Answer Happy

A two-wheel robot with track (i.e., distance between wheels) of d = 0.3 m travels along a circle of radius of 4m, as in Figure Q1-1, with the constant longitudinal speed of 2.0 m/s. ICC is the instantaneous centre of curvature. X and Y are ground-fixed axis. Y(m) PS = 2.0 m/s X(m) Figure Q1-1 A two-wheel robot travels along a circle a) Calculate the following variables: • Longitudinal speeds of the left and right wheels (i.e., V, and vk); • Yaw rate : Lateral acceleration of each wheel if the distance between the wheels is 20 cm. [8 marks) M b) If the initial position and heading angle of the robot is y(t = 0s) calculate the position of the robot after three seconds of travelling. [8 marks) c) Having autonomous cars on the roads presents benefits and challenges. Name and explain two of the main benefits and three of the main challenges. [4 marks)