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AntennaTracker
UAV/UAS Tracking Antenna System
Revision 0:96bf30dd833a, committed 2011-05-30
- Comitter:
- danidanko
- Date:
- Mon May 30 21:28:33 2011 +0000
- Commit message:
- v1.01
Changed in this revision
diff -r 000000000000 -r 96bf30dd833a HMC6352.lib --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/HMC6352.lib Mon May 30 21:28:33 2011 +0000 @@ -0,0 +1,1 @@ +http://mbed.org/users/aberk/code/HMC6352/#83c0cb554099
diff -r 000000000000 -r 96bf30dd833a mbed.bld --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/mbed.bld Mon May 30 21:28:33 2011 +0000 @@ -0,0 +1,1 @@ +http://mbed.org/users/mbed_official/code/mbed/builds/63bcd7ba4912
diff -r 000000000000 -r 96bf30dd833a tracker/tracker.h --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/tracker/tracker.h Mon May 30 21:28:33 2011 +0000 @@ -0,0 +1,21 @@ +#define PI 3.14159274 +#define ON 1 +#define OFF 0 +typedef unsigned char uchar; + + +float torads(float deg); +float todegs(float rad); + +//Gets string from groundStation and converts to Lat Lon Alt +void getlla(float& p_lat, float& p_lon, float& p_alt, float& g_lat, float& g_lon, float& g_alot); + +//converts lat lon alt to ECEF earth centered earth fixed coordinates +void lla2ecef(float lat, float lon, float alt, float& x, float& y, float& z); + +//converts 4 bytes to float +float tofloat(uchar b0, uchar b1, uchar b2, uchar b3); + +//this is a testing function it allows me to input a puse width in uS and output it to the servo(s) +// Allows me to get y = Mx + B.. it's not used in the main program but is usefull +void servo_calib();
diff -r 000000000000 -r 96bf30dd833a tracking.c --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/tracking.c Mon May 30 21:28:33 2011 +0000 @@ -0,0 +1,263 @@ +/* Tracking Antenna for UCSD AUVSI Team DANIEL BEDENKO d.bedenko@gmail.com + * This is the final project class ECE118 .. This will work with any autopilot + * software as long as the Serial Input communication must be in the following format + * 1 Byte 0xFF [Start Byte] + * 4 bytes Plane Lat [32 bit float little endian] + * 4 bytes Plane Lon + * 4 bytes Plane Alt + * 4 bytes Ground Lat [32 bit float little endian] + * 4 bytes Ground Lon + * 4 bytes Gorund Alt + * 1 byte 0xFE [End Byte] + * Also one would have to recalibrate the servos to their system this particular system + * uses one 360 Servo from ServoCity for Azimuth tracking and one 180 Standard Servo for + * elevation Tracking. Theoretically this will work for a moble ground station + * Use at own risk. + */ + +#include <HMC6352.h> +#include <tracker.h> + + +//Magnetometer +HMC6352 compass(p28, p27); +//serial ports +Serial usb_232(USBTX, USBRX); // tx, rx Debugging Port not used in actual Op +Serial groundStation(p9, p10); // tx, rx +//leds +DigitalOut led1(LED1); DigitalOut led2(LED2); DigitalOut led3(LED3); DigitalOut led4(LED4); + + +int main() { +// wgs84 g for ground p for plane lat[deg] lon[deg] alt[m] +float compas, p_lat, p_lon, p_alt, g_lat, g_lon, g_alt; +// everything in meters ecef NED is north east down ecef_xyz is the vector pointing +// from the ground to the plane in ecef. NED is the North East Down vector from +// ground to plane +float p_x, p_y, p_z, g_x, g_y, g_z, ecef_x, ecef_y, ecef_z, N, E, D; +// groundStation pos in Radians +float g_latR, g_lonR; +// Azimuth and Elevation Angles [Radians] +float Az, Ev; +// Servo commands +int Az_uS, Ev_uS; +bool sanDiego; + +//Set up serial settings Bits/S 8N1 is default + usb_232.baud(57600); + groundStation.baud(57600); +//HMC6352 Magnetometor Settings //Continuous mode, periodic set/reset, 20Hz rate. + compass.setOpMode(HMC6352_CONTINUOUS, 1, 20); +// Set up Leds OFF + led1 = led2 = led3 = led4 = OFF; + +// Set up Servos for Azimuth and Elevation + PwmOut Az_servo(p21); + Az_servo.period(0.020); + PwmOut Ev_servo(p22); + Ev_servo.period(0.020); + + // Set up Initial Servo Position + Az = torads(90); + Ev = torads(30); + Az_uS = (int)(0.9195*Az*Az + 121.18*Az + 1308.43); + Ev_uS = (int)(-1.223*Ev*Ev - 589.16*Ev + 2376.78); + + +/* + * Get serial string and figure out if you're in Lexington Part, MD or in San Diego, CA + * This is competition specific for the san diego team, you have to change these + * values if you're not flying in san diego or maryland + * Magnetic Declination in San Diego = 12.1167 EAST Turn on LED 3 + * Magnetic Declination in Lexington Park, MD = 10.9833 West Turn on LED 4 + * if SanDiego = 1 you in sandiego else you're in marryland + */ + while (1) //set up while + { + + + //set up servo for turning on + + Az_servo.pulsewidth_us(Az_uS); + Ev_servo.pulsewidth_us(Ev_uS); + + + wait(0.05); + compas = (compass.sample() / 10.0); + usb_232.printf("[%f] Heading \n", compas); + led2 = !led2; //blink untill heading is set + + getlla(p_lat, p_lon, p_alt, g_lat, g_lon, g_alt); + + if (g_lon < -100){sanDiego = 1; led3 = ON;}//-100 long is about center of US + else{sanDiego = 0; led4 = ON;} + + if (sanDiego == 1 && compas > 346.88 && compas < 348.88) + {usb_232.printf("[%f] TRUE NORTH = 347.8 Magnetic North -- SD, CA\n", compas); + led2 = OFF; //reference found enter main loop + Ev = torads(1); + Ev_uS = (int)(-1.223*Ev*Ev - 589.16*Ev + 2376.78); + Ev_servo.pulsewidth_us(Ev_uS); + break; + } + if (sanDiego == 0 && compas < 11.98 && compas > 9.98) + {usb_232.printf("[%f] TRUE NORTH = 10.98 Magnetic North -- Lexington Park, MD\n", compas); + led2 = OFF; //reference found enter main loop + Ev = torads(1); + Ev_uS = (int)(-1.223*Ev*Ev - 589.16*Ev + 2376.78); + Ev_servo.pulsewidth_us(Ev_uS); + break; + } + }//end of set up while loop you have now pointed the antenna tracker at TRUE NORTH + + +//Start Main loop + while(1){ + + /* This main loop gets plane coordinates from the serial port + * converts it to a NED vector pointing from the ground statio + * to the airplane and then sends servos to point at it + */ + + // get ground and plane coordinates + getlla(p_lat, p_lon, p_alt, g_lat, g_lon, g_alt); + + //convert airplane to ecef + lla2ecef(p_lat, p_lon, p_alt, p_x, p_y, p_z); + + //convert ground to ecef + lla2ecef(g_lat, g_lon, g_alt, g_x, g_y, g_z); + + //subtract plane from ground to get the difference vector + ecef_x = p_x - g_x; + ecef_y = p_y - g_y; + ecef_z = p_z - g_z; + + g_latR= torads(g_lat); + g_lonR= torads(g_lon); + + /* translation ecef xyz to north east down + * + * TE2L = [ -sin(glat)*cos(glon) -sin(glat)*sin(glon) cos(glat) + * -sin(glon) cos(glon) 0 + * -cos(glat)*cos(glon) -cos(glat)*sin(glon) -sin(glat) ] + * NED = TE2L*ecef + */ + + N = -sin(g_latR)*cos(g_lonR)*ecef_x + -sin(g_latR)*sin(g_lonR)*ecef_y + cos(g_latR)*ecef_z; + E = -sin(g_lonR)*ecef_x + cos(g_lonR)*ecef_y; + D = -cos(g_latR)*cos(g_lonR)*ecef_x -cos(g_latR)*sin(g_lonR)*ecef_y + -sin(g_latR)*ecef_z; + D = (-1)*D; //we are on the ground looking up! :) + + Az = atan2(N,E); + Ev = abs(atan2(D, sqrt(N*N + E*E))); // this will always be positive + + // if plane is on the ground next to ground station point north + if(g_lat == p_lat && g_lon == p_lon) + {Ev = 0; Az = PI/2;} + + //Aling Az is from 0 to 2*pi - no negative numbers + if (Az < 0) + Az = Az + 2*PI; + + //from here on out it depends on the how the servo pulse width relates to + //angle her my azimuth servo is defined from 270 -> -90 deg 1900 - 1120 uS + //and the elevation Servo is defines from 0 - 180 deg 0500 - 2400 uS + + + //blackout region where the azimuth will swing back to Az-PI + //And Ev = pi - Ev + if (Az > 17*PI/12 && Az < 19*PI/12) + {Az = Az - PI; + Ev = PI - Ev;} + + // 270 -> -90 + if (Az > 3*PI/2 && Az < 2*PI) + Az = Az - 2*PI; + + //now get the uS .. the values below are from polyfit matlab + //from your servo calibrations to the second degree + + Az_uS = (int)(0.9195*Az*Az + 121.18*Az + 1308.43); + Ev_uS = (int)(-1.223*Ev*Ev - 589.16*Ev + 2376.78); + + // Send Servo Commands + Az_servo.pulsewidth_us(Az_uS); + Ev_servo.pulsewidth_us(Ev_uS); + + + // usb_232.printf("[%2.2f Az] [%i Az uS] [%2.2f Ev] [%i Az uS] \n", todegs(Az), Az_uS, todegs(Ev), Ev_uS ); + + //usb_232.printf("%2.2f Azimuth %2.2f North %2.2f East\n", todegs(Az), N, E ); + // usb_232.printf("[%f %f %f ] Plane \n", p_lat, p_lon, p_alt ); + // usb_232.printf("[%f %f %f ] Plane ecef \n ", p_x, p_y, p_z ); + // usb_232.printf("[%f %f %f ] Ground \n", g_lat, g_lon, g_alt); + // usb_232.printf("[%f %f %f ] Ground ecef \n ", g_x, g_y, g_z ); +} + +} // end main +void lla2ecef(float lat, float lon, float alt, float& x, float& y, float& z) +{ + // WGS84 ellipsoid constants: + float a = 6378137; //earth semi-major axis + float esqrd = 0.006694379990141; //Eccentricity + float N; + //calculation + lat = torads(lat); + lon = torads(lon); + //The length of normal (N) to the ellipsoid + N = a / sqrt(1 - esqrd * sin( lat ) * sin( lat ) ) ; + x = (N+alt) * cos(lat) * cos(lon); + y = (N+alt) * cos(lat) * sin(lon); + z = ((1-esqrd) * N + alt) * sin(lat); + +} +float torads(float deg) +{ + return (deg*PI) / 180 ; //in rads +} +float todegs(float rads) +{ + return (rads*180) / PI ; //in degs +} +void servo_calib(void) +{ + PwmOut servo(p22); + servo.period(0.020); + char pwm_uS[5]; + int pwm_uS_i; + while(1) + { + usb_232.printf(" \n Enter PWM in uS [0600-2400] : "); + usb_232.scanf("%s", pwm_uS); + pwm_uS_i = atof ( pwm_uS ); + servo.pulsewidth_us(pwm_uS_i); + usb_232.printf("\n You Entered: %i ", pwm_uS_i); + } +} +void getlla(float& p_lat, float& p_lon, float& p_alt, float& g_lat, float& g_lon, float& g_alt) +{ + uchar msg[26]; + do{ + while( (msg[0] = groundStation.getc()) != 0xff); // wait for the start of communication string + for(int i=1; i<26; i++) { + msg[i] = groundStation.getc(); //fill message string + } + }while(msg[25] != 0xfe); // make sure the last character is 0xFE otherwise re read + led1 = !led1; //blink :) + //airplane + p_lat = tofloat(msg[4], msg[3], msg[2], msg[1]); + p_lon = tofloat(msg[8], msg[7], msg[6], msg[5]); + p_alt = tofloat(msg[12], msg[11], msg[10], msg[9]); + //ground + g_lat = tofloat(msg[16], msg[15], msg[14], msg[13]); + g_lon = tofloat(msg[20], msg[19], msg[18], msg[17]); + g_alt = tofloat(msg[24], msg[23], msg[22], msg[21]); + +} +float tofloat(uchar b0, uchar b1, uchar b2, uchar b3) +{ + uchar b[] = {b3, b2, b1, b0}; + float *fp = (float *)b; + return *fp; +} \ No newline at end of file