1
# -*- coding: utf-8 -*-
2
"""
3
Created on Thu Jan 29 18:36:36 2015
4

5
@author: rlabbe
6
"""
7

8
import numpy as np
9
from math import sin, cos, atan2, asin
10

11
'''
12
psi = yaw
13
phi = roll
14
theta = pitch
15
'''
16

17

18
def e2q(vector):
19
    
20
    roll    = vector[0]
21
    pitch   = vector[1]
22
    heading = vector[2]
23
    sinhdg = sin(heading/2)
24
    coshdg = cos(heading/2)
25
    
26
    sinroll = sin(roll/2)
27
    cosroll = cos(roll/2)
28
    
29
    sinpitch = sin(pitch/2)
30
    cospitch = cos(pitch/2)
31
    
32
    q0 = cosroll*cospitch*coshdg + sinroll*sinpitch*sinhdg
33
    q1 = sinroll*cospitch*coshdg - cosroll*sinpitch*sinhdg
34
    q2 = cosroll*sinpitch*coshdg + sinroll*cospitch*sinhdg
35
    q3 = cosroll*cospitch*sinhdg - sinroll*sinpitch*coshdg
36
    
37
    return np.array([q0, q1, q2, q3])
38
    
39
    
40
def q2e(q):
41
    roll = atan2(2*(q[0]*q[1] + q[2]*q[3]), 1 - 2*(q[1]**2 + q[2]**2))
42
    pitch = asin(2*(q[0]*q[2] - q[3]*q[1]))
43
    hdg = atan2(2*(q[0]*q[3] + q[1]*q[2]), 1-2*(q[2]**2 + q[3]**2))
44
    
45
    return np.array([roll, pitch, hdg])
46
   
47
   
48
def e2d(e):
49
    return np.degrees(e)
50
def e2r(e):
51
    return np.radians(e)
52
    
53
def add(q1,q2):
54
    return np.multiply(q1,q2)
55

56

57

58
def add2(q1, q2):
59
    Q1 = q1[0]*q2[0] - q1[1]*q2[1] - q1[2]*q2[2] - q1[3]*q2[3]
60
    Q2 = q1[0]*q2[1] + q1[1]*q2[0] + q1[2]*q2[3] - q1[3]*q2[2]
61
    Q3 = q1[0]*q2[2] + q1[2]*q2[0] + q1[3]*q2[1] - q1[1]*q2[3]
62
    Q4 = q1[0]*q2[3] + q1[3]*q2[0] + q1[1]*q2[2] - q1[2]*q2[1]
63
    
64
    return np.array([Q1, Q2, Q3, Q4])
65

66

67
e = e2r([10, 0, 0])
68
q = e2q(e)
69
print(q)
70
print(e2d(q2e(q)))
71
q2 = add2(q,q)
72
print(q2)
73
e2 = q2e(q2)
74
print(e2d(e2))
75

76
    
77