48.

[33]Yashiro T., Kobayashi S., Koshizuka N. and Sakamura K. (2016)“An Internet of Things (IoT) Architecture for Embedded Appliances”, YRP Ubiquitous Networking Laboratory, 28th Kowa Bldg , 2-20-1,Nishi Gotanda, Shinagawa-ku, Tokyo 14(1), 31-36. 

[34]Piyare R. and Ro Lee S. (2016)” Smart Home Control and monitoring System using Smart phones” Department of Information Electronics Engineering, Mokpo National University Mokpo, South Korea, 534-729.

[35]ABI Research, 2013. More than 30 billion devices will wirelessly be connected.

[36]Zhang, G., & Liu, J. (2012). The study of access control for service-oriented computing in internet of things. International Journal of Wireless and Microwave Technologies (IJWMT), 2(3), 62.

[37]Faisal, H., Usman, S., & Zahid, S. M. (2018). In What Ways Smart Cities Will Get Assistance from Internet of Things (IoT).

[38]Kumar, R., Le, D. N., & Chatterjee, J. M. (2018). Validation Lamina for Maintaining Confidentiality within the Hadoop. International Journal of Information Engineering and Electronic Business, 10(2), 42.

[39]Puar, V. H., Bhatt, C. M., Hoang, D. M., & Le, D. N. (2018). Communication in Internet of Things. In Information Systems Design and Intelligent Applications (pp. 272-281). Springer, Singapore.

[40]Nayyar, A., Puri, V., & Le, D. N. (2017). Internet of Nano Things (IoNT): Next Evolutionary Step in Nanotechnology. Nanoscience and Nanotechnology, 7(1), 4-8.