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airrace_drone.py
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airrace_drone.py
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#!/usr/bin/python
"""
AirRace competition in Vienna. See robotchallenge.org
usage:
./airrace.py <TODO>
"""
import sys
import datetime
import multiprocessing
import cv2
import math
from pave import PaVE, isIFrame, frameNumber, timestamp, correctTimePeriod
from airrace import processFrame, allStripPoses
from sourcelogger import SourceLogger
from ardrone2 import ARDrone2, ManualControlException, manualControl, normalizeAnglePIPI, distance
import viewlog
from line import Line
from pose import Pose
from striploc import StripsLocalisation, REF_CIRCLE_RADIUS
from striploc import PATH_STRAIGHT, PATH_TURN_LEFT, PATH_TURN_RIGHT
MAX_ALLOWED_SPEED = 0.8
STRIPS_FAILURE_SPEED = 0.5 # ??? speed when localisation is not updated from last image ... maybe two images??
TRANSITION_SPEED = 0.4
NUM_FAST_STRIPS = 4 # now the same number for straight and turn segments -> TODO split
MAX_ALLOWED_VIDEO_DELAY = 2.0 # in seconds, then it will wait (desiredSpeed = 0.0)
def timeName( prefix, ext ):
dt = datetime.datetime.now()
filename = prefix + dt.strftime("%y%m%d_%H%M%S.") + ext
return filename
g_pave = None
def wrapper( packet ):
global g_pave
if g_pave == None:
g_pave = PaVE()
g_pave.append( packet )
header,payload = g_pave.extract()
while payload:
if isIFrame( header ):
tmpFile = open( "tmp.bin", "wb" )
tmpFile.write( payload )
tmpFile.flush()
tmpFile.close()
cap = cv2.VideoCapture( "tmp.bin" )
ret, frame = cap.read()
assert ret
if ret:
return (frameNumber( header ), timestamp(header)), processFrame( frame, debug=False )
header,payload = g_pave.extract()
g_queueResults = multiprocessing.Queue()
def getOrNone():
if g_queueResults.empty():
return None
return g_queueResults.get()
class AirRaceDrone( ARDrone2 ):
def __init__( self, replayLog=None, speed = 0.2, skipConfigure=False, metaLog=None, console=None ):
self.loggedVideoResult = None
self.lastImageResult = None
self.videoHighResolution = False
ARDrone2.__init__( self, replayLog, speed, skipConfigure, metaLog, console )
if replayLog == None:
name = timeName( "logs/src_cv2_", "log" )
metaLog.write("cv2: "+name+'\n' )
self.loggedVideoResult = SourceLogger( getOrNone, name ).get
self.startVideo( wrapper, g_queueResults, record=True, highResolution=self.videoHighResolution )
else:
assert metaLog
self.loggedVideoResult = SourceLogger( None, metaLog.getLog("cv2:") ).get
self.startVideo( record=True, highResolution=self.videoHighResolution )
def update( self, cmd="AT*COMWDG=%i,\r" ):
ARDrone2.update( self, cmd )
if self.loggedVideoResult != None:
self.lastImageResult = self.loggedVideoResult()
def competeAirRace( drone, desiredHeight = 1.7 ):
loops = []
drone.speed = 0.1
maxVideoDelay = 0.0
maxControlGap = 0.0
loc = StripsLocalisation()
remainingFastStrips = 0
desiredSpeed = TRANSITION_SPEED
updateFailedCount = 0
try:
drone.wait(1.0)
drone.setVideoChannel( front=False )
drone.takeoff()
poseHistory = []
startTime = drone.time
while drone.time < startTime + 1.0:
drone.update("AT*PCMD=%i,0,0,0,0,0\r") # drone.hover(1.0)
poseHistory.append( (drone.time, (drone.coord[0], drone.coord[1], drone.heading), (drone.angleFB, drone.angleLR)) )
magnetoOnStart = drone.magneto[:3]
print "NAVI-ON"
pathType = PATH_TURN_LEFT
virtualRefCircle = None
startTime = drone.time
sx,sy,sz,sa = 0,0,0,0
lastUpdate = None
while drone.time < startTime + 600.0:
sz = max( -0.2, min( 0.2, desiredHeight - drone.coord[2] ))
sx = max( 0, min( drone.speed, desiredSpeed - drone.vx ))
if drone.lastImageResult:
lastUpdate = drone.time
assert len( drone.lastImageResult ) == 2 and len( drone.lastImageResult[0] ) == 2, drone.lastImageResult
(frameNumber, timestamp), rects = drone.lastImageResult
viewlog.dumpCamera( "tmp_%04d.jpg" % (frameNumber/15,), 0 )
# keep history small
videoTime = correctTimePeriod( timestamp/1000., ref=drone.time )
videoDelay = drone.time - videoTime
if videoDelay > 1.0:
print "!DANGER! - video delay", videoDelay
maxVideoDelay = max( videoDelay, maxVideoDelay )
toDel = 0
for oldTime, oldPose, oldAngles in poseHistory:
toDel += 1
if oldTime >= videoTime:
break
poseHistory = poseHistory[:toDel]
tiltCompensation = Pose(desiredHeight*oldAngles[0], desiredHeight*oldAngles[1], 0) # TODO real height?
print "FRAME", frameNumber/15, "[%.1f %.1f]" % (math.degrees(oldAngles[0]), math.degrees(oldAngles[1])),
loc.updateFrame( Pose( *oldPose ).add(tiltCompensation), allStripPoses( rects, highResolution=drone.videoHighResolution ) )
if loc.pathType != pathType:
print "TRANS", pathType, "->", loc.pathType
if pathType == PATH_TURN_LEFT and loc.pathType == PATH_STRAIGHT:
if len(loops) > 0:
print "Loop %d, time %d" % (len(loops), drone.time-loops[-1])
print "-----------------------------------------------"
loops.append( drone.time )
if drone.magneto[:3] == magnetoOnStart:
print "!!!!!!!! COMPASS FAILURE !!!!!!!!"
pathType = loc.pathType
print "----"
remainingFastStrips = NUM_FAST_STRIPS
if loc.crossing:
print "X", True, remainingFastStrips
else:
print pathType, loc.pathUpdated, remainingFastStrips
if not loc.pathUpdated:
updateFailedCount += 1
if updateFailedCount > 1:
print "UPDATE FAILED", updateFailedCount
else:
updateFailedCount = 0
if remainingFastStrips > 0:
remainingFastStrips -= 1
desiredSpeed = MAX_ALLOWED_SPEED
if not loc.pathUpdated and not loc.crossing:
desiredSpeed = STRIPS_FAILURE_SPEED
else:
desiredSpeed = TRANSITION_SPEED
if videoDelay > MAX_ALLOWED_VIDEO_DELAY:
desiredSpeed = 0.0
if drone.battery < 10:
print "BATTERY LOW!", drone.battery
# height debugging
#print "HEIGHT\t%d\t%d\t%.2f\t%d\t%d\t%d\t%d\t%d\t%d" % tuple([max([0]+[w for ((x,y),(w,h),a) in rects])] + list(drone.altitudeData[:4]) + list(drone.pressure) )
for sp in allStripPoses( rects, highResolution=drone.videoHighResolution ):
sPose = Pose( *oldPose ).add(tiltCompensation).add( sp )
viewlog.dumpBeacon( sPose.coord(), index=3 )
viewlog.dumpObstacles( [[(sPose.x-0.15*math.cos(sPose.heading), sPose.y-0.15*math.sin(sPose.heading)),
(sPose.x+0.15*math.cos(sPose.heading), sPose.y+0.15*math.sin(sPose.heading))]] )
refCircle,refLine = loc.getRefCircleLine( Pose(drone.coord[0], drone.coord[1], drone.heading) )
if refCircle == None and refLine == None and virtualRefCircle != None:
refCircle = virtualRefCircle
# error definition ... if you substract that you get desired position or angle
# error is taken from the path point of view, x-path direction, y-positive left, angle-anticlockwise
errY, errA = 0.0, 0.0
assert refCircle == None or refLine == None # they cannot be both active at the same time
if refCircle:
if pathType == PATH_TURN_LEFT:
errY = refCircle[1] - math.hypot( drone.coord[0]-refCircle[0][0], drone.coord[1]-refCircle[0][1] )
errA = normalizeAnglePIPI( - math.atan2( refCircle[0][1] - drone.coord[1], refCircle[0][0] - drone.coord[0] )
- math.radians(-90) + drone.heading )
if pathType == PATH_TURN_RIGHT:
errY = math.hypot( drone.coord[0]-refCircle[0][0], drone.coord[1]-refCircle[0][1] ) - refCircle[1]
errA = normalizeAnglePIPI( - math.atan2( refCircle[0][1] - drone.coord[1], refCircle[0][0] - drone.coord[0] )
- math.radians(90) + drone.heading )
if refLine:
errY = refLine.signedDistance( drone.coord )
errA = normalizeAnglePIPI( drone.heading - refLine.angle )
# get the height first
if drone.coord[2] < desiredHeight - 0.1 and drone.time-startTime < 5.0:
sx = 0.0
if refCircle == None and refLine == None and virtualRefCircle == None:
sx = 0.0 # wait for Z-up
if drone.coord[2] > desiredHeight - 0.1:
print "USING VIRTUAL LEFT TURN CIRCLE!"
circCenter = Pose( drone.coord[0], drone.coord[1], drone.heading ).add( Pose(0.0, REF_CIRCLE_RADIUS, 0 )).coord()
viewlog.dumpBeacon( circCenter, index=0 )
virtualRefCircle = circCenter, REF_CIRCLE_RADIUS
# error correction
# the goal is to have errY and errA zero in 1 second -> errY defines desired speed at given distance from path
sy = max( -0.2, min( 0.2, -errY-drone.vy ))/2.0
# there is no drone.va (i.e. derivative of heading) available at the moment ...
sa = max( -0.1, min( 0.1, -errA/2.0 ))*1.35*(desiredSpeed/0.4) # originally set for 0.4=OK
# print "%0.2f\t%d\t%0.2f\t%0.2f\t%0.2f" % (errY, int(math.degrees(errA)), drone.vy, sy, sa)
prevTime = drone.time
drone.moveXYZA( sx, sy, sz, sa )
maxControlGap = max( drone.time - prevTime, maxControlGap )
poseHistory.append( (drone.time, (drone.coord[0], drone.coord[1], drone.heading), (drone.angleFB, drone.angleLR)) )
print "NAVI-OFF", drone.time - startTime
drone.hover(0.5)
drone.land()
drone.setVideoChannel( front=True )
except ManualControlException, e:
print "ManualControlException"
if drone.ctrlState == 3: # CTRL_FLYING=3 ... i.e. stop the current motion
drone.hover(0.1)
drone.land()
drone.wait(1.0)
drone.stopVideo()
print "MaxVideoDelay", maxVideoDelay
print "MaxControlGap", maxControlGap
print "Loops", len(loops)-1, [int(now-prev) for prev,now in zip(loops[:-1],loops[1:])]
print "Battery", drone.battery
if __name__ == "__main__":
import launcher
launcher.launch( sys.argv, AirRaceDrone, competeAirRace )