Abstract
In today’s world, there is a necessity for innovation that is helpful to the society. IOT is a leading field that encourages the development of products that automate a variety of tasks. IOT refers to a network of devices that are connected through the Internet and are capable of executing tasks, minimizing human involvement. When applied in the right direction, IOT enabled devices are very useful for people with disabilities. The paper focuses on this aspect of IOT and uses the principle to develop a device that will assist individuals with mobility impairment. The proposed device is mainly divided into two segments. The hardware segment includes an Arduino, smart light bulb and a channel relay. The software portion consists of the IOT and cloud platform and an app which is specifically developed for this purpose. The main function of this device is to detect specific words in a person’s voice and accordingly activate or deactivate the smart device, creating a smart home environment. Initially, this will be put into practice using a light bulb. The app will be developed using Java programming language. The most distinguishing feature of the application will be the presence of a microphone which will be the means by which commands are given. The light bulb and the mobile phone will also be fitted with Bluetooth and Wi-Fi modules to maximize the speed of transmission. Particular care will also be given to noise sensitivity and speedy transmission. The proposed device can also be customized to include a variety of appliances such as fans, air conditioners etc. A provision for increased safety is considered where the application only responds to a particular voice.
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References
Y. Krishna, S. Nagendram, ZIGBEE based voice control system for smart home. Int. J. Comput. Technol. Appl. 03
M. Kumar, P. Ramu, C.H.A.S. Murty, E. Magesh, R. Lunagariya, Mobile based home automation using Internet of Things (IoT), pp. 340–343. https://doi.org/10.1109/ICCICCT.2015.7475301
Ç. Aykut, M. Kuncan, K. Kaplan, H.M. Ertunç, Development of a voice-controlled home automation using Zigbee module, in 2015 23nd Signal Processing and Communications Applications Conference (SIU) (2015), pp. 1801–1804
K. Anitha, B. Theja, B. Thanuja, Home automation using voice via google assistant 11(4) (2020). ISSN NO:0377-9254
R. Iyer, A. Sharma, IoT based home automation system with pattern recognition. Int. J.Rec. Technol. Eng. (IJRTE) 8(2) (2019) ISSN: 2277-3878
Implementing home automation system using LabVIEW and GSM. Int. J. Emerg. Technol. Innov. Res. 4(5), 287–294 (2017). Available ISSN:2349–5162
B. Maram, J.M. Gnanasekar, G. Manogaran, M. Balaanand, Intelligent security algorithm for UNICODE data privacy and security in IOT. SOCA 13(1), 3–15 (2018). https://doi.org/10.1007/s11761-018-0249-x
T.N. Nguyen, B. Liu, N.P. Nguyen, J. Chou, Cyber security of smart grid: attacks and defences, in ICC 2020—2020 IEEE International Conference on Communications (ICC) (Dublin, Ireland, 2020), pp. 1–6. https://doi.org/10.1109/ICC40277.2020.9148850
Mafrur, Rischan, Fiqri Muthohar, M., Bang, Gi Hyun, Lee, Do Kyeong, and Choi, Deokjai (2015). Awareness home automation system based on user behavior through mobile sensing. 6th FTRA International Conference on Computer Science and its Applications, CSA 2014, Guam, 17–19 December 2014.(Springer, Dordrecht, Netherlands, 2014)
D. Kumar, R.K. Maurya, K. Dwivedi, IoT based home automation using computer vision. Int. J. Innov. Technol. Explor. Eng. (IJITEE) 8(12) (2019) ISSN: 2278-3075
W.N.A.A.W Husni, M. Faisal, P. Jern Ker, D.N.T. How, M.A. Hannan, M.A. Salam, Intelligent home automation system for disabled people. Int. J. Eng. Adv. Technol. (IJEAT) 9(2) (2019). ISSN: 2249-8958
S. Manohar et al., Email interactive home automation system. Int. J. Comput. Sci. Mobile Comput. 4(7), 78–87 (2015)
A. Shrivastav, T.Y.J. Riya Maurya, N. Malleswari, Iot audio analytics for automated safety system using deep learning techniques. Int. J. Adv. Sci. Technol. 29(05), 9818–9829 (2020)
K. Rahul, A. Singh, Throughput optimization for wireless information and power transfer in communication network, in 2018 Conference on Signal Processing And Communication. Engineering Systems (SPACES) (IEEE, 2018), pp. 1–5. https://doi.org/10.1109/SPACES.2018.8316303
C. Gaurav, A. Singh, R. Kumar, B.K.S. Deo, A. Sehgal, Energy efficient distributed clustering algorithm for improving lifetime of WSNs
S. Jacobs, C.P. Bean, Fine particles, thin films and exchange anisotropy, in Magnetism, vol. III, ed. by G.T. Rado, H. Suhl (Academic, New York, 1963), pp. 271–350
Home Automated Living website. [Cited 2010 14th Oct]. Available: http://www.homeautomatedliving.com/default.htm
L.R. Rabiner, R.W. Schafer, Digital Processing of Speech Signals (Prentice Hall Inc., New Jersey, US, 1978)
“XBee-2.5-Manual,” ZigBee RF communication protocol. (2008). Minnetonka: Digi International Inc.
B. Yukesekkaya, A.A. Kayalar, M.B. Tosun, M.K. Ozcan, A.Z. Alkar, A GSM, internet and speech controlled wireless interactive home automation system, in IEEE Transactions on Consumer Electronics (vol. 52, 2006), pp. 837–843
F.J. Owens, Signal Processing of Speech (McGraw-Hill Inc., New York US, 1993)
T.S. Ng, Microcontroller, in Studies in Systems, Decision and Control (2016)
L. Horsley, M.P. Foster, D.A. Stone, State-of-the-art piezoelectric transformer technology, in 2007 European Conference on Power Electronics and Applications, EPE (2007)
D.R. Tobergte, S. Curtis, Arduino Uno, J. Chem. Inf. Model. (2013)
C.N.T. Devidas, V.K.N. Ekoskar, HC-05 bluetooth module I interfaced with Arduino. Int. J. Sci. Eng. Technol. Res. (2016)
M. Spencer et al., Demonstration of integrated micro-electro- mechanical relay circuits for VLSI applications. IEEE J. Solid-State Circ. (2011)
D. Javale, M. Mohsin, S. Nandanwar, M. Shingate, Home automation and security system using android ADK. Int. J. Electron. Commun. Comput. Technol. (IJECCT) 3(2) (2013)
B. Pandya, M. Mehta, N. Jain, Android based home automation system using bluetooth & voice command. Int. Res. J. Eng. Technol. (IRJET) 3(3) (2016)
F. Baig, S. Beg, M.F. KhanInternational, Controlling home appliances remotely through voice command. J. Comput. Appl. (0975–888) 48(17) (2012)
S. Akhter, M.F. Arif, M. Nur-Amin, N. Mustafiz, R. Khan, S. Waliullah, K. Hossain, Voice controlled home appliances: the use of android phone. J. Mod. Sci. Technol. 4(1), 179–191 (2016)
N. Sriskanthan, T. Karand, Bluetooth based home automation system. J. Microproces. Microsyst. 26, 281–289 (2002)
M.I. Ramli, M.H.A. Wahab, Nabihah, Towards smart home: control electrical devices online, in Nornabihah Ahmad International Conference on Science and Technology: Application in Industry and Education (2006)
Al-Ali, Member, IEEE, M. AL-Rousan, Java-based home automation system R. IEEE Trans. Consumer Electron. 50(2) (2004)
G Pradeep, B. Santhi Chandra, M. Venkateswarao, Ad-Hoc Low Powered 802.15.1 Protocol Based Automation System for Residence using Mobile Devices, vol. 2 (Department of ECE, K L University, Vijayawada, Andhra Pradesh, India IJCST, SP 1, December 2011)
Universal Mobile Application Development (UMAD) On Home Automation, vol 2, no. 2 (Marathwada Mitra Mandal’s Institute of Technology, University of Pune, India Network and Complex Systems, 2012). ISSN 2224-610X (Paper) ISSN 2225-0603 (Online)
Voice-Controlled Home Automation System. http://electronicsforu.com/electronics-projects/voice-controlled-homeautomation-system
Arduino and Matlab interfacing via Bluetooth module. http://crackeconcept.blogspot.in/2014/03/arduinoand-matlab-interfacing-via.html
R. Mafrur, M.F. Muthohar, G.H. Bang, D. Kyeong Lee, D Choi, Awareness home automation system based on user behavior through mobile sensing, in J. Park, I. Stojmenovic, H. Jeong, G. Yi (eds.), Computer Science and its Applications. Lecture Notes in Electrical Engineering, vol 330 (Springer, Berlin, Heidelberg). https://doi.org/10.1007/978-3-662-45402-2_135
S. Sandeep, J. Singh, R. Kumar, A. Singh, Throughput-save ratio optimization in wireless powered communication systems, in 2017 International Conference on Information Communication, Instrumentation and Control (ICICIC), (IEEE, 2017), pp.1–6. https://doi.org/10.1109/ICOMICON.2017.8279031
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Mittal, S., Bharadwaj, T., Naga Malleswari, T.Y.J. (2022). Survey on Voice-Recognized Home Automation System Using IOT. In: Manogaran, G., Shanthini, A., Vadivu, G. (eds) Proceedings of International Conference on Deep Learning, Computing and Intelligence. Advances in Intelligent Systems and Computing, vol 1396. Springer, Singapore. https://doi.org/10.1007/978-981-16-5652-1_8
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