Efficiency and Cost-effectiveness Analysis of Developed Embedded System-Controlled Seed and Fertilizer Applicator
Pradeep Kumar
Division of Agricultural Engineering, ICAR-IARI, New Delhi,110012, India.
H. L. Kushwaha *
Division of Agricultural Engineering, ICAR-IARI, New Delhi,110012, India.
Adarsh Kumar
Division of Agricultural Engineering, ICAR-IARI, New Delhi,110012, India.
Roaf Ahmad Parray
Division of Agricultural Engineering, ICAR-IARI, New Delhi,110012, India.
Teekam Singh
Division of Agronomy, ICAR-IARI, New Delhi,110012, India.
M.C. Meena
Division of Soil Science and Agricultural Chemistry, ICAR-IARI, New Delhi,110012, India.
Susheel Kumar Sarkar
Division of Agricultural Statistics, ICAR-IARI, New Delhi,110012, India.
Madhusudan B.S.
Division of Agricultural Engineering, ICAR-IARI, New Delhi,110012, India.
Sunil Kumar Rathod
Division of Agricultural Engineering, ICAR-IARI, New Delhi,110012, India.
*Author to whom correspondence should be addressed.
Abstract
In maize cultivation, the labour-intensive, time-consuming, and costly nature of manual planting necessitates the exploration of mechanized solutions. This study presents a comprehensive economic evaluation of an embedded system-controlled seed cum fertilizer applicator as a potential answer to these challenges. Precise planting methods offer a multi-pronged approach, aiming to reduce cultivation costs, minimize time requirements, and improve worker comfort during planting operations. By meticulously analyzing both ownership and operational expenses, this study empowers farmers with the knowledge necessary to make informed decisions. These decisions could involve adopting the precise seed cum fertilizer applicator technology, optimizing existing machinery, or exploring alternative methods to achieve enhanced farm productivity and financial gains. The embedded system-controlled seed cum fertilizer applicator was directly compared to traditional manual planting methods. This analysis revealed ownership and operating costs of 9.56 Rs/h and 63 Rs/h, respectively. The compelling findings demonstrated a remarkable 96.87% reduction in planting time and a 55.47% cost decrease when utilizing the embedded system compared to manual methods. These results highlight the significant cost-effectiveness and environmental benefits associated with adopting this precise planting system. This research offers valuable insights to farmers, potentially promoting the integration of advanced agricultural technologies that can optimize resource utilization, improve operational efficiency, and contribute to the implementation of sustainable farming practices.
Keywords: Break-even point, cost economics, embedded system-controlled seed cum fertilizer applicatoroperating cost, ownership cost, payback period