Badminton shu し tlecock ls light mass , which is strongly influenced by air rcsis [ ance and that the wing Df the skirt ca 冂 bc easily broken . The highest initial veloci [ y of the shutt ] ecock cxceeds 300km 〆 11r for a professiDnal badminton player 、 In lhc prcscn [ study , [ he shoDting performance of the badminten nlachine developed by 1hc au 由 or is examined . Finitc clement models of a feather shutLlecock and [ he badminton machine wjth two rollers are madc , and the shooting simu ] ations prDceed with the moving bchavior and co 冂 tacl s [ress ofthc shuttlecQck . Th ¢ coefflcient of friction js oxamined from the surfaces in contact with 山 c shu 田 ccock and the roller irl the ana ] ysis . From the analysis , it ls shown tha[the ro ] ler with a small diameter attains thc 】 ower speed Df し he shuttlccock tllan the Dther ro ] 1ers for c >ery shot . The taper angles of the ro ] ler edge and the inser ヒ height of the shutt ] ecock are optimized tha[ the shuttlecock speeds arc maximized by the shooting simulation and the response surface apprDach . The validity of the optimum condition is confirmcd by 由 e correspDnding shot experiments using the two − roller type badmin[on machi ロ e ,
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