Kinematic Analysis of A 4-Axis Manipulator Design with 2-Axis Gripper
The purpose of this work is to analyze the kinematic of a manipulator that was designed to has four revolute movements (R1, R2, R3 and R4) and is equipped with a gripper that has one revolute movement (R) and one prismatic movement (P). The analysis was conducted by varying R1, R2, R3 and R4 of manipulator and R and P of gripper. Kinematic analysis was carried out using the Forward Kinematics method based on DH-Parameters of manipulator and gripper. Manipulator was designed to be consist of 120 mm of Link-1, 200 mm of Link-2, 250 mm of Link-3 and 250 mm of Link-4. Revolute movements range of manipulator was designed for variation of R1, R2, R3 and R4, and with movements range of gripper for variation of R and P. From this work can be concluded that manipulator has 228.5 mm of minimum range radius of end-effector and 547.0 mm of maximum range radius of end-effector.
. F. Afrianto (2011, Juni 18), “Sejaran dan Perkembangan Robot,” Retrieved April 02, 2017, from Teknonlogi Bidang Robotik: robot-q.blogspot.co.id
. E. M. Petriu, “Robotics Introduction, Manipulator Arms,” diakses pada http://www.site.uottawa.ca/~petriu/CEG4392-IntroRobotics-Arms.pdf
. Y. Hasan et. al. (2011), “Rancang Bangun Robot Manual Pengangkat Mikro Kontroler AT89S52,” 8(3), pp.52–74.
. Havitz et al. (2008), “Ranca Bangun Gerak Robot Pemindah Barang Berdasarkan Jalur Garis Hitam Dengan Basis Mikrokontroler AT89S52 E-31,” Prosiding Seminar Nasional Teknoin 2008 Bidang Teknik Elektro E-32, pp.31–38.
. Jonathan (2013, Mei 28), “Sistem Program Robot Lengan Pemindah Dus Barang Pada Conveyor,” Retrieved April 02, 2017, from sintongjonathan- jonathan.blogspot.co.id
. Anonim (2012, April 05), “Kontrol Robot Arm dengan Arduino,” Retrieved Maret 06, 2017, from inkubator-teknologi.com
. E. Pitowarno (2006), “Robotika disain, kontrol dan kecerdasan buatan,” Yogyakarta: Andi Offset
. G. Purnawan (2013, Maret 03), “Conveyor,” Retrieved Maret 02, 2017, from Definis roller conveyor: gustypurnawan.blogspot.co.id
. R. Prasetia and C.E. Widodo (2004), “Interfacing port paralel dan port serial komputer dengan visual basic 6.0,” Yogyakarta : Andi Offset.
. Wardana, G. Tri, D. E. Setiawan, A. Rahman, and N. Prasetia (1978), “Robot Lengan Pemindah Barang Berdasarkan Ukurannya Berbasis Mikrokontroler.” (x): 1–12.
. Z. Yuanshen, L. Gong, C. Liu and Y. Huang, “Dual-arm Robot Design and Testing for Harvesting Tomato in Greenhouse,” www.sciencedirect.com
. B. Zhang, B. Liang, X. Wang, G. Li, Z. Chen and X. Zhu (2016), “Manipulability Measure of Dual-Arm Space Robot and Its Application to Design an Optimal Configuration,” http://dx.doi.org/10.1016/j.actaastro.2016.07.040.
. J. Kruger, G. Schreck b and D. Surdilovic, “Dual arm robot for flexible and cooperative assembly,” http://ees.elsevier.com/cirp/default.asp
. L. Shi, S. Kayastha and J. Katupitiya, “Robust coordinated control of a dual-arm space robot,” www.elsevier.com/locate/actaastro
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