Abstract
Internet of things due to its profound capability has been responsible for the innovative transformations in lifestyles of human. We propose a system for the smart office environment using the Internet of things. Our developed system configuration provides a comfort of handling smart office environment using Google Voice Over Protocol and Android-based application. Use of lightweight MQTT protocols, high-frequency RF trans-receivers, Raspberry 2 Z-wave-based long distance controllers makes this system feasibly suitable for wider office areas. For low power consumption, high performance and immediate time-to-time response QoS parameters, the system is equipped with PIR, gas, flame, sound, light, temperature and humidity sensors. We ensure reliable communication with a separate channel for every sensor signals, secured with AES encryption and plug-and-play provisions. Further, mail-based anomaly or emergency alert notification is also incorporated. Finally, we have performed the experiment and also tested the developed system in Android phones and smart wear watch, namely Moto360 Watch.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Durand M (1999) Smart office: an intelligent and interactive environment. In: Proceedings of 1st international workshop on managing interaction in smart environments, Dublin, pp 104–113, R.I, 997
Domaszewicz J, Lalis S, Pruszkowski A, Koutsoubelias M (2016) Soft actuation: smart home and office with human-in-the-loop. IEEE Pervasive Comput 15(1)
Olivieri AC, Rizzo G, Morard F (2015) A publish-subscribe approach to IoT integration: the smart office use case. In: INSPEC Accession Number-15107080, Advanced Information Networking and Applications Workshops (WAINA) IEEE Conference on Networking
Foster TW, Bhatt DV, Hancke GP, Silva B (2016) A web-based office climate control system using wireless sensors. IEEE Sens J 16(15):6104–6113
Sanoob AH, Roselin J, Latha P (2016) Smartphone enabled intelligent surveillance system. IEEE Sens J 16(5) 1361–1367
Furdik K, Lukac G, Sabol T, Kostelnik P (2013) The network architecture designed for an adaptable IoT-based smart office solution. Int J Comput Netw Commun Secur 1(6):216–224
Nati M, Gluhak A, Domaszewicz J, Lalis S, Moessner K (2014) Lessons from smartcampus: external experimenting with user-centric internet-of-things testbed. Wireless Pers Commun 93(3):709–723
Prasad DVV, Priya RP, Jaganathan S (2016) An innovative cloud framework for tracking and monitoring assets in smarter campus using RFID. Asian J Technol 15(11):1713–1722, ISSN: 1682-3915
Zanella A, Bui N, Castellani A, Vangelista L, Zorzi M (2014) Internet of things for smart cities. IEEE Internet Things J 1(1):22–32
Muralidhara KN, Bhoomika BK (2015) Secured smart healthcare monitoring system based on Iot. Int J Recent Innov Trends Comput Commun 3(7):4958–4961. ISSN: 2321-8169
Lucke JV (2016) Smart government—the potential of intelligent networking in government and public administration. In: 2016 conference for e-democracy and open government (CeDEM)
Ghazal B, Elkhatib K, Chahine K, Kherfan M (2016) Smart traffic light control system. In: 2016 third international conference on electrical, electronics, computer engineering and their applications (EECEA)
Hayajneh AM, Zaidi SAR, Mclernon DC, Ghogho M (2016) Drone empowered small cellular disaster recovery networks for resilient smart cities. In: 2016 IEEE international conference on sensing, communication and networking (SECON Workshops)
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2019 Springer Nature Singapore Pte Ltd.
About this paper
Cite this paper
Padma Priya, R., Marietta, J., Rekha, D., Chandra Mohan, B., Amolik, A. (2019). IoT-Based Smart Office System Architecture Using Smartphones and Smart Wears with MQTT and Razberry. In: Kulkarni, A., Satapathy, S., Kang, T., Kashan, A. (eds) Proceedings of the 2nd International Conference on Data Engineering and Communication Technology. Advances in Intelligent Systems and Computing, vol 828. Springer, Singapore. https://doi.org/10.1007/978-981-13-1610-4_63
Download citation
DOI: https://doi.org/10.1007/978-981-13-1610-4_63
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-13-1609-8
Online ISBN: 978-981-13-1610-4
eBook Packages: EngineeringEngineering (R0)