1 |
Choi, W. C., D. C. Kim, I. H. Ryu and K. U. Kim. 2002. Development of a seedling pick-up device for vegetable transplanters. Transactions of American Society of Agricultural and Biological Engineers 45(1):13-19.
|
2 |
Feng, D., W. Geng and D. Zunyuan. 2000. Study on block seedling transplanter with belt feeding mechanism. Transactions of Chinese Society of Agricultural Machinery 31(2):42-45.
|
3 |
Harrison, R., D. Harrison and P. B. Zuhoski Jr. 1990. Computer operated automatic seedling plant transplanting machine. United States Patent application 4947579, 14 Aug.
|
4 |
Kim, H. J., S. H. Park and T. Y. Kwak. 2001. Development of an automatic transplanter for cabbage cultivation. Seoul, Korea: Korea Automatic Dynamic Analysis of Mechanical Systems Conference, 8-9 Nov.
|
5 |
Kumar, G. V. P. and H. Raheman. 2008. Vegetable transplanters for use in developing countries-a review. International Journal of Vegetable Science 14(3):232-255.
DOI
|
6 |
Kumar, G. V. P. and H. Raheman. 2011. Development of a walk-behind type hand tractor powered vegetable transplanter for paper pot seedlings. Biosystems Engineering 110:189-197.
DOI
|
7 |
Langhaar, H. L. 1980. Dimensional analysis and theory of models. New York: Krieger Pub. Co.
|
8 |
Manes, G. S., A. K. Dixit, A. Sharda, S. Singh and K. Singh. 2010. Development and evaluation of tractor operated vegetable transplanter. Agricultural Mechanization in Asia Africa and Latin America 41(3):89-92.
|
9 |
Mohanty, D. K., M. Mahapatra and D. Behera. 2015. Effect of selected parameters on tray angle for smooth dropping of seedlings in semi-automatic vegetable transplanter. Agricultural Engineering 1:41-49.
|
10 |
Munilla, R. D. and L. N. Shaw. 1987. A high speed dibbling transplanter. Transactions of American Society of Agricultural and Biological Engineers 30(4):904-908.
DOI
|
11 |
Nandede, B. M., R. Kumar and D. Padhee. 2013. Evaluation of multistage automatic vegetable transplanter (MAVT) for pot seedlings of tomato. BIOINFOLET-A Quarterly Journal of Life Sciences 10(1b):193-195.
|
12 |
Narang, M. K., I. S. Dhaliwal and G. S. Manes. 2011. Development and evaluation of a two row revolving magazine type vegetable transplanter. Journal of Agricultural Engineering 48(3):1-7.
|
13 |
Parish, R. L. 2005. Current developments in seeders and planters for vegetable crops. HortTechnology 15(2):1-6.
|
14 |
Park, S. H., J. Y. Kim, D. K. Choi, C. K. Kim, T. Y. Kwak and S. C. Cho. 2005. Development of walking type Chinese cabbage transplanter. Journal of the Korea Society for Agricultural Machinery 30(2):80-81.
|
15 |
PAU. 2004. Report of the all India coordinated research project on farm implements and machinery. Ludhian, India: Punjab Agricultural University.
|
16 |
Phadke, M. S. 2009. Quality engineering using robust design (2nd ed.). London: Pearson.
|
17 |
Satpathy, S. K. and I. K. Garg. 2008. Effect of selected parameters on the performance of a semi-automatic vegetable transplanter. Agricultural Mechanization in Asia, Africa and Latin America 39(2):47-51.
|
18 |
Ross, P. J. 1998. Taguchi technique for quality engineering. New York: McGraw-Hill.
|
19 |
Roy, R. K. 2001. Design of experiments using the Taguchi approach: 16 steps to product and process improvement. New York: John Wiley and Sons.
|
20 |
Russo, V. M. 2006. Biological amendment, fertiliser rate and irrigation frequency for organic bell pepper transplant production. HortScience 41:1402-1407.
|
21 |
Singh, B., H. L. Yadav, M. Kumar and N. P. S. Sirohi. 2005. Effect of plastic plug-tray cell size and shape on quality of soilless media grown tomato seedlings. Acta Horticulturae 742:57-60.
|
22 |
Singh, S. 2008. Research highlights. All India coordinated research project on farm implements and machinery. Bhopal, India: Central Institute of Agricultural Engineering.
|
23 |
Sivakumar, S. and C. D. Durairaj. 2014. Development of a gravity fed automatic vegetable transplanter. International Journal of Agricultural Engineering 7(1):177-179.
|
24 |
Srivastava, A. K., C. E. Goering, R. P. Rohrbach and D. R. Buckmaster. 2006. Engineering Principles of agricultural machines. St. Joseph: American Society of Agricultural and Biological Engineers.
|