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CWRU's kinematic models for the IS 1200 (The original da Vinci Surgical Robot)

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cwru_davinci_kinematics

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CWRU's kinematic models for the IS 1200 (The original da Vinci Surgical Robot)

Added Jacobian computation. Provides a 6x6 Jacobian. Input is a 7x1 joint-space vector, identical to that used for forward kinematics. The 6x6 Jacobian ignores the jaw-opening angle (7'th joint of input vector).

To see how to use the Jacobian computation, see the test function, davinci_Jacobian_test_main.cpp, and comments therein.

Kinematics Outline:

The kinematics explanation was originally copied from the kinematics header file.

TODO organize the explanation and add figures as necessary.

define D-H frames; "base" frame is same as "one_psm_base_link" O_base is at pivot (trocar) point z-axis points "up", y-axis points forward, x-axis is to robot's right

DH-0 frame: this is a static transform from base frame, but conforms to DH convention that z0 is through first joint axis.
get freedom to choose orientation of x0, y0 spin about z0 O_0 = O_base

  • rotation of q[0]==q1 corresponds to "leaning to the left", --> z_0 points along -y axis of base frame;

choose x0 pointing "down", so yaw home will agree with davinci q[0] then y0 points along +x_base R_{0/base} = [0 1 0 0 0 -1 -1 0 0 ]

DH-1 frame: this frame moves w/ yaw joint (theta1 or q(0)) construct from z_0 crossed into z_1==> x_1 z_1 axis points to left (positive rotation of q[1]==q2 ==> pitch "leans forward")

  • rotation is about z-axis pointing to the left, i.e. coincident w/ -x0 (in home position) cross z_0 into z_1 ==> x1 axis points "down" in home position by construction, alpha1 = +pi/2. O_1 = O_0 ==> a1=0, d1=0 --> need a psi_0 offset = +/- pi/2 so davinci home (in psi coords) has tool shaft parallel to z_base psi[0] = theta1_DH- pi/2

DH-2 frame: construct from z1 (pitch axis) and z2 (prismatic axis) choose prismatic axis pointing through tool-shaft centerline, towards gripper choose origin O_2 to lie on z1 at intersection w/ wrist-bend joint define d2=0 such that O_2 is at O_base = O_1 = O_2 from home pose, z1 is to the left, and z2 is down, so x2 points inwards, towards robot but x1 axis points "down" at Davinci home pose; this corresponds to a theta3 of +pi/2...and this value is static; by construction, alpha_2 = +pi/2 a2=0, d2 is a variable (prismatic joint displacement)

DH-3 frame: z axis is spin about tool shaft, coincident w/ displacement axis z3 for + rotation, z3 points same direction as z2, so alpha3 = 0 choose origin coincident: O_3 = O_2, so a3 = d3 = 0 get freedom to choose frame orientation of x3 (perpendicular to z3) define x3 direction such that thetaDH4 = q[3] (no offset correction needed; in agreement at home pose) at home pose, x3 points towards robot--coincident w/ x2 of prismatic jnt

DH-4 frame: construct from tool-shaft spin axis, z3 and wrist-bend z4 axes by choice of origin for O3, have O_3 = O_4 --> a4=0, d4=0 by construction, x4 = z3 crossed into z4 and alpha4= +pi/2 for plus wrist bend, at home pose, z4 points to "left" so, z3 cross z4 = x4 points FORWARD this is pi away from x3, so need offset such that q[3]=0 when thetaDH_4 = pi

DH-5 frame: z5 is through gripper-jaw rotation axis at home pose, z5 points "IN"...s.t. + rotation causes gripper jaws to point to right O_5 is on the z5 axis, offset from O_4 z4 and z5 do not intersect. Have a non-zero a5 offset min dist from z4 to z5 defines x5; points from O4 to O_5 +rotation direction of jaw rotation--> alpha5 is - pi/2 d5 = 0 need to find theta5 (wrist-bend) offset for Davinci home

DH-6 frame: choose a final gripper frame (don't have two axes to construct) try z6 pointing out from z5 axis at +/- pi/2 = alpha6; set coincident origin, a6 = d6 = 0; O_6 = O_5 (then use separate transform to gripper tip, if desired) find theta6 offset to conform w/ Davinci home

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