Question 1 (15 marks)
Design a PYTHON program to compute the forward kinematics of PUMA 560. The DH parameters are listed in the following table:
Requirements:
Β The code should be able to take the joint variables and the pose (position and
orientation) of a position vector expressed in Frame {6} (i.e., 6ππ) as inputs, compute the forward kinematics mechanism, and output the pose of the position vector expressed in frame {0}.
Experiment the code by using the following input values:
[ππ1, ππ2, ππ3, ππ4, ππ5, ππ6] = [0, β20Β°, β30Β°, 45Β°, 15Β°, 30Β°] and 6ππ = [0.2, 0.2, 0.2]ππ.
Β List the code in the submission and provide the source code (.py) as an accompanying submission.
Β
Question 2 (25 marks)
(a) Inverse kinematics is essential to design a controller of robotic system. Perform numerical calculation for inverse kinematics of the planner three-link manipulator whose algebraic solution procedure is given in Textbook Section 4.4. Figure Q2 shows the mechanism of the three-link planar manipulator and its link parameters. In the figure, the base frame {π΅π΅} is shown as Frame {0}, and the wrist frame {ππ} is shown as Frame {3}. The following fixed-length parameters are given: πΏπΏ1 = 1 ππ, πΏπΏ2 = 1 ππ, and πΏπΏ3 = 1 ππ. The homogeneous transformation of the wrist frame relative to the base frame (πππππ΅π΅ ) is given by
(i) Interpret the geometrical meanings in the following matrix and vector that are equipped numerical entities.
οΏ½
0.5000 β0.8660Β Β Β 0
0.8660 0.5000Β Β Β Β 0
0Β Β Β Β Β Β Β Β Β Β 0Β Β Β Β Β Β 1
οΏ½
Β Β Β Β Β and
{1.2
0.8
0}
(ii) Present a pseudocode in Python or Matlab style to show the procedure to calculate joint variables ππ1, ππ2 and ππ3. You are welcome to develop a true code to calculate the number values.
(iii) Solutions for ππ1, ππ2 and ππ3 can be obtained from the given numerical entities in πππππ΅π΅ . However, another set of numerical entities in πππππ΅π΅ might not yield solutions from the calculation. Explain your understanding on the non-solution issue.
(b) The inverse kinematics analysis is sometimes not straight forward as that in a forward kinematics analysis. There is no general approach that can be applied to different manipulator mechanism. The solution procedure in Textbook 4.7 for the PUMA 560 example demonstrates several patterns or manipulations that may inspire a solution procedure for another mechanism. Summarize what you have learnt from the example for an inverse kinematics analysis. You may use bullet points with text less than 400 words and only necessary equations.
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Question 3 (20 marks)
Figure Q3-1 shows Boston Dynamicsβ Spot which is a quadruped robot available on the market. The schematic model of a quadruped robot is shown in Figure Q3-2. The robot has a torso and four legs. Each leg has three joints, i.e., a rolling rotary joint at the root for side swing, a pitching rotary joint in the hip, and a pitching rotary joint in the knee. The base frame {ππ} and the body frame {π΅π΅} are assigned as shown in the figure.
For kinematic analysis, each leg can be retreated as a robot arm. The three joints are revolute. Joint 1 rotates about an axis along the longitudinal direction, while Joints 2 and 3 rotate about the transverse direction. The end effector of the robot arm is the foot which has a spherical structure to adapt to different terrains. As shown in Figure Q3-3, Frames {0} to {4} are assigned to the base, the three joints and the end effector respectively.
The first two rows of the DH table is given in Table Q1
Figure Q3-1
(a) Appraise the assignment of πποΏ½
1 in the given direction of the figure.
(b) Appraise the assignment of ππΜ
2 in the given direction of the figure.
(c) Obtain the 3 4ππ matrix directly based on your observation from the frame assignments and your understanding of the structure of a homogenous transform.
(d) The force component acting on the foot is expressed in Frame {4} as 4πΉπΉ = οΏ½πππ₯π₯ πππ¦π¦ 0οΏ½ ππ Examine the components expressed in Frame {3}, that is, 3πΉπΉ.
(e) Calculate the torque acting at Joint 3 due to the force acting on the foot.
(f) Assume that at Frame {3}, the linear velocity 3π£π£3 and the angular velocity 3π€π€3 are known. Formulate the equations to calculate the linear velocity 4π£π£4 and the angular velocity 4π€π€4.
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Question 4 (25 marks)
(a) Following the Webots Tutorial 6 to design and develop a four-wheel robot model from scratch (source: https://cyberbotics.com/doc/guide/tutorial-6-4-wheels-robot?tablanguage=python). Requirements:
β’ You can follow the recorded tutorial to develop the model and experiment the controller code. However, your submitted project should be your independent work.
β’ The steps of using nodes of floor and walls to create a simulation environment are not covered in Tutorial 6. You can refer to the relevant information in Tutorial 2.
β’ Compress the entire project folder into a zipped file and submit the zipped file to the accompanying channel.
Β
(b) Study the Python code for the controller and summarize your understandings.
Requirements:
β’ You can comment on the codes to demonstrate the purpose of a specific line.
β’ You can present what you have learnt from this controller code in paragraph.
Β
Question 5 (15 marks)
This question is a follow-up of TMA01 Question 7 where you were required to present a proposal to design the robotic system. In TMA02, you are further required to present some thoughts on how you can use Webots to develop a prototype of your proposal. The requirements of this open-ended question are listed below:
β’ Firstly, discuss how you can take advantage of the available resources offered by Webots in your prototype development.
β’ You can then focus on one technical part, for example, how to implement (add) a controller, a sensor, or an actuator in your system to demonstrate your understanding of the software.
β’ Limit the maximum length of this section to 1000 words.
β’ You are required to cite the references in your study. Direct adoption of contents from an open resource or an AI generative resource is strictly prohibited.
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