fix some bug
parent
5590208732
commit
17579c5e67
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@ -58,9 +58,9 @@ float LQR_K2_1 = 3.49; //平衡态
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float LQR_K2_2 = 0.26; //
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float LQR_K2_3 = 0.15; //
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float LQR_K3_1 = 5.25; //摇摆到平衡
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float LQR_K3_2 = 3.18; //
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float LQR_K3_3 = 1.86; //
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float LQR_K3_1 = 10; //摇摆到平衡
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float LQR_K3_2 = 1.7; //
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float LQR_K3_3 = 1.75; //
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float LQR_K4_1 = 2.4; //摇摆到平衡
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float LQR_K4_2 = 1.5; //
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@ -73,7 +73,7 @@ float target_velocity = 0;
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float target_angle = 89.3;
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float target_voltage = 0;
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float swing_up_voltage = 1.8;
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float swing_up_angle = 18;
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float swing_up_angle = 20;
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float v_i_1 = 20;
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float v_p_1 = 0.5;
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float v_i_2 = 10;
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@ -408,13 +408,19 @@ float controllerLQR(float p_angle, float p_vel, float m_vel)
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// - k = [40, 7, 0.3]
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// - k = [13.3, 21, 0.3]
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// - x = [pendulum angle, pendulum velocity, motor velocity]'
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if (abs(p_angle) > 2.5)
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{
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last_unstable_time = millis();
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if(stable)
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{
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target_angle = EEPROM.readFloat(0);
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stable = 0;
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}
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if ((millis() - last_unstable_time) > 1000)
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}
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if ((millis() - last_unstable_time) > 1000&&!stable)
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{
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target_angle = target_angle+p_angle;
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stable = 1;
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}
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@ -0,0 +1,28 @@
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#include "Command.h"
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void Command::run(char* str){
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for(int i=0; i < call_count; i++){
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if(isSentinel(call_ids[i],str)){ // case : call_ids = "T2" str = "T215.15"
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call_list[i](str+strlen(call_ids[i])); // get 15.15 input function
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break;
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}
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}
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}
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void Command::add(char* id, CommandCallback onCommand){
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call_list[call_count] = onCommand;
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call_ids[call_count] = id;
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call_count++;
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}
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void Command::scalar(float* value, char* user_cmd){
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*value = atof(user_cmd);
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}
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bool Command::isSentinel(char* ch,char* str)
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{
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char s[strlen(ch)+1];
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strncpy(s,str,strlen(ch));
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s[strlen(ch)] = '\0'; //strncpy need add end '\0'
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if(strcmp(ch, s) == 0)
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return true;
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else
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return false;
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}
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@ -0,0 +1,17 @@
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#include <Arduino.h>
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// callback function pointer definiton
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typedef void (* CommandCallback)(char*); //!< command callback function pointer
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class Command
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{
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public:
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void add(char* id , CommandCallback onCommand);
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void run(char* str);
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void scalar(float* value, char* user_cmd);
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bool isSentinel(char* ch,char* str);
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private:
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// Subscribed command callback variables
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CommandCallback call_list[20];//!< array of command callback pointers - 20 is an arbitrary number
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char* call_ids[20]; //!< added callback commands
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int call_count;//!< number callbacks that are subscribed
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};
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@ -0,0 +1,93 @@
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/* Copyright (C) 2012 Kristian Lauszus, TKJ Electronics. All rights reserved.
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This software may be distributed and modified under the terms of the GNU
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General Public License version 2 (GPL2) as published by the Free Software
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Foundation and appearing in the file GPL2.TXT included in the packaging of
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this file. Please note that GPL2 Section 2[b] requires that all works based
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on this software must also be made publicly available under the terms of
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the GPL2 ("Copyleft").
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Contact information
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-------------------
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Kristian Lauszus, TKJ Electronics
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Web : http://www.tkjelectronics.com
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e-mail : kristianl@tkjelectronics.com
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*/
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#include "Kalman.h"
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Kalman::Kalman() {
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/* We will set the variables like so, these can also be tuned by the user */
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Q_angle = 0.001f;
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Q_bias = 0.003f;
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R_measure = 0.03f;
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angle = 0.0f; // Reset the angle
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bias = 0.0f; // Reset bias
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P[0][0] = 0.0f; // Since we assume that the bias is 0 and we know the starting angle (use setAngle), the error covariance matrix is set like so - see: http://en.wikipedia.org/wiki/Kalman_filter#Example_application.2C_technical
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P[0][1] = 0.0f;
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P[1][0] = 0.0f;
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P[1][1] = 0.0f;
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};
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// The angle should be in degrees and the rate should be in degrees per second and the delta time in seconds
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float Kalman::getAngle(float newAngle, float newRate, float dt) {
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// KasBot V2 - Kalman filter module - http://www.x-firm.com/?page_id=145
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// Modified by Kristian Lauszus
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// See my blog post for more information: http://blog.tkjelectronics.dk/2012/09/a-practical-approach-to-kalman-filter-and-how-to-implement-it
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// Discrete Kalman filter time update equations - Time Update ("Predict")
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// Update xhat - Project the state ahead
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/* Step 1 */
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rate = newRate - bias;
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angle += dt * rate;
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// Update estimation error covariance - Project the error covariance ahead
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/* Step 2 */
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P[0][0] += dt * (dt*P[1][1] - P[0][1] - P[1][0] + Q_angle);
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P[0][1] -= dt * P[1][1];
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P[1][0] -= dt * P[1][1];
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P[1][1] += Q_bias * dt;
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// Discrete Kalman filter measurement update equations - Measurement Update ("Correct")
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// Calculate Kalman gain - Compute the Kalman gain
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/* Step 4 */
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float S = P[0][0] + R_measure; // Estimate error
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/* Step 5 */
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float K[2]; // Kalman gain - This is a 2x1 vector
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K[0] = P[0][0] / S;
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K[1] = P[1][0] / S;
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// Calculate angle and bias - Update estimate with measurement zk (newAngle)
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/* Step 3 */
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float y = newAngle - angle; // Angle difference
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/* Step 6 */
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angle += K[0] * y;
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bias += K[1] * y;
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// Calculate estimation error covariance - Update the error covariance
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/* Step 7 */
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float P00_temp = P[0][0];
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float P01_temp = P[0][1];
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P[0][0] -= K[0] * P00_temp;
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P[0][1] -= K[0] * P01_temp;
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P[1][0] -= K[1] * P00_temp;
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P[1][1] -= K[1] * P01_temp;
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return angle;
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};
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void Kalman::setAngle(float angle) { this->angle = angle; }; // Used to set angle, this should be set as the starting angle
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float Kalman::getRate() { return this->rate; }; // Return the unbiased rate
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/* These are used to tune the Kalman filter */
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void Kalman::setQangle(float Q_angle) { this->Q_angle = Q_angle; };
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void Kalman::setQbias(float Q_bias) { this->Q_bias = Q_bias; };
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void Kalman::setRmeasure(float R_measure) { this->R_measure = R_measure; };
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float Kalman::getQangle() { return this->Q_angle; };
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float Kalman::getQbias() { return this->Q_bias; };
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float Kalman::getRmeasure() { return this->R_measure; };
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@ -0,0 +1,59 @@
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/* Copyright (C) 2012 Kristian Lauszus, TKJ Electronics. All rights reserved.
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This software may be distributed and modified under the terms of the GNU
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General Public License version 2 (GPL2) as published by the Free Software
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Foundation and appearing in the file GPL2.TXT included in the packaging of
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this file. Please note that GPL2 Section 2[b] requires that all works based
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on this software must also be made publicly available under the terms of
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the GPL2 ("Copyleft").
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Contact information
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-------------------
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Kristian Lauszus, TKJ Electronics
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Web : http://www.tkjelectronics.com
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e-mail : kristianl@tkjelectronics.com
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*/
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#ifndef _Kalman_h_
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#define _Kalman_h_
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class Kalman {
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public:
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Kalman();
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// The angle should be in degrees and the rate should be in degrees per second and the delta time in seconds
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float getAngle(float newAngle, float newRate, float dt);
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void setAngle(float angle); // Used to set angle, this should be set as the starting angle
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float getRate(); // Return the unbiased rate
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/* These are used to tune the Kalman filter */
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void setQangle(float Q_angle);
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/**
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* setQbias(float Q_bias)
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* Default value (0.003f) is in Kalman.cpp.
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* Raise this to follow input more closely,
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* lower this to smooth result of kalman filter.
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*/
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void setQbias(float Q_bias);
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void setRmeasure(float R_measure);
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float getQangle();
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float getQbias();
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float getRmeasure();
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private:
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/* Kalman filter variables */
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float Q_angle; // Process noise variance for the accelerometer
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float Q_bias; // Process noise variance for the gyro bias
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float R_measure; // Measurement noise variance - this is actually the variance of the measurement noise
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float angle; // The angle calculated by the Kalman filter - part of the 2x1 state vector
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float bias; // The gyro bias calculated by the Kalman filter - part of the 2x1 state vector
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float rate; // Unbiased rate calculated from the rate and the calculated bias - you have to call getAngle to update the rate
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float P[2][2]; // Error covariance matrix - This is a 2x2 matrix
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};
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#endif
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@ -0,0 +1,63 @@
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/* Copyright (C) 2012 Kristian Lauszus, TKJ Electronics. All rights reserved.
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This software may be distributed and modified under the terms of the GNU
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General Public License version 2 (GPL2) as published by the Free Software
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Foundation and appearing in the file GPL2.TXT included in the packaging of
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this file. Please note that GPL2 Section 2[b] requires that all works based
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on this software must also be made publicly available under the terms of
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the GPL2 ("Copyleft").
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Contact information
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-------------------
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Kristian Lauszus, TKJ Electronics
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Web : http://www.tkjelectronics.com
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e-mail : kristianl@tkjelectronics.com
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*/
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const uint8_t IMUAddress = 0x68; // AD0 is logic low on the PCB
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const uint16_t I2C_TIMEOUT = 1000; // Used to check for errors in I2C communication
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uint8_t i2cWrite(uint8_t registerAddress, uint8_t data, bool sendStop) {
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return i2cWrite(registerAddress, &data, 1, sendStop); // Returns 0 on success
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}
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uint8_t i2cWrite(uint8_t registerAddress, uint8_t *data, uint8_t length, bool sendStop) {
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Wire.beginTransmission(IMUAddress);
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Wire.write(registerAddress);
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Wire.write(data, length);
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uint8_t rcode = Wire.endTransmission(sendStop); // Returns 0 on success
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if (rcode) {
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Serial.print(F("i2cWrite failed: "));
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Serial.println(rcode);
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}
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return rcode; // See: http://arduino.cc/en/Reference/WireEndTransmission
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}
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uint8_t i2cRead(uint8_t registerAddress, uint8_t *data, uint8_t nbytes) {
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uint32_t timeOutTimer;
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Wire.beginTransmission(IMUAddress);
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Wire.write(registerAddress);
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uint8_t rcode = Wire.endTransmission(false); // Don't release the bus
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if (rcode) {
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Serial.print(F("i2cRead failed: "));
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Serial.println(rcode);
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return rcode; // See: http://arduino.cc/en/Reference/WireEndTransmission
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}
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Wire.requestFrom(IMUAddress, nbytes, (uint8_t)true); // Send a repeated start and then release the bus after reading
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for (uint8_t i = 0; i < nbytes; i++) {
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if (Wire.available())
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data[i] = Wire.read();
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else {
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timeOutTimer = micros();
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while (((micros() - timeOutTimer) < I2C_TIMEOUT) && !Wire.available());
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if (Wire.available())
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data[i] = Wire.read();
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else {
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Serial.println(F("i2cRead timeout"));
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return 5; // This error value is not already taken by endTransmission
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}
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}
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}
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return 0; // Success
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}
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@ -0,0 +1,124 @@
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#include "Command.h"
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#include <Wire.h>
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#include <WiFi.h>
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#include <AsyncUDP.h> //引用以使用异步UDP
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#include "Kalman.h" // Source: https://github.com/TKJElectronics/KalmanFilter
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#include "EEPROM.h"
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Kalman kalmanZ;
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#define gyroZ_OFF 0.9
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/* ----IMU Data---- */
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double accX, accY, accZ;
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double gyroX, gyroY, gyroZ;
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int16_t tempRaw;
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bool stable = 0;
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uint32_t last_unstable_time;
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double gyroZangle; // Angle calculate using the gyro only
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double compAngleZ; // Calculated angle using a complementary filter
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double kalAngleZ; // Calculated angle using a Kalman filter
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uint32_t timer;
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uint8_t i2cData[14]; // Buffer for I2C data
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void setup() {
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Serial.begin(115200);
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// kalman mpu6050 init
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Wire.begin(19, 18, 400000); // Set I2C frequency to 400kHz
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i2cData[0] = 7; // Set the sample rate to 1000Hz - 8kHz/(7+1) = 1000Hz
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i2cData[1] = 0x00; // Disable FSYNC and set 260 Hz Acc filtering, 256 Hz Gyro filtering, 8 KHz sampling
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i2cData[2] = 0x00; // Set Gyro Full Scale Range to ±250deg/s
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i2cData[3] = 0x00; // Set Accelerometer Full Scale Range to ±2g
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while (i2cWrite(0x19, i2cData, 4, false))
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; // Write to all four registers at once
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while (i2cWrite(0x6B, 0x01, true))
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; // PLL with X axis gyroscope reference and disable sleep mode
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while (i2cRead(0x75, i2cData, 1))
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;
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if (i2cData[0] != 0x68)
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{ // Read "WHO_AM_I" register
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Serial.print(F("Error reading sensor"));
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while (1)
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;
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}
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delay(100); // Wait for sensor to stabilize
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/* Set kalman and gyro starting angle */
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while (i2cRead(0x3B, i2cData, 6))
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;
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accX = (int16_t)((i2cData[0] << 8) | i2cData[1]);
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accY = (int16_t)((i2cData[2] << 8) | i2cData[3]);
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accZ = (int16_t)((i2cData[4] << 8) | i2cData[5]);
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double pitch = acc2rotation(accX, accY);
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kalmanZ.setAngle(pitch);
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gyroZangle = pitch;
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timer = micros();
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Serial.println("kalman mpu6050 init");
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}
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void loop() {
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while (i2cRead(0x3B, i2cData, 14));
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accX = (int16_t)((i2cData[0] << 8) | i2cData[1]);
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accY = (int16_t)((i2cData[2] << 8) | i2cData[3]);
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accZ = (int16_t)((i2cData[4] << 8) | i2cData[5]);
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tempRaw = (int16_t)((i2cData[6] << 8) | i2cData[7]);
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gyroX = (int16_t)((i2cData[8] << 8) | i2cData[9]);
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gyroY = (int16_t)((i2cData[10] << 8) | i2cData[11]);
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gyroZ = (int16_t)((i2cData[12] << 8) | i2cData[13]);
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double dt = (double)(micros() - timer) / 1000000; // Calculate delta time
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timer = micros();
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double pitch = acc2rotation(accX, accY);
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double gyroZrate = gyroZ / 131.0; // Convert to deg/s
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kalAngleZ = kalmanZ.getAngle(pitch, gyroZrate + gyroZ_OFF, dt);
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gyroZangle += (gyroZrate + gyroZ_OFF) * dt;
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compAngleZ = 0.93 * (compAngleZ + (gyroZrate + gyroZ_OFF) * dt) + 0.07 * pitch;
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// // Reset the gyro angle when it has drifted too much
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// if (gyroZangle < -180 || gyroZangle > 180)
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// gyroZangle = kalAngleZ;
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Serial.print(pitch); Serial.print("\t");
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// Serial.print(gyroZrate); Serial.print("\t");
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// Serial.print(kalAngleZ); Serial.print("\t");
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// Serial.print(gyroZangle); Serial.print("\t");
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Serial.print(compAngleZ); Serial.print("\t");
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Serial.print("\r\n");
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}
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/* mpu6050加速度转换为角度
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acc2rotation(ax, ay)
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acc2rotation(az, ay) */
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double acc2rotation(double x, double y)
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{
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if (y < 0)
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{
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return atan(x / y) / 1.570796 * 90 + 180;
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}
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else if (x < 0)
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{
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return (atan(x / y) / 1.570796 * 90 + 360);
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}
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else
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{
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return (atan(x / y) / 1.570796 * 90);
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}
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}
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// function constraining the angle in between -60~60
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float constrainAngle(float x)
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{
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float a = 0;
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if (x < 0)
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{
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a = 120 + x;
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if (a < abs(x))
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return a;
|
||||
}
|
||||
return x;
|
||||
}
|
|
@ -19,19 +19,19 @@
|
|||
<rect>
|
||||
<x>20</x>
|
||||
<y>460</y>
|
||||
<width>241</width>
|
||||
<width>271</width>
|
||||
<height>61</height>
|
||||
</rect>
|
||||
</property>
|
||||
<property name="title">
|
||||
<string>wifi_IP</string>
|
||||
<string>本机Wifi_IP</string>
|
||||
</property>
|
||||
<widget class="QWidget" name="horizontalLayoutWidget">
|
||||
<property name="geometry">
|
||||
<rect>
|
||||
<x>10</x>
|
||||
<y>20</y>
|
||||
<width>221</width>
|
||||
<width>251</width>
|
||||
<height>31</height>
|
||||
</rect>
|
||||
</property>
|
||||
|
@ -59,10 +59,10 @@
|
|||
<widget class="QGroupBox" name="groupBox_2">
|
||||
<property name="geometry">
|
||||
<rect>
|
||||
<x>370</x>
|
||||
<x>310</x>
|
||||
<y>10</y>
|
||||
<width>811</width>
|
||||
<height>441</height>
|
||||
<height>481</height>
|
||||
</rect>
|
||||
</property>
|
||||
<property name="title">
|
||||
|
@ -72,9 +72,9 @@
|
|||
<property name="geometry">
|
||||
<rect>
|
||||
<x>10</x>
|
||||
<y>20</y>
|
||||
<y>50</y>
|
||||
<width>791</width>
|
||||
<height>361</height>
|
||||
<height>371</height>
|
||||
</rect>
|
||||
</property>
|
||||
<layout class="QGridLayout" name="gridLayout"/>
|
||||
|
@ -83,13 +83,24 @@
|
|||
<property name="geometry">
|
||||
<rect>
|
||||
<x>10</x>
|
||||
<y>380</y>
|
||||
<y>420</y>
|
||||
<width>791</width>
|
||||
<height>51</height>
|
||||
</rect>
|
||||
</property>
|
||||
<layout class="QHBoxLayout" name="tool_layout"/>
|
||||
</widget>
|
||||
<widget class="QWidget" name="horizontalLayoutWidget_6">
|
||||
<property name="geometry">
|
||||
<rect>
|
||||
<x>10</x>
|
||||
<y>20</y>
|
||||
<width>791</width>
|
||||
<height>31</height>
|
||||
</rect>
|
||||
</property>
|
||||
<layout class="QHBoxLayout" name="tool_layout_2"/>
|
||||
</widget>
|
||||
</widget>
|
||||
<widget class="QGroupBox" name="groupBox_3">
|
||||
<property name="geometry">
|
||||
|
@ -149,8 +160,8 @@
|
|||
<widget class="QGroupBox" name="groupBox_4">
|
||||
<property name="geometry">
|
||||
<rect>
|
||||
<x>370</x>
|
||||
<y>460</y>
|
||||
<x>310</x>
|
||||
<y>500</y>
|
||||
<width>591</width>
|
||||
<height>131</height>
|
||||
</rect>
|
||||
|
|
Loading…
Reference in New Issue