1.Aware, A.M. and Belorkar, U. 2017 Design of Milkotester for Fat and CLR Measurement using Arduino Microcontroller. I. Adv. Res. J. Sci. Engi. Tech., 4(5): 14-17.

2.Aware, A.M. and Belorkar, U. 2017. Design of Milk Analysis System for Dairy Farmers Using Embedded System. Int. J. Innov. Re. Ele. Electro. Instrumen. Control Engg., 5(5) : 11-16.

3.Unnikrishnan, A., Ravindran, A., Sreedhar, A. and Kuruvila, S.V. 2015. Electro-Milktestera Novel Method for Analysis of Milk Quality. Int. J. Innov. Res. Sci. Eng. Technol., 2(04): 103-108.

4.Borecki, M., Szmidt, M., Paw, M., K, Beb, M., Niemiec, T. and Wrzosek, P. 2017. “A method for testing the quality of milk using optical capillaries. Photonics Letters of Poland, 1(2): 37–39.

5.Brennan, D., Alderman, D., Sattler, L., Connorb, B. and Mathunaa, C. 2003. Issues in development of NIR micro spectrometer system for on-line process monitoring of milk product. Measurement, 33(1): 67-74.

6.Brown, J.V., Ranjith. H.M.P. and Prentice, G.A. 2018. Comparative shelf-lives of skimmed, semi-skimmed and whole milks. Int. J. D. Tech., 37(4): 2–5.

7.Chavan, R. and Patil, U.V. 2019. Comprehensive Assessment of Various Milk Parameters Using Embedded and IoT Based Systems. Int. J. Sci. Adv. Res. Technol., 5(7): 42-46.

8.Bhade, Dobariya, S.J., Landge, S.S., Babhale, P.D. and Atmande, V.M. 2019. Implementation of IoT based Milk Quality Analyzer using AVR Microcontroller. J. Emerg. Technol. Innov. Res., 6(5): 54-61.

9.Mahale, S., Deshmukh, S., Nakhate A., Ambure A. and Chavan K. 2018. Smart Milk Quality Detection System. Int. J. Res. Engi. Applic. Manag. ICRTET180 : 918-919.

10.M Sujatha, P. Nagarjuna, A. Bala Sai Ram, A. Hemanth Venkata Sai, K. Tarun, Sk Hasane Ahammad. 2019. Visible Spectroscopy Analysis of Fat Content in Milk using Lab View. Int. J. R. Tech. Eng., 7(5S4): 746-750.

11.Khera, N., Kumar, A., Fajr, F. and Khajwal, T.N. 2019. Microcontroller Based Parametric Data Monitoring and Quality Analysis of Milk. 2019 International Conference on Issues and Challenges in Intelligent Computing Techniques, Ghaziabad, India. 1-3: http:///dx.doi.org/10.1109/ ICICT46931.2019.8977704

12.Rajakumar, G., D.A. Kumar, D.T. Samuel, E. Muthu and Kumaran. 2018. IoT Based Milk Monitoring System for Detection of Milk Adulteration. Int. J. P A. Math., 118(6): 21-32.

13.Mukhopadhyay, S.C., Gooneratne, C.P., Demidenko, S. and Gupta, G.S. 2005. Low-Cost Sensing System for Dairy Products Quality Monitoring. 2005 IEEE Instrumentation and Measurement Technology Conference Proceedings. 244- 249: http://dx.doi.org/10.1109/IMTC.2005.1604109

14.Thanedar, P., Pol, S., Shinde, A., Mayekar, A. and Shinde, S. 2018. Enhanced Automation of Milk Analyzer Using Internet of Things (IoT) and Data Mining. Int. J. I. I. Res. Dev., 03(1): 12-17.

15.Yadav, S.N., Kulkarni, V.A. and Gholap, S.G. 2012. Design of Milk embedded system for dairy farmers. Int. J. Elec. C. Engi. Tech., 3(2): 497-500.

16.Bhamre, Y.R., Matsagar, M.B. and Bighavkar, C.G. 2016. Quantitive and Qualitative Analysis of Milk Parameters using Arduino Controller. Int. J. A. Res. Comp. Comm. Eng., 5(8) : 46-49.