Axeda Ready Demo for Freescale FRDM-KL46Z as accident alert system
Dependencies: FRDM_MMA8451Q KL46Z-USBHost MAG3110 SocketModem TSI mbed FATFileSystem
Fork of AxedaGo-Freescal_FRDM-KL46Z revert by
main.cpp
- Committer:
- AxedaCorp
- Date:
- 2014-07-01
- Revision:
- 0:65004368569c
- Child:
- 1:5ad12c581db4
File content as of revision 0:65004368569c:
#include "mbed.h" #include "MTSSerial.h" #include "Wifi.h" #include "TSISensor.h" #include "MMA8451Q.h" #include "MAG3110.h" #include "USBHostCam.h" #include "axToolkit.h" /*********************************************/ /* In the following lines please input: */ /* on line 17: your serial number */ /* on line 18: your wifi SSID */ /* on line 19: your wifi password/key */ /* on line 20: your security type (WPA... */ /*********************************************/ #define YOUR_SERIAL_NUM "your_serial_here_123" #define SSID "yourWifi" #define AP_Security "SECURITYKEYHERE" #define AP_Key WPA2 //security type examples: NONE, WEP64, WEP128, WPA, WPA2 /*********************************************/ /*Axeda connections */ /*********************************************/ #define MODEL "Freescale46" //using Freescale as a placeholder #define SERVER_NAME "toolbox-stage-connect.axeda.com" //IP = 216.34.120.53/52 stage/public URL=toolbox-stage-connect.axeda.com #define PORT_NUM 80 using namespace mts; //Hardware Support Stuff // Include support for on-board green and red LEDs #define LED_ON 0 #define LED_OFF 1 DigitalOut greenLED(LED_GREEN); DigitalOut redLED(LED_RED); // Include support for onboard pushbuttons (value = 0 when pressed) DigitalIn sw1(PTC3); DigitalIn sw3(PTC12); TSISensor slider; AnalogIn lightSense(PTE22); #define MMA8451_I2C_ADDRESS (0x1d<<1) MMA8451Q acc(PTE25, PTE24, MMA8451_I2C_ADDRESS); MAG3110 mag(PTE25, PTE24); //Camera support /* #if defined(TARGET_KL46Z) uint8_t image_buf[1024*24]; #elif defined(TARGET_KL25Z) uint8_t image_buf[1024*12]; #endif */ int main() { TSISensor touchSensor; //float accels[3]; //float resting; int SEVERITY; //int HURT_BUTTON_STATE=0; //int OK_BUTTON_STATE=0; double status=0; //Some light I/O setup: redLED=LED_OFF; greenLED=LED_OFF; // Turn on pull up resistors on pushbutton inputs sw1.mode(PullUp); sw3.mode(PullUp); //Setup the Camera: /* int size=0; USBHostCam* cam = new USBHostCam(_320x240); if (!cam->connect()) { error("WebCam not found.\n"); greenLED=LED_ON; } else { redLED=LED_ON; } */ //Set the network parameters std::string ssid = SSID; std::string securityKey = AP_Security; Wifi::SecurityType securityType = Wifi::AP_Key; //Wait for wifi module to boot up for (int i = 10; i >= 0; i = i - 2) { wait(2); printf("Waiting %d seconds...\n\r", i); } //Setup serial interface to WiFi module MTSSerial* serial = new MTSSerial(PTD3, PTD2, 256, 256); serial->baud(9600); //Setup Wifi class Wifi* wifi = Wifi::getInstance(); printf("Init: %s\n\r", wifi->init(serial) ? "SUCCESS" : "FAILURE"); wifi->sendBasicCommand("set comm size 1460", 500, CR); wifi->sendBasicCommand("set comm time 6000", 500, CR); // wifi->sendBasicCommand("set comm match "+EOT, 3, CR); //Setup and check connection printf("Set Network: %s\n\r", getCodeNames(wifi->setNetwork(ssid, securityType, securityKey)).c_str()); printf("Set DHCP: %s\n\r", getCodeNames(wifi->setDeviceIP("DHCP")).c_str()); while (! wifi->connect()) { printf("Connect: Failure\r\n"); wait(1); } printf("Connected To Wifi!"); //Now we setup the Axeda Service: ax_platform sbox; ax_deviceID thisDevice; ax_dataSet *ds[1]; // ax_file pic; ax_createPlatform(&sbox, SERVER_NAME, NULL, PORT_NUM); ax_data_createModelSerialDeviceId(&thisDevice, MODEL, YOUR_SERIAL_NUM, NULL); // ax_createFile(&pic, "mypic.jpg", "pic", sizeof(image_buf), (unsigned char*)&image_buf); /*wait(0.7); acc.getAccAllAxis( accels ); resting = abs(accels[0]) + abs(accels[1]) + abs(accels[2]); printf("Set up resting accelerometer - %.2f\r\n", resting); wait(0.1);*/ //Ping while (true) { ds[0]=(ax_dataSet *)malloc(sizeof(ax_dataSet)); printf("\n\n\r ready \n\n"); SEVERITY=0; //ax_data_createSet(ds[0], 0, AX_NO_PRIORITY); //HURT_BUTTON_STATE=sw1.mode(PullUp); //OK_BUTTON_STATE=sw3.mode(PullUp); sw3.mode(PullUp); sw1.mode(PullUp); while(sw3&&sw1){ status=0; greenLED=LED_ON; wait(0.1); greenLED=LED_OFF; wait(0.1); if (!sw3){ status=2; } else{ status=1; } } //SEND button push (hurt or ok) ax_data_addAnalogToSet(ds[0], "status", status); while(SEVERITY<=1){ SEVERITY=100*touchSensor.readPercentage(); redLED=LED_ON; wait(0.1); redLED=LED_OFF; wait(0.1); } SEVERITY=100*touchSensor.readPercentage(); printf("\n\r%d\n",SEVERITY); //Send data about severity (left to right position on touchpad) ax_data_addAnalogToSet(ds[0], "severity",SEVERITY); //Send data about orientation ax_data_addAnalogToSet(ds[0], "accel_x", acc.getAccX()); ax_data_addAnalogToSet(ds[0], "accel_y", acc.getAccY()); ax_data_addAnalogToSet(ds[0], "accel_z", acc.getAccZ()); printf("\n\r%f\n", acc.getAccX()); printf("\n\r%f\n", acc.getAccY()); printf("\n\r%f\n", acc.getAccZ()); ax_platform_sendData(&sbox, &thisDevice, ds, 1); ax_data_destroySet(ds[0]); /* size = cam->readJPEG(image_buf, sizeof(image_buf)); ax_platform_upload(&sbox, &thisDevice, &pic); */ // printf("Ping Server: %s\n\r", wifi->ping("8.8.8.8") ? "Success" : "Failed"); wait(10); } }