Sailesh Timilsena
/
Temp_hum_pre_SeniorDesign
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Dependencies: X_NUCLEO_COMMON ST_INTERFACES
Diff: main.cpp
- Revision:
- 35:871447da961d
- Parent:
- 34:a5724eeaaf9d
--- a/main.cpp Wed Mar 27 19:05:34 2019 +0000
+++ b/main.cpp Wed Nov 11 17:32:22 2020 +0000
@@ -21,6 +21,24 @@
#include "simple-mbed-cloud-client.h"
#include "LittleFileSystem.h"
+#include "stdbool.h" //for stepper motor function
+
+#define STEPPER_PIN_1 PA_15 //ARD.D9-PWM PA15
+#define STEPPER_PIN_2 PA_2 //ARD.D10-PWM PA2
+#define STEPPER_PIN_3 PA_7 //ARD.D11-PWM PA7
+#define STEPPER_PIN_4 PA_6 //ARD.D12-PWM PA6
+
+DigitalOut steeperOne(STEPPER_PIN_1);
+DigitalOut steeperTwo(STEPPER_PIN_2);
+DigitalOut steeperThree(STEPPER_PIN_3);
+DigitalOut steeperFour(STEPPER_PIN_4);
+
+DigitalOut myIOs(PB_14); // review the results on PB_14
+DigitalOut myIOs2(PA_5); // review the results on PA_5
+int step_number=0;
+int open_flag=0;
+int close_flag=0;
+
// Default network interface object. Don't forget to change the WiFi SSID/password in mbed_app.json if you're using WiFi.
NetworkInterface *net;
@@ -48,19 +66,15 @@
#define SEND_ALL_SENSORS
// Sensors related includes and initialization
-#include "HTS221Sensor.h"
-#include "LPS22HBSensor.h"
-#include "LSM6DSLSensor.h"
-#include "lis3mdl_class.h"
-#include "VL53L0X.h"
+#include "HTS221Sensor.h" //humidity and temperature
+#include "LPS22HBSensor.h" //Barometer
static DevI2C devI2c(PB_11,PB_10);
static HTS221Sensor sen_hum_temp(&devI2c);
static LPS22HBSensor sen_press_temp(&devI2c);
-static LSM6DSLSensor sen_acc_gyro(&devI2c,LSM6DSL_ACC_GYRO_I2C_ADDRESS_LOW,PD_11); // low address
-static LIS3MDL sen_mag(&devI2c);
static DigitalOut shutdown_pin(PC_6);
-static VL53L0X sen_distance(&devI2c, &shutdown_pin, PC_7);
+//static VL53L0X sen_distance(&devI2c, &shutdown_pin, PC_7);
+
// Temperature reading from microcontroller
AnalogIn adc_temp(ADC_TEMP);
// Voltage reference reading from microcontroller
@@ -73,21 +87,8 @@
// Additional resources for sensor readings
#ifdef SEND_ALL_SENSORS
MbedCloudClientResource *res_humidity;
-MbedCloudClientResource *res_temperature;
MbedCloudClientResource *res_pressure;
-MbedCloudClientResource *res_temperature2;
-MbedCloudClientResource *res_magnometer_x;
-MbedCloudClientResource *res_magnometer_y;
-MbedCloudClientResource *res_magnometer_z;
-MbedCloudClientResource *res_accelerometer_x;
-MbedCloudClientResource *res_accelerometer_y;
-MbedCloudClientResource *res_accelerometer_z;
-MbedCloudClientResource *res_gyroscope_x;
-MbedCloudClientResource *res_gyroscope_y;
-MbedCloudClientResource *res_gyroscope_z;
-MbedCloudClientResource *res_distance;
MbedCloudClientResource *res_adc_temp;
-MbedCloudClientResource *res_adc_voltage;
#endif /* SEND_ALL_SENSORS */
// An event queue is a very useful structure to debounce information between contexts (e.g. ISR and normal threads)
@@ -121,16 +122,87 @@
}
printf("\n");
}
+//Serial port define for uart1 usb
+//pb7 rx
+//pb6 tx
+//Serial device(USBTX, USBRX);
+Serial device(PB_6, PB_7); // tx, rx
+
/**
* Button function triggered by the physical button press.
*/
+
+
+
+
+ void Tx_interrupt();
+void Rx_interrupt();
+void send_line();
+void read_line();
+
+
+// Circular buffers for serial TX and RX data - used by interrupt routines
+const int buffer_size = 255;
+// might need to increase buffer size for high baud rates
+char tx_buffer[buffer_size+1];
+char rx_buffer[buffer_size+1];
+// Circular buffer pointers
+// volatile makes read-modify-write atomic
+volatile int tx_in=0;
+volatile int tx_out=0;
+volatile int rx_in=0;
+volatile int rx_out=0;
+// Line buffers for sprintf and sscanf
+char tx_line[80];
+char rx_line[80];
+
+ int i=0;
+ int rx_i=0;
+ device.baud(115200);
+
+// Setup a serial interrupt function to receive data
+ device.attach(&Rx_interrupt, Serial::RxIrq);
+// Setup a serial interrupt function to transmit data
+ device.attach(&Tx_interrupt, Serial::TxIrq);
+
+
void button_press() {
int v = res_button->get_value_int() + 1;
res_button->set_value(v);
printf("*** Button clicked %d times \n", v);
}
-
+
+// Called everytime a new character goes into
+// the RX buffer. Test that character for \n
+// Note, rxGetLastChar() gets the last char that
+// we received but it does NOT remove it from
+// the RX buffer.
+void read_line() {
+ int i;
+ i = 0;
+// Start Critical Section - don't interrupt while changing global buffer variables
+ NVIC_DisableIRQ(UART1_IRQn);
+// Loop reading rx buffer characters until end of line character
+ while ((i==0) || (rx_line[i-1] != '\r')) {
+// Wait if buffer empty
+ if (rx_in == rx_out) {
+// End Critical Section - need to allow rx interrupt to get new characters for buffer
+ NVIC_EnableIRQ(UART1_IRQn);
+ while (rx_in == rx_out) {
+ }
+// Start Critical Section - don't interrupt while changing global buffer variables
+ NVIC_DisableIRQ(UART1_IRQn);
+ }
+ rx_line[i] = rx_buffer[rx_out];
+ i++;
+ rx_out = (rx_out + 1) % buffer_size;
+ }
+// End Critical Section
+ NVIC_EnableIRQ(UART1_IRQn);
+ rx_line[i-1] = 0;
+ return;
+}
/**
* Notification callback handler
* @param resource The resource that triggered the callback
@@ -149,35 +221,96 @@
endpointInfo = endpoint;
}
+/*
+ for one rotation when passed true or false in function OneStep(bool)
+*/
+void OneStep(bool dir){
+if(dir)
+{
+ switch(step_number){
+ case 0:
+ steeperOne =1;
+ steeperTwo =0;
+ steeperThree =0;
+ steeperFour =0;
+ break;
+ case 1:
+ steeperOne =0;
+ steeperTwo =1;
+ steeperThree =0;
+ steeperFour =0;
+ break;
+ case 2:
+ steeperOne =0;
+ steeperTwo =0;
+ steeperThree =1;
+ steeperFour =0;
+ break;
+ case 3:
+ steeperOne =0;
+ steeperTwo =0;
+ steeperThree =0;
+ steeperFour =1;
+ break;
+ }// end of switch
+}// end of if
+
+else
+{
+ switch(step_number){
+ case 0:
+ steeperOne =0;
+ steeperTwo =0;
+ steeperThree =0;
+ steeperFour =1;
+ break;
+ case 1:
+ steeperOne =0;
+ steeperTwo =0;
+ steeperThree =1;
+ steeperFour =0;
+ break;
+ case 2:
+ steeperOne =0;
+ steeperTwo =1;
+ steeperThree =0;
+ steeperFour =0;
+ break;
+ case 3:
+ steeperOne =1;
+ steeperTwo =0;
+ steeperThree =0;
+ steeperFour =0;
+ break;
+
+
+ }// end of switch
+ }// end of else
+step_number++;
+ if(step_number > 3){
+ step_number = 0;
+ }
+} // end of OneStep() function
/**
* Initialize sensors
*/
void sensors_init() {
- uint8_t id1, id2, id3, id4;
+ uint8_t id1, id2;
printf ("\nSensors configuration:\n");
// Initialize sensors
sen_hum_temp.init(NULL);
sen_press_temp.init(NULL);
- sen_acc_gyro.init(NULL);
- sen_mag.init(NULL);
- sen_distance.init_sensor(VL53L0X_DEFAULT_ADDRESS);
/// Call sensors enable routines
sen_hum_temp.enable();
sen_press_temp.enable();
- sen_acc_gyro.enable_x();
- sen_acc_gyro.enable_g();
sen_hum_temp.read_id(&id1);
sen_press_temp.read_id(&id2);
- sen_mag.read_id(&id3);
- sen_acc_gyro.read_id(&id4);
printf("HTS221 humidity & temperature = 0x%X\n", id1);
printf("LPS22HB pressure & temperature = 0x%X\n", id2);
- printf("LIS3MDL magnetometer = 0x%X\n", id3);
- printf("LSM6DSL accelerometer & gyroscope = 0x%X\n", id4);
printf("\n"); ;
}
@@ -187,64 +320,61 @@
* This function is called periodically.
*/
void sensors_update() {
- float temp1_value, temp2_value, temp3_value, humid_value, pressure_value, volt_value = 0.0;
- int32_t m_axes[3], a_axes[3], g_axes[3];
- uint32_t distance_value, distance_reading;
+ float temp3_value, humid_value, pressure_value = 0.0;
sen_hum_temp.get_humidity(&humid_value);
- sen_hum_temp.get_temperature(&temp1_value);
sen_press_temp.get_pressure(&pressure_value);
- sen_press_temp.get_temperature(&temp2_value);
- sen_mag.get_m_axes(m_axes);
- sen_acc_gyro.get_x_axes(a_axes);
- sen_acc_gyro.get_g_axes(g_axes);
- distance_reading = sen_distance.get_distance(&distance_value);
temp3_value = adc_temp.read()*100;
- volt_value = adc_vref.read();
-
- float mag_x = (double)m_axes[0] / 1000.0, mag_y = (double)m_axes[1] / 1000.0, mag_z = (double)m_axes[2] / 1000.0;
- float acc_x = (double)a_axes[0] / 1000.0, acc_y = (double)a_axes[1] / 1000.0, acc_z = (double)a_axes[2] / 1000.0;
- float gyro_x = (double)g_axes[0] / 1000.0, gyro_y = (double)g_axes[1] / 1000.0, gyro_z = (double)g_axes[2] / 1000.0;
-
- printf(" \n");
- printf("ADC temp: %5.4f C, vref: %5.4f V \n", temp3_value, volt_value);
- printf("HTS221 temp: %7.3f C, humidity: %7.2f %% \n", temp1_value, humid_value);
- printf("LPS22HB temp: %7.3f C, pressure: %7.2f mbar \n", temp2_value, pressure_value);
- printf("LIS3MDL mag: %7.3f x, %7.3f y, %7.3f z [gauss] \n", mag_x, mag_y, mag_z);
- printf("LSM6DSL acc: %7.3f x, %7.3f y, %7.3f z [g] \n", acc_x, acc_y, acc_z);
- printf("LSM6DSL gyro: %7.3f x, %7.3f y, %7.3f z [dps] \n", gyro_x, gyro_y, gyro_z);
- if (distance_reading == VL53L0X_ERROR_NONE) {
- printf("VL53L0X dist: %7ld mm\n", distance_value);
- } else {
- printf("VL53L0X dist: -- \n");
- distance_value = 999;
+
+ printf("%2.0f^%2.0f^%3.0f",temp3_value,humid_value,pressure_value);
+ printf("\n");
+
+ // printf ("%02d : %02d : %02d\n", temp3_value, hummitly, pressure);
+
+// added a new code for stepper motor
+// if temperature reading is higher, open motor
+ if(temp3_value > 30)
+ {
+ open_flag = 0;
+ while(open_flag==0){
+ OneStep(false);
+ wait(0.01);
+ bool btn_pressed = (button.read() == MBED_CONF_APP_BUTTON_PRESSED_STATE);
+ if (btn_pressed) {
+ printf("Door Opened...\n");
+ open_flag=1;
+ close_flag=0;
+ }//end of if(btn_pressed)
+ }// end of while
+ }// end of if(temp3_value>20)
+ // now we expect to close
+
+ if(temp3_value < 20)//door has to close
+ {
+ close_flag = 0;
+ while(close_flag==0){
+ OneStep(true);
+ wait(0.01);
+ bool btn_pressed = (button.read() == MBED_CONF_APP_BUTTON_PRESSED_STATE);
+ if (btn_pressed) {
+ printf("Door Closed...\n");
+ open_flag=0;
+ close_flag=1;
+ }//end of if(btn_pressed)
+ }// end of while
}
- printf("\r\033[8A");
-
if (endpointInfo) {
#ifdef SEND_ALL_SENSORS
res_humidity->set_value(humid_value);
- res_temperature->set_value(temp1_value);
res_pressure->set_value(pressure_value);
- res_temperature2->set_value(temp2_value);
- res_magnometer_x->set_value(mag_x);
- res_magnometer_y->set_value(mag_y);
- res_magnometer_z->set_value(mag_z);
- res_accelerometer_x->set_value(acc_x);
- res_accelerometer_y->set_value(acc_y);
- res_accelerometer_z->set_value(acc_z);
- res_gyroscope_x->set_value(gyro_x);
- res_gyroscope_y->set_value(gyro_y);
- res_gyroscope_z->set_value(gyro_z);
- res_distance->set_value((int)distance_value);
res_adc_temp->set_value(temp3_value);
- res_adc_voltage->set_value(volt_value);
#endif /* SEND_ALL_SENSORS */
}
}
-int main(void) {
+int main(void)
+{
printf("\nStarting Simple Pelion Device Management Client example\n");
int storage_status = fs.mount(&sd);
@@ -314,85 +444,26 @@
#ifdef SEND_ALL_SENSORS
// Sensor resources
- res_temperature = client.create_resource("3303/0/5700", "Temperature HTS221 (C)");
+/* res_temperature = client.create_resource("3303/0/5700", "Temperature HTS221 (C)");
res_temperature->set_value(0);
res_temperature->methods(M2MMethod::GET);
- res_temperature->observable(true);
+ res_temperature->observable(true);*/
res_humidity = client.create_resource("3304/0/5700", "Humidity");
res_humidity->set_value(0);
res_humidity->methods(M2MMethod::GET);
res_humidity->observable(true);
- res_temperature2 = client.create_resource("3303/1/5700", "Temperature LPS22HB (C)");
- res_temperature2->set_value(0);
- res_temperature2->methods(M2MMethod::GET);
- res_temperature2->observable(true);
-
res_adc_temp = client.create_resource("3303/2/5700", "Temperature ADC (C)");
res_adc_temp->set_value(0);
res_adc_temp->methods(M2MMethod::GET);
res_adc_temp->observable(true);
- res_accelerometer_x = client.create_resource("3313/0/5702", "Accelerometer X");
- res_accelerometer_x->set_value(0);
- res_accelerometer_x->methods(M2MMethod::GET);
- res_accelerometer_x->observable(true);
-
- res_accelerometer_y = client.create_resource("3313/0/5703", "Accelerometer Y");
- res_accelerometer_y->set_value(0);
- res_accelerometer_y->methods(M2MMethod::GET);
- res_accelerometer_y->observable(true);
-
- res_accelerometer_z = client.create_resource("3313/0/5704", "Accelerometer Z");
- res_accelerometer_z->set_value(0);
- res_accelerometer_z->methods(M2MMethod::GET);
- res_accelerometer_z->observable(true);
-
- res_magnometer_x = client.create_resource("3314/0/5702", "Magnometer X");
- res_magnometer_x->set_value(0);
- res_magnometer_x->methods(M2MMethod::GET);
- res_magnometer_x->observable(true);
-
- res_magnometer_y = client.create_resource("3314/0/5703", "Magnometer Y");
- res_magnometer_y->set_value(0);
- res_magnometer_y->methods(M2MMethod::GET);
- res_magnometer_y->observable(true);
-
- res_magnometer_z = client.create_resource("3314/0/5704", "Magnometer Z");
- res_magnometer_z->set_value(0);
- res_magnometer_z->methods(M2MMethod::GET);
- res_magnometer_z->observable(true);
-
- res_gyroscope_x = client.create_resource("3334/0/5702", "Gyroscope X");
- res_gyroscope_x->set_value(0);
- res_gyroscope_x->methods(M2MMethod::GET);
- res_gyroscope_x->observable(true);
-
- res_gyroscope_y = client.create_resource("3334/0/5703", "Gyroscope Y");
- res_gyroscope_y->set_value(0);
- res_gyroscope_y->methods(M2MMethod::GET);
- res_gyroscope_y->observable(true);
-
- res_gyroscope_z = client.create_resource("3334/0/5704", "Gyroscope Z");
- res_gyroscope_z->set_value(0);
- res_gyroscope_z->methods(M2MMethod::GET);
- res_gyroscope_z->observable(true);
-
- res_adc_voltage = client.create_resource("3316/0/5700", "Voltage");
- res_adc_voltage->set_value(0);
- res_adc_voltage->methods(M2MMethod::GET);
- res_adc_voltage->observable(true);
-
res_pressure = client.create_resource("3323/0/5700", "Pressure");
res_pressure->set_value(0);
res_pressure->methods(M2MMethod::GET);
res_pressure->observable(true);
- res_distance = client.create_resource("3330/0/5700", "Distance");
- res_distance->set_value((float)999.9);
- res_distance->methods(M2MMethod::GET);
- res_distance->observable(true);
#endif /* SEND_ALL_SENSORS */
printf("Initialized Pelion Client. Registering...\n");