2_link_kinematics
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2_link_kinematics [2018/09/27 00:24] – [Numerical Simulation - MatLab] ntorresreyes | 2_link_kinematics [2018/09/27 01:12] (current) – [Graphical Simulation] ntorresreyes | ||
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+ | We can also use the forward kinematics to plot a simple graph that shows the 2-link arm positions. With the following code the intermediate and final transformation matrices can be obtained. | ||
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+ | < | ||
+ | >> T_01 = Rotz1*Trans1 | ||
+ | T_01 = | ||
+ | 0.4472 | ||
+ | | ||
+ | | ||
+ | | ||
+ | >> T_02 = T_01*Rotz2*Trans2 | ||
+ | T_02 = | ||
+ | 0.3685 | ||
+ | 0.9296 | ||
+ | | ||
+ | | ||
+ | >> P = [0;0;0;1]; | ||
+ | >> P1 = T_01*P; P2 = T_02*P; | ||
+ | >> plot([0 P1(1) P2(1)],[0 P1(2) P2(2)]); grid on; | ||
+ | </ | ||
+ | The resulting plot will look like the following: | ||
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+ | {{: | ||
==== Graphical Simulation ==== | ==== Graphical Simulation ==== | ||
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- | Matlab can be used to produce a graphical simulation of the 2-link arm mechanism for a given angle. | + | Matlab can be used to produce a graphical simulation of the 2-link arm mechanism for a given angle. Many of these simulations are based on the [[http:// |
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+ | The following code can be used to model a planar 2-link arm. Many of the functions behind the arm use the same theory and math covered previously in the tutorial. | ||
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< | < | ||
+ | >> | ||
+ | >> | ||
</ | </ | ||
+ | Which results in the following image: | ||
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+ | {{: | ||
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+ | Next, a translation can be made and inverse kinematics applied: | ||
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+ | \\ | ||
+ | < | ||
+ | >> T = transl(1.5, | ||
+ | T = | ||
+ | 1.0000 | ||
+ | | ||
+ | | ||
+ | | ||
+ | >> q = p2.ikine(T,' | ||
+ | q = | ||
+ | | ||
+ | >> p2.plot(q) | ||
+ | </ | ||
+ | Which will plot the arm with the joint angles that will result in the end-effector having a position of (1.5, 0.5) | ||
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+ | {{: | ||
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+ | By changing the T matrix with different values of transl(x, | ||
==== Final Words ==== | ==== Final Words ==== | ||
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- | TBA | + | Hopefully, the information presented in this tutorial is enough for the reader to gain a good understanding of the background, theory, and practical knowledge required to apply this to a 2-link planar robot arm and possibly a 3-link planar arm. |
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2_link_kinematics.1538033046.txt.gz · Last modified: 2018/09/27 00:24 by ntorresreyes