In this chapter, Eq. ( 2.4 ) of the forward kinematicsForward kinematics is treated as follows \(\displaystyle {\mathbf {T}}_{\mathcal {D}}(\theta _1,\,b_2,\,\theta _3)=\mathcal {D}_1(\theta _1)\mathcal {D}_2(b_2)\mathcal {D}_3(\theta _3) \) which indicates that \({\mathbf {T}}_{\mathcal {D}}\) is function of the joint variablesJointvariable \(\theta _1\) , \(b_2\) and \(\theta _3\) . For the given parameters, which in general \(0\leq \theta _2\leq 2\pi \) , \(b_1\) , \(b_3\) and \(a_i\in \mathbb {R}^+\) , where \(i=1,\,2,\,3\) . In some cases, there will be restricted values of \(\theta _2\) , which will be indicated when applied, and, as mentioned in Sect. 3.1 , \(\alpha _1\) and \(\alpha _2\) take only 0, 90, 180, and 270 degrees.

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RPR Arrangement

  • Max Antonio González-Palacios

摘要

In this chapter, Eq. ( 2.4 ) of the forward kinematicsForward kinematics is treated as follows \(\displaystyle {\mathbf {T}}_{\mathcal {D}}(\theta _1,\,b_2,\,\theta _3)=\mathcal {D}_1(\theta _1)\mathcal {D}_2(b_2)\mathcal {D}_3(\theta _3) \) which indicates that \({\mathbf {T}}_{\mathcal {D}}\) is function of the joint variablesJointvariable \(\theta _1\) , \(b_2\) and \(\theta _3\) . For the given parameters, which in general \(0\leq \theta _2\leq 2\pi \) , \(b_1\) , \(b_3\) and \(a_i\in \mathbb {R}^+\) , where \(i=1,\,2,\,3\) . In some cases, there will be restricted values of \(\theta _2\) , which will be indicated when applied, and, as mentioned in Sect. 3.1 , \(\alpha _1\) and \(\alpha _2\) take only 0, 90, 180, and 270 degrees.