master
Zhengyu Peng 3 years ago
parent ed79951316
commit fd48127316

@ -101,6 +101,7 @@ class Hexapod:
full_path = self.path_generator()
for mm in range(0, 30):
for idx in range(0, 20):
move_to = np.array([full_path[0][0][idx], full_path[0][1][idx], full_path[0][2][idx], full_path[0][3][idx], full_path[0][4][idx], full_path[0][5][idx]])+self.standby_coordinate
@ -110,27 +111,27 @@ class Hexapod:
self.leg_0.set_angle(1, self.angles[0,1])
self.leg_0.set_angle(2, self.angles[0,2])
# self.leg_1.set_angle(0, self.angles[1,0])
# self.leg_1.set_angle(1, self.angles[1,1])
# self.leg_1.set_angle(2, self.angles[1,2])
self.leg_1.set_angle(0, self.angles[1,0])
self.leg_1.set_angle(1, self.angles[1,1])
self.leg_1.set_angle(2, self.angles[1,2])
# self.leg_2.set_angle(0, self.angles[2,0])
# self.leg_2.set_angle(1, self.angles[2,1])
# self.leg_2.set_angle(2, self.angles[2,2])
self.leg_2.set_angle(0, self.angles[2,0])
self.leg_2.set_angle(1, self.angles[2,1])
self.leg_2.set_angle(2, self.angles[2,2])
# self.leg_3.set_angle(0, self.angles[3,0])
# self.leg_3.set_angle(1, self.angles[3,1])
# self.leg_3.set_angle(2, self.angles[3,2])
self.leg_3.set_angle(0, self.angles[3,0])
self.leg_3.set_angle(1, self.angles[3,1])
self.leg_3.set_angle(2, self.angles[3,2])
# self.leg_4.set_angle(0, self.angles[4,0])
# self.leg_4.set_angle(1, self.angles[4,1])
# self.leg_4.set_angle(2, self.angles[4,2])
self.leg_4.set_angle(0, self.angles[4,0])
self.leg_4.set_angle(1, self.angles[4,1])
self.leg_4.set_angle(2, self.angles[4,2])
# self.leg_5.set_angle(0, self.angles[5,0])
# self.leg_5.set_angle(1, self.angles[5,1])
# self.leg_5.set_angle(2, self.angles[5,2])
self.leg_5.set_angle(0, self.angles[5,0])
self.leg_5.set_angle(1, self.angles[5,1])
self.leg_5.set_angle(2, self.angles[5,2])
time.sleep(0.1)
time.sleep(0.005)
print(np.shape(move_to))
# print(np.array([full_path[0][0][0], full_path[0][1][0], full_path[0][2][0], full_path[0][3][0], full_path[0][4][0], full_path[0][5][0]]))
@ -182,7 +183,7 @@ class Hexapod:
x = to[:, 0] - self.root_j1
y = to[:, 1]
self.angles[:, 0] = (np.arctan2(y, x) * 180 / np.pi)+90
self.angles[:, 0] = -(np.arctan2(y, x) * 180 / np.pi)+90
x = np.sqrt(x*x + y*y) - self.j1_j2
y = to[:, 2]

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