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9.27完成摇摆平衡,还需要调参数

master
zrg 2021-09-27 00:35:15 +08:00
parent cf8edd5bd1
commit 56bbd5b000
5 changed files with 42 additions and 37 deletions
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42
arduino/main/main.ino
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@ -11,7 +11,7 @@ Deng's FOC 闭环速度控制例程 测试库SimpleFOC 2.1.1 测试硬件:
#include <AsyncUDP.h> //引用以使用异步UDP
#include <Kalman.h> // Source: https://github.com/TKJElectronics/KalmanFilter
Kalman kalmanZ;
#define gyroZ_OFF -0.72
#define gyroZ_OFF -0.52
#define swing_up_voltage 5 //V
#define balance_voltage 10 //V
/* ----IMU Data---- */
@ -36,10 +36,9 @@ float constrainAngle(float x);
const char *ssid = "esp32";
const char *password = "12345678";
#define WIFI_FLAG 1
bool wifi_flag = 0;
AsyncUDP udp; //创建UDP对象
unsigned int localUdpPort = 2333; //本地端口号
unsigned int broadcastPort = localUdpPort;
void wifi_print(char * s,double num);
MagneticSensorI2C sensor = MagneticSensorI2C(AS5600_I2C);
@ -52,13 +51,14 @@ LowPassFilter lpf_throttle{0.00};
#define FLAG_V 1
//倒立摆参数
float LQR_K1 = 400; //摇摆到平衡
float LQR_K2 = 40; //
float LQR_K3 = 0.30; //
float LQR_K2 = 80; //
float LQR_K3 = 0.50; //
float LQR_K1_1 = 200; //平衡态
float LQR_K2_1 = 15; //
float LQR_K3_1 = 0.15; //
//电机参数
BLDCMotor motor = BLDCMotor(5);
BLDCDriver3PWM driver = BLDCDriver3PWM(32, 33, 25, 22);
@ -66,13 +66,15 @@ BLDCDriver3PWM driver = BLDCDriver3PWM(32, 33, 25, 22);
//命令设置
double target_velocity = 0;
double target_angle = 88;
double target_angle = 91;
double target_voltage = 0;
void onPacketCallBack(AsyncUDPPacket packet)
{
target_velocity = atoi((char*)(packet.data()));
Serial.print("数据内容: ");
Serial.println(target_velocity);
wifi_flag = 1;
// packet.print("reply data");
}
// instantiate the commander
@ -180,8 +182,9 @@ int lim_v = 60;
long loop_count = 0;
void loop() {
motor.loopFOC();
if (1)
if (loop_count++ == 10)
{
loop_count = 0;
while (i2cRead(0x3B, i2cData, 14));
accX = (int16_t)((i2cData[0] << 8) | i2cData[1]);
accY = (int16_t)((i2cData[2] << 8) | i2cData[3]);
@ -217,13 +220,7 @@ void loop() {
}
else // else do swing-up
{ // sets 1.5V to the motor in order to swing up
if(loop_count == 0)
{
loop_count = 30;
target_voltage = -_sign(gyroZrate) * 3;
}
else
loop_count--;
}
// set the target voltage to the motor
@ -261,8 +258,11 @@ void loop() {
#endif
#if 1
Serial.print(kalAngleZ);Serial.print("\t");
Serial.print(target_voltage);Serial.print("\t");
Serial.print(target_velocity);Serial.print("\t");
// Serial.print(target_velocity);Serial.print("\t");
Serial.print(motor.shaft_velocity);Serial.print("\t");
Serial.print(target_angle);Serial.print("\t");
Serial.print(pendulum_angle+target_angle);Serial.print("\t");
@ -271,17 +271,21 @@ void loop() {
#endif
// motor.move(target_velocity);
//可以使用该方法广播信息
#if WIFI_FLAG
if(wifi_flag)
{
memset(buf, 0, strlen(buf));
wifi_print("p",pendulum_angle+target_angle);
wifi_print("t",target_angle);
wifi_print("k",kalAngleZ);
wifi_print("g",gyroZrate);
IPAddress broadcastAddr((~(uint32_t)WiFi.subnetMask())|((uint32_t)WiFi.localIP())); //计算广播地址
udp.writeTo((const unsigned char*)buf, strlen(buf), broadcastAddr, localUdpPort); //广播数据
// IPAddress broadcastAddr("192.168.4.255")
//IPAddress broadcastAddr(((uint32_t)"192.168.4.2")); //计算广播地址
// IPAddress broadcastAddr((~(uint32_t)WiFi.subnetMask())|((uint32_t)WiFi.localIP())); //计算广播地址
// Serial.println(buf);
//const char * udpAddress = "192.168.4.255";
udp.writeTo((const unsigned char*)buf, strlen(buf), IPAddress(192,168,4,2), localUdpPort); //广播数据
}
#endif
}
}
/* mpu6050加速度转换为角度
acc2rotation(ax, ay)

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python_gui/gui/__pycache__/main_ui.cpython-37.pyc
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python_gui/gui/__pycache__/sharedcomponets.cpython-37.pyc
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python_gui/gui/__pycache__/wifi_udp.cpython-37.pyc
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37
python_gui/gui/main.py
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@ -81,24 +81,25 @@ class MyWindow(QMainWindow, Ui_MainWindow):
print(str(self.target_velocity))
def wifi_config_pushButton_clicked(self):
try:
self.re_item = ['k','g','l','t']
self.plot_init()
# print(self.wifi_IP_lineEdit.text(),type(self.wifi_IP_lineEdit.text()))
# self.udp.udpClientSocket.bind((self.wifi_IP_lineEdit.text(), 2333))
# # 第一次接受数据,用于判断项目数,
# recv_data = self.udp.udpClientSocket.recv(1024)
# recv_data = recv_data.decode('utf-8')
# recv_data = recv_data[:-1]
# recv_data = recv_data.split(',')
# """处理接受的信息"""
# for i, data in enumerate(recv_data):
# self.re_item.append(''.join(re.split(r'[^A-Za-z]', data)))
# print(self.re_item)
# # 图表初始化
# self.re_item = ['k','g','l','t']
# self.plot_init()
# t1 = threading.Thread(target=self.udp_recv)
# t1.start()
# self.wifi_recv_open_pushButton.setEnabled(True)
print(self.wifi_IP_lineEdit.text(),type(self.wifi_IP_lineEdit.text()))
self.udp.udpClientSocket.bind((self.wifi_IP_lineEdit.text(), 2333))
# 第一次接受数据,用于判断项目数,
self.udp.send_message("s")
recv_data = self.udp.udpClientSocket.recv(1024)
recv_data = recv_data.decode('utf-8')
recv_data = recv_data[:-1]
recv_data = recv_data.split(',')
"""处理接受的信息"""
for i, data in enumerate(recv_data):
self.re_item.append(''.join(re.split(r'[^A-Za-z]', data)))
print(self.re_item)
# 图表初始化
self.plot_init()
t1 = threading.Thread(target=self.udp_recv)
t1.start()
except Exception as e:
print(e)
QMessageBox.critical(self, "错误", '该请求的地址无效')
@ -109,7 +110,7 @@ class MyWindow(QMainWindow, Ui_MainWindow):
recv_data = recv_data[:-1]
recv_data = recv_data.split(',')
"""处理接受的信息"""
print(recv_data)
# print(recv_data)
for i, data in enumerate(recv_data):
self.re_item.append(''.join(re.split(r'[^A-Za-z]', data)))
data = re.findall(r"\d+\.?\d*", data)