Mercurial > public > hwos_code
annotate src/compass_calib.c @ 627:bf5fee575701
minor cleanup, reset rx circuity
author | heinrichsweikamp |
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date | Sun, 30 Jun 2019 23:22:32 +0200 |
parents | c40025d8e750 |
children | cd58f7fc86db |
rev | line source |
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623 | 1 ///////////////////////////////////////////////////////////////////////////// |
2 // | |
3 // compass_calib.c next generation V3.03.4 | |
4 // | |
5 // Calibrate hard-iron for magnetic compass measurements. | |
6 // Copyright (c) 2012-2019, JD Gascuel, HeinrichsWeikamp, all rights reserved. | |
7 // | |
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8 ////////////////////////////////////////////////////////////////////////////// |
623 | 9 |
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10 // 2015-05-22 [jDG] Make a smaller calibration code (15.6 --> 6.7 KB). |
623 | 11 // 2019-05-14 [rl] make it even smaller again by another 2.000 byte |
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12 |
623 | 13 #include "configuration.inc" |
0 | 14 #include "compass.h" |
15 | |
623 | 16 |
17 #ifdef _compass | |
18 | |
19 | |
0 | 20 ////////////////////////////////////////////////////////////////////////////// |
623 | 21 // |
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22 // mH: Put compass data into bank 8 (stack) and bank 9 (variables) |
623 | 23 // rl: could also be overlaid with p2_deco.c stack... |
24 // | |
0 | 25 #ifndef UNIX |
623 | 26 # pragma udata overlay bank8=0x800 |
604 | 27 static char C_STACK[256]; // overlay C-code data stack here |
28 # define RESET_C_STACK \ | |
29 _asm \ | |
30 LFSR 1, 0x800 \ | |
31 LFSR 2, 0x800 \ | |
32 _endasm | |
623 | 33 # pragma udata overlay bank9_compass |
0 | 34 #else |
623 | 35 # define RESET_C_STACK |
0 | 36 #endif |
37 | |
38 ////////////////////////////////////////////////////////////////////////////// | |
39 | |
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40 static unsigned short int compass_N; |
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41 |
623 | 42 static float Su, Sv, Sw; // first order moments |
43 static float Suu, Svv, Sww, Suv, Suw, Svw; // second order moments | |
604 | 44 static float Saa; // Suu + Svv + Sww |
623 | 45 static float Saau; // Suuu + Svvu + Swwu third order moment |
46 static float Saav; // Suuv + Svvv + Swwv third order moment | |
47 static float Saaw; // Suuw + Svvw + Swww third order moment | |
48 | |
49 static float yu, yv, yw; // temp solution vector | |
50 static float uc, vc, wc; // temp sphere's center | |
51 | |
52 static float yh, uh, S0, S1, S2, S3; // transfer vars for compass_solve_helper() | |
53 static float discriminant, delta; // transfer vars for calc_discriminant() | |
54 | |
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55 |
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56 ////////////////////////////////////////////////////////////////////////////// |
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57 |
623 | 58 #ifndef UNIX |
59 # pragma code compass_calib | |
60 #endif | |
61 | |
62 ////////////////////////////////////////////////////////////////////////////// | |
63 | |
64 void compass_reset_calibration() // 202 byte | |
0 | 65 { |
604 | 66 RESET_C_STACK; |
0 | 67 |
604 | 68 compass_N = 0; |
69 Su = Sv = Sw = 0.0; | |
70 Suu = Svv = Sww = 0.0; | |
71 Suv = Suw = Svw = 0.0; | |
72 Saau = Saav = Saaw = 0.0; | |
623 | 73 compass_CX_f = compass_CY_f = compass_CZ_f = 0; // int16 |
0 | 74 } |
75 | |
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76 ////////////////////////////////////////////////////////////////////////////// |
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77 |
623 | 78 void compass_add_calibration() // 1488 byte |
0 | 79 { |
623 | 80 overlay float SQR_yu, SQR_yv, SQR_yw; // squared values; |
81 | |
604 | 82 RESET_C_STACK; |
0 | 83 |
623 | 84 // get filtered/calibrated magnetic direction // 276 byte |
604 | 85 yu = (compass_DX_f - compass_CX_f) / 32768.0f; |
86 yv = (compass_DY_f - compass_CY_f) / 32768.0f; | |
87 yw = (compass_DZ_f - compass_CZ_f) / 32768.0f; | |
0 | 88 |
623 | 89 // compute squared values // 156 byte |
90 SQR_yu = yu*yu; | |
91 SQR_yv = yv*yv; | |
92 SQR_yw = yw*yw; | |
93 | |
94 // increment count | |
604 | 95 compass_N++; |
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96 |
623 | 97 // add to all moments // 156 byte |
98 Su += yu; | |
99 Sv += yv; | |
100 Sw += yw; | |
101 | |
102 // // 156 byte | |
103 Suu += SQR_yu; | |
104 Svv += SQR_yv; | |
105 Sww += SQR_yw; | |
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106 |
623 | 107 // // 312 byte |
108 Suv += yu*yv; | |
109 Suw += yu*yw; | |
110 Svw += yv*yw; | |
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111 |
623 | 112 // // 104 byte |
113 Saa = SQR_yu + SQR_yv + SQR_yw; | |
114 | |
115 | |
116 // // 312 byte | |
604 | 117 Saau += yu * Saa; |
118 Saav += yv * Saa; | |
119 Saaw += yw * Saa; | |
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120 } |
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121 |
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122 ////////////////////////////////////////////////////////////////////////////// |
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123 |
623 | 124 static void calc_discriminant(PARAMETER char column) |
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125 { |
604 | 126 // basic symmetric matrix |
623 | 127 overlay float a = Suu, d = Suv, g = Suw; |
128 overlay float b = Suv, e = Svv, h = Svw; | |
129 overlay float c = Suw, f = Svw, i = Sww; | |
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130 |
604 | 131 // substitute a column, if asked to |
132 if( column==1 ) { a = yu; b = yv; c = yw; } | |
133 if( column==2 ) { d = yu; e = yv; f = yw; } | |
134 if( column==3 ) { g = yu; h = yv; i = yw; } | |
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135 |
623 | 136 // do the math in a couple of single terms to reduce |
137 // the amount of required ".tmpdata" memory | |
138 discriminant = a * (e * i - f * h); | |
139 discriminant -= b * (d * i - f * g); | |
140 discriminant += c * (d * h - e * g); | |
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141 |
623 | 142 // apply delta if column = 1/2/3 |
143 if( column ) discriminant *= delta; | |
0 | 144 } |
145 | |
146 ////////////////////////////////////////////////////////////////////////////// | |
147 | |
623 | 148 static void compass_solve_helper(void) // 338 byte |
0 | 149 { |
623 | 150 // computes: |
151 // | |
152 // yh = S0 - Saa*uh - compass_dotc(Su*uh + 2*S1, Sv*uh + 2*S2, Sw*uh + 2*S3); | |
153 // | |
154 // with compass_dotc(u,v,w) = u*uc + v*vc + w*wc the equation becomes: | |
155 // | |
156 // yh = S0 - Saa*uh - ( (Su*uh + 2*S1)*uc + (Sv*uh + 2*S2)*vc + (Sw*uh + 2*S3)*wc ) | |
157 // | |
158 // this equation is now split into several single terms | |
159 // to reduce the amount of required ".tmpdata" memory: | |
160 | |
161 yh = S0; | |
162 yh -= Saa*uh; | |
163 yh -= (Su*uh + 2*S1) * uc; | |
164 yh -= (Sv*uh + 2*S2) * vc; | |
165 yh -= (Sw*uh + 2*S3) * wc; | |
166 } | |
167 | |
168 ////////////////////////////////////////////////////////////////////////////// | |
169 | |
170 void compass_solve_calibration() // 1738 byte | |
171 { | |
172 overlay float inv_compass_N; | |
173 | |
604 | 174 RESET_C_STACK; |
0 | 175 |
623 | 176 // compute center of measured magnetic directions // 200 byte |
177 inv_compass_N = 1 / compass_N; | |
178 uc = Su * inv_compass_N; | |
179 vc = Sv * inv_compass_N; | |
180 wc = Sw * inv_compass_N; | |
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181 |
623 | 182 // normalize partial sums |
604 | 183 // |
184 // We measured the (u, v, w) values, and need the centered (x, y, z) ones | |
185 // around the sphere center's (uc, vc, wc) as: | |
623 | 186 // uc = Su / N; The mean value |
187 // x = u - uc; The difference to the mean. | |
604 | 188 // |
189 // So: | |
190 // x**2 = (u - uc)**2 = u**2 - 2u*uc + uc**2 | |
191 // | |
192 // We need the Sxx sum of 2nd orders: | |
193 // Sxx = Suu - 2 uc Su + N*uc*(Su/N) = Suu - uc Su | |
194 Suu -= Su*uc; | |
195 Svv -= Sv*vc; | |
196 Sww -= Sw*wc; | |
0 | 197 |
604 | 198 // (u - uc)(v - vc) = uv - u vc - v uc + uc vc |
199 // Sxy = Suv - Su vc - Sv uc + N uc vc | |
200 // = Suv - Su vc - N vc uc + N uc vc | |
201 // = Suv - Su vc | |
202 Suv -= Su*vc; | |
203 Suw -= Su*wc; | |
204 Svw -= Sv*wc; | |
0 | 205 |
604 | 206 // (u + um)**3 = u**3 + 3 u**2 um + 3 u um**2 + um**3 |
207 // Sxxx = Suuu + 3 um Suu + 3 um**2 Su + N.um**3 | |
208 // Su = 0, um = Sx/N: | |
209 // Suuu = Sxxx - 3 Sx*Suu/N - N.(Sx/N)**3 | |
210 // = Sxxx - 3 Sx*Suu/N - Sx**3/N**2 | |
0 | 211 |
604 | 212 // (u + um)**2 (v + vm) = (u**2 + 2 u um + um**2)(v + vm) |
213 // Sxxy = Suuv + vm Suu + 2 um (Suv + vm Su) + um**2 (Sv + N.vm) | |
214 // | |
215 // Su = 0, Sv = 0, vm = Sy/N: | |
216 // Sxxy = Suuv + vm Suu + 2 um Suv + N um**2 vm | |
217 // | |
218 // Suuv = Sxxy - (Sy/N) Suu - 2 (Sx/N) Suv - (Sx/N)**2 Sy | |
219 // = Sxxy - Suu*Sy/N - 2 Suv*Sx/N - Sx*Sx*Sy/N/N | |
220 // = Sxxy - (Suu + Sx*Sx/N)*Sy/N - 2 Suv*Sx/N | |
623 | 221 |
604 | 222 Saa = Suu + Svv + Sww; |
623 | 223 |
224 // compute yu = Saau - Saa*uc - compass_dotc(Su*uc + 2*Suu, Sv*uc + 2*Suv, Sw*uc + 2*Suw); | |
225 // | |
226 uh = uc; S0 = Saau; S1 = Suu; S2 = Suv; S3 = Suw; compass_solve_helper(); yu = yh; | |
227 | |
228 // compute yv = Saav - Saa*vc - compass_dotc(Su*vc + 2*Suv, Sv*vc + 2*Svv, Sw*vc + 2*Svw); | |
229 // | |
230 uh = vc; S0 = Saav; S1 = Suv; S2 = Svv; S3 = Svw; compass_solve_helper(); yv = yh; | |
231 | |
232 // compute yw = Saaw - Saa*wc - compass_dotc(Su*wc + 2*Suw, Sv*wc + 2*Svw, Sw*wc + 2*Sww); | |
233 // | |
234 uh = wc; S0 = Saaw; S1 = Suw; S2 = Svw; S3 = Sww; compass_solve_helper(); yw = yh; | |
235 | |
0 | 236 |
604 | 237 //---- Solve the system -------------------------------------------------- |
238 // uc Suu + vc Suv + wc Suw = (Suuu + Svvu + Swwu) / 2 | |
239 // uc Suv + vc Svv + wc Svw = (Suuv + Svvv + Swwv) / 2 | |
240 // uc Suw + vc Svw + wc Sww = (Suuw + Svvw + Swww) / 2 | |
623 | 241 // |
242 // Note this is symmetric, with a positive diagonal, hence discriminant is always not null | |
243 | |
244 //compute delta value | |
245 calc_discriminant(0); delta = 0.5f / discriminant; | |
0 | 246 |
623 | 247 // compute new center, with offset values |
248 calc_discriminant(1); uc += discriminant; | |
249 calc_discriminant(2); vc += discriminant; | |
250 calc_discriminant(3); wc += discriminant; | |
0 | 251 |
623 | 252 // add correction due to already applied calibration |
604 | 253 compass_CX_f += (short)(32768 * uc); |
254 compass_CY_f += (short)(32768 * vc); | |
255 compass_CZ_f += (short)(32768 * wc); | |
0 | 256 } |
623 | 257 |
258 #endif // _compass |