Project Autus - Automated Plant Chamber

Dependencies:   TextLCD mbed

Fork of keypad_test by Plamen Totev

Autus

This is the codebase accompanying the project Autus.

Autus is an automated growth chamber for plants.

Features

Control Humidity inside chamber wrt to external humidity. Control Temperature inside chamber. ( Peltier Heaters/Coolers ) Water and shower plants. Control soil humidity. Monitor water tanks level (Load Cell) /media/uploads/umairaftab/frdm_-_new_page1.png

Code Base Features

Fixed timing and CRC for DHT-11 Sensor. Fixed OneWire bug for ds18b20

Cyclic Executive Scheduler with Priority. Async IPC framework for PC App over bluetooth

Fake RTC systick, I was having some trouble with the on board rtc.

/media/uploads/umairaftab/download.png

Committer:
umairaftab
Date:
Mon Apr 14 19:18:14 2014 +0000
Revision:
57:7ab93ed49b70
Parent:
12:b3137bb72ef7
Cosmetic Changes, Menus added

Who changed what in which revision?

UserRevisionLine numberNew contents of line
umairaftab 4:8d1df60ef3c3 1 #include "mbed.h"
umairaftab 4:8d1df60ef3c3 2 #include "airhumidity.h"
umairaftab 4:8d1df60ef3c3 3 #include "DHT.h"
umairaftab 4:8d1df60ef3c3 4
umairaftab 4:8d1df60ef3c3 5 int error_outside;
umairaftab 4:8d1df60ef3c3 6 int error_inside;
umairaftab 4:8d1df60ef3c3 7
umairaftab 5:bf31a58915a5 8 DHT sensor_outside(PTD1,SEN11301P);
umairaftab 5:bf31a58915a5 9 DHT sensor_inside(PTD3,SEN11301P);
umairaftab 4:8d1df60ef3c3 10
umairaftab 4:8d1df60ef3c3 11 float get_air_temp_outside(int tempunit){
umairaftab 4:8d1df60ef3c3 12 wait(1);
umairaftab 4:8d1df60ef3c3 13 error_outside = sensor_outside.readData();
umairaftab 4:8d1df60ef3c3 14 switch (tempunit){
umairaftab 4:8d1df60ef3c3 15 case 0:
umairaftab 4:8d1df60ef3c3 16 return sensor_outside.ReadTemperature(CELCIUS);
umairaftab 12:b3137bb72ef7 17 //break;
umairaftab 4:8d1df60ef3c3 18 case 1:
umairaftab 4:8d1df60ef3c3 19 return sensor_outside.ReadTemperature(FARENHEIT);
umairaftab 12:b3137bb72ef7 20 //break;
umairaftab 4:8d1df60ef3c3 21 case 2:
umairaftab 4:8d1df60ef3c3 22 return sensor_outside.ReadTemperature(KELVIN);
umairaftab 12:b3137bb72ef7 23 // break;
umairaftab 5:bf31a58915a5 24 default:
umairaftab 5:bf31a58915a5 25 return sensor_inside.ReadTemperature(CELCIUS);
umairaftab 12:b3137bb72ef7 26 // break;
umairaftab 4:8d1df60ef3c3 27 }
umairaftab 4:8d1df60ef3c3 28 }
umairaftab 4:8d1df60ef3c3 29
umairaftab 4:8d1df60ef3c3 30 float get_air_humid_outside(){
umairaftab 4:8d1df60ef3c3 31 wait(1);
umairaftab 4:8d1df60ef3c3 32 error_outside = sensor_outside.readData();
umairaftab 4:8d1df60ef3c3 33 return sensor_outside.ReadHumidity();
umairaftab 4:8d1df60ef3c3 34 }
umairaftab 4:8d1df60ef3c3 35
umairaftab 4:8d1df60ef3c3 36 float get_air_dewpoint_outside(){
umairaftab 4:8d1df60ef3c3 37 wait(1);
umairaftab 4:8d1df60ef3c3 38 error_outside = sensor_outside.readData();
umairaftab 4:8d1df60ef3c3 39 return sensor_outside.CalcdewPointFast(sensor_outside.ReadTemperature(CELCIUS), sensor_outside.ReadHumidity());
umairaftab 4:8d1df60ef3c3 40
umairaftab 4:8d1df60ef3c3 41 }
umairaftab 4:8d1df60ef3c3 42
umairaftab 4:8d1df60ef3c3 43 //INSIDE FUNCTIONS
umairaftab 4:8d1df60ef3c3 44 float get_air_temp_inside(int tempunit){
umairaftab 4:8d1df60ef3c3 45 wait(1);
umairaftab 4:8d1df60ef3c3 46 error_inside = sensor_inside.readData();
umairaftab 4:8d1df60ef3c3 47 switch (tempunit){
umairaftab 4:8d1df60ef3c3 48 case 0:
umairaftab 4:8d1df60ef3c3 49 return sensor_inside.ReadTemperature(CELCIUS);
umairaftab 12:b3137bb72ef7 50 // break;
umairaftab 4:8d1df60ef3c3 51 case 1:
umairaftab 4:8d1df60ef3c3 52 return sensor_inside.ReadTemperature(FARENHEIT);
umairaftab 12:b3137bb72ef7 53 // break;
umairaftab 4:8d1df60ef3c3 54 case 2:
umairaftab 4:8d1df60ef3c3 55 return sensor_inside.ReadTemperature(KELVIN);
umairaftab 12:b3137bb72ef7 56 // break;
umairaftab 5:bf31a58915a5 57 default:
umairaftab 5:bf31a58915a5 58 return sensor_inside.ReadTemperature(CELCIUS);
umairaftab 12:b3137bb72ef7 59 // break;
umairaftab 4:8d1df60ef3c3 60 }
umairaftab 4:8d1df60ef3c3 61 }
umairaftab 4:8d1df60ef3c3 62
umairaftab 4:8d1df60ef3c3 63
umairaftab 4:8d1df60ef3c3 64 float get_air_humid_inside(){
umairaftab 4:8d1df60ef3c3 65 wait(1);
umairaftab 4:8d1df60ef3c3 66 error_inside = sensor_inside.readData();
umairaftab 4:8d1df60ef3c3 67 return sensor_inside.ReadHumidity();
umairaftab 4:8d1df60ef3c3 68 }
umairaftab 4:8d1df60ef3c3 69
umairaftab 4:8d1df60ef3c3 70 float get_air_dewpoint_inside(){
umairaftab 4:8d1df60ef3c3 71 wait(1);
umairaftab 4:8d1df60ef3c3 72 error_inside = sensor_inside.readData();
umairaftab 4:8d1df60ef3c3 73 return sensor_inside.CalcdewPointFast(sensor_inside.ReadTemperature(CELCIUS), sensor_inside.ReadHumidity());
umairaftab 4:8d1df60ef3c3 74
umairaftab 4:8d1df60ef3c3 75 }
umairaftab 4:8d1df60ef3c3 76 //printf("Temperature is %4.0f C \r\n",sensor.ReadTemperature(CELCIUS));
umairaftab 4:8d1df60ef3c3 77 //printf("Temperature is %4.2f F \r\n",sensor.ReadTemperature(FARENHEIT));
umairaftab 4:8d1df60ef3c3 78 //printf("Temperature is %4.2f K \r\n",sensor.ReadTemperature(KELVIN));
umairaftab 4:8d1df60ef3c3 79 //printf("Humidity is %4.2f \r\n",sensor.ReadHumidity());
umairaftab 4:8d1df60ef3c3 80 //printf("Dew point is %4.2f \r\n",sensor.CalcdewPoint(sensor.ReadTemperature(CELCIUS), sensor.ReadHumidity()));
umairaftab 4:8d1df60ef3c3 81 //printf("Dew point (fast) is %4.2f \r\n",sensor.CalcdewPointFast(sensor.ReadTemperature(CELCIUS), sensor.ReadHumidity()));