Voice Recognition Based Device Controlled Module
DOI:
https://doi.org/10.61841/d40ngs38Keywords:
Voice command, Google assistant, appliances, controlAbstract
The This is an intelligent home mechanization frame work that is exceptional in its own particular manner that is not normal for some other existing home mechanization frame works that have been made before hand this undertaking centres around controlling those gadgets utilizing voice acknowledgement that is accomplished by using the publicity-released API of Google, Inc. Home computerization advances presented over these years, from Zigbee mechanization to amazon Echo. Google Home and home from apple. Google home value is around 150$(USD) with an extra expense of gadgets to be associated with, the complete expense of the frame work comes to over 250$(USD); and the Apple home kit is also really progressively costly. More than US$ 100 (USD) for easy maintenance only than the Google Home. Apple's Voice Assistant is priced at about 44 $ (USD) per device, which is a bright light limited by Search's google assistant Amazon Echo and Siri. Home can be computerized inside 10$ (USD) and can control up to 8 apparatuses.Natural language voice directions are given to the Google Assistance of IFTTT (If This Then That) application The directions are decoded and afterward sent to the microcontroller, The microcontroller thusly controls the transfers associated with it as required, turning the gadget associated with the individual hand-off ON or OFF according to the clients request to the Google Assistant. The microcontroller utilized is Node Mcu (ESP8266) and the correspondence between the microcontroller and the application is set up by means of Wi-Fi (Internet).
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References
1. Manish Prakash Gupta, “Google Assistant Controlled Home Automation," International Research of the Journal of Engineering and Technology, volume 5.
2. Srinath, Mummaka Sai, Manepalli Nanda Kishore, and MD Anto Praveena. "Interactive home automation system with Google Assistant." International Journal of Pure and Applied Mathematics 119.12 (2018):14083-14086.
3. Khan A., Prakash G., “Design and implementation of smart glass with voice detection capability to help visually impaired people." International Journal of MC Square Scientific Research. Vol. 9, no. 3, pp. 53-59, 2017.
4. Patchava, Vamsikrishna, Hari Babu Kandala, and P. Ravi Babu. "A smart home automation technique with Raspberry Pi using IoT." 2015 International conference on smart sensors and systems (IC-SSS). IEEE, 2015.
5. https://codeometry.in/home-automation-using-nodemcu-and-google-assistant/
6. IFTTT: https://ifttt.com/discover https://www.pocketlint.com/SmartHome/SmarHomenews
7. Blynk : https://www.blynk.cc/ https://docs.blynk.cc/
8. NodeMCU: https://nodemcu.readthedocs.io/en/master https://iotbytes.wordpress.com/nodemcupinout
9. Google Assistant: https://assistant.google.com/intl/en_in/
10. ULN2803 IC working: http://www.gadgetronicx.com/working-of-uln2803-ic/
11. R. Puviarasi, Mritha Ramalingam, and Elanchezhian Chinnavan, "Self-Assistive Technology for Disabled People: Voice-Controlled Wheelchair and Home Automation System,” International Journal of Robotics and Automation (IJRA), Vol. 3, No. 1, March 2014, pp. 30~38. ISSN: 2089-4856.
12. Simpson RC, Levine SP. “Voice control of a powered wheelchair." IEEE Trans Neural System Rehabilitation Eng. 2000; 10: 122-125.
13. Kang, Byeongkwan, et al., "IoT-based monitoring system using a tri-level context-making model for smart home services." 2015 IEEE International Conference on Consumer Electronics (ICCE). IEEE, 2015.
15. http://developer.android.comltools/studio/index.html
16. JeyaPadmini, K.R.Kashwan, "Effective Power Utilization and Conservation in Smart Homes Using LoT,", 2015 International Conference on Computation of Power, Information and Communication, 2015
17. http://smartcities.gov.in/
18. Kamilaris, Andreas, and Andreas Pitsillides. "Towards interoperable and sustainable smart homes." 2013 IST-Africa Conference & Exhibition. IEEE, 2013.
19. Gaikwad, Pranay P., Jyotsna P. Gabhane, and Snehal S. Golait. "A survey based on smart home systems using the Internet of Things." 2015 International Conference on Computation of Power, Energy, Information, and Communication (ICCPEIC). IEEE, 2015.
20. AJ, E., and M. Jagadeeswari. "Control of Electrical Appliances through Voice Commands." IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE) 9.1.
21. Baig, Faisal, Saira Beg, and Muhammad Fahad Khan. "Controlling home appliances remotely through voice command." arXiv preprint arXiv: 1212.1790 (2012).
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