Trends in Machine Design

A role of Agriculture is so critical in the Indian economy. Over the last few decades, Indian
agriculture has recorded good growth. Implementing done in this area. The multipurpose farming
robot is a fundamental anew ideas in this field is very important, although a lot of work has been d
major agricultural machine for full yield. Weeding, sowing seeds and spraying pesticides is the
conventional method in agriculture. In India, bullocks, horses, and buffalo are still used by many
farmers for agricultural operations. This would not satisfy the need for agricultural energy needs, in
comparison to other countries around the world. To reduce the man power we are employing this
prototype and which will fulfil all requirements and problems in real life. India is a country focused
on agriculture in which 70% of individuals rely on the results of farming. But if we observe that with
population growth the farm is spread among the family and because of this, farmers in India kept only
two acres of farm on average. Economically, farmers are still very poor because they are unable to
afford tractors and other expensive machinery, so they use conventional farming methods. So, we are
designing this machinery that will fulfil all this need and solve the problem of labor.

Yorozu T, Hirano M, Oka K, Tagawa Y. Electron spectroscopy studies on magneto-optical media and plastic substrate interface. IEEE Transl J Magn Jpn. 1987;2(8):740–1. doi: 10.1109/TJMJ.1987.4549593.

Zakiuddin KS, Modak JP. Design and development of the human energized chaff cutter. New York science journal. 2010.

Khope PB, Modak JP. Development and performance evaluation of a human powered flywheel motor operated forge cutter. Int J Sci Technol Res. 2013;2(3):146–9.

Khan AS, Salim M. Rice harvesting and threshing. Pak J Food Sci. 2005;15(1–2):45–52.

Bhargavi P, Jyothi S. Soil classification using data mining techniques: a comparative study. Int J Eng Trends Technol. 2011;2:5558.

Shivaprasad BS, Ravishankara MN, Shoba BN. Design and implementation of seeding and fertilizing agriculture robot. International Journal of Application or Innovation in Engineering & Management (IJAIEM). 2014;3(6):251–5.

Joshua R, Vasu V, Vincent P. Solar sprayer-an agriculture implement. Int J Sustain Agric. 2010;2(1):16–9.

M. A. Miller, B. L. Steward, M. L. Westphalen. Effects of multi-mode four-wheel steering on sprayer machine performance. Trans ASAE. 2004;47(2):385–95. doi: 10.13031/2013.16032.

Fox RD, Derksen RC, Cooper JA, et al. Visual and image system measurement of spray deposits using water–sensitive paper. Appl Eng Agric. 2003;19(5):549.

Raut LP, Jaiswal SB, Mohite NY. Design, development and fabrication of agricultural pesticides sprayer with weeder. Int J Appl Res Stud. 2013;2(11).

Razali M. Sprayer technology for farm mechanization course. Tech J Eng Appl Sci. 2012;2(5):107–12.

Poratkar SH, Raut DR. Development of multinozzle pesticides sprayer pump. Int J Mod Eng Res. 2013;3(2):864–8.

Dursun M, Ozden S. Application of solar powered automatic water pumping in Turkey. Int J Comput Electr Eng. 2012;4(2):161.

Eker B. Solar powered water pumping systems. Trakia J Sci. 2005 Jan;3(7):7–11.

Ingale H, Kasat NN. Automated solar based agriculture pumping. Int J Adv Res Comput Sci Softw Eng. 2012;2(11).

Jivrag A, Chawre V, Bhagwat A. Solar operated multiple granulated pesticide duster. In: Proceedings of the world congress on engineering 2011. Vol. 3. p. 52–6.

Kwon J-M, Nam K-H, Kwon B-H. Photovoltaic power conditioning system with line connection. IEEE Trans Ind Electron. 2006;53(4):1048–54. doi: 10.1109/TIE.2006.878329.

Ganesh K, Girisha S, Kannan GA. Embedded controller in farmers pump by solar energy. International journal of Instrumentation. Control Autom. 2011;1(2):77–81.

Krishnan SM, Sivagnanam V, Mathew SA. Residential solar cooker. Int J Sci Res Publ. 2012.

Stobdan T, Angmo S, Angchok D, et al. Vegetable production scenario in trans-Himalayan Leh Ladakh region, India. Def. Life Sci J. 2018;3:85–92.