International Journal of Radio Frequency Design

Open Access  Subscription or Fee Access

ABSTRACT
Advancement in technology has made our lives easier. Internet has also become an important part of our daily routine with the increase in number of users. Managing kitchen through automated technology is also on such area where internet, wireless sensor networks are helpful. It can control the basic kitchen functions though not being physically present at home. The market of smart kitchen is expected to cross a mark of USD 7 billion by 2020. The machine can monitor the status of kitchen and send an alert information via IOT network instantly, when the conditions get abnormal to the concerned user. The system primarily monitors kitchen atmosphere parameters for example room temperature, Liquefied petroleum gas (LPG) gas level and grain depletion information and continues to be developed.

Keywords: Arduino, LM35, MQ5, Smart Kitchen

Cite this Article: Nikita Singh, Somya Vats, Neha kumari Singh, Srajal Rawat. Design and Implementation of Smart Kitchen International Journal of Radio Frequency Design. 2019; 5 (1) 14–20p

Hanwei Electronics CO., LTD, “MQ-5 GAS Sensor,” Technical Datasheet, pp. 1-2, May 2011

D. Surie, O. Laguionie, and T. Pederson, “Wireless sensor networking of everyday objects in a smart home environment,” in Proc. Int.Conf. Intel. Sensors, Sensor Network. Inf. Process., 2008, pp. 189–194.

A. Sang, H. Lin, and C. E. Y. Z. Gouo, “Wireless Internet-based measurement architecture for air quality monitoring,” in Proc. 21st IEEEIMTC, May 18–20, 2004, vol. 3, pp. 1901–1906.

A. Talgeri, A. Kumar B A and A. B, "Domotics – A Cost Effective Smart Home Automation System Using Wifi as Network Infrastructure", Int. Journal of Engineering Research and Applications, vol. 4, no. 8, pp. 52-55, 2014.

R. Kamoda, M. Ueda, T. Funatomi, M. Iiyama and M. Minoh, "Grocery Re-identification is using Load Balance Feature on the Shelf for Monitoring Grocery Inventory."

R. S. Singh, B. S. Saini, R. K. Sunkaria “Time-varying spectral coherence investigation of cardiovascular signals based on energy concentration in healthy young and elderly subjects by the adaptive continuous Morlet wavelet transform” Innovation and Research in Biomedical Engineering, Elsevier, 2018, 39 (1), 54–68.

Ram Sewak Singh, Barjinder Singh Saini, Ramesh Kumar Sunkaria “Classification of cardiac heart disease using reduced chaos features and 1-norm linear programming extreme learning machine” International Journal for Multiscale Computational Engineering, 16(5): 465–486 (2018).

Ram Sewak Singh, Barjinder Singh Saini, Ramesh Kumar Sunkaria “Detection of coronary artery disease by reduced features and extreme learning machine” Culuja Medical Journal, 2018, 91(2), 166-175.

Ram Sewak Singh, Barjinder Singh Saini, Ramesh Kumar Sunkaria “Assessment of cardiac heart failure and cardiac artery disease by the higher order spectra” Biomedical Engineering, 2018, 30(1), 18500161-9.

Ram Sewak SINGH, Barjinder Singh SAIN, Ramesh Kumar SUNKARIA “Power spectral analysis of short-term heart rate variability in healthy and arrhythmia subjects by the adaptive continuous Morlet wavelet transform”. Applied Medical Informatics, 2018, 39 (3) 49-66.

Cite this Article: Nikita Singh, Somya Vats, Neha kumari Singh, Srajal Rawat. Design and Implementation of Smart Kitchen International Journal of Radio Frequency Design. 2019; 5 (1) 14–20p