Ejemplo n.º 1
0
 def full_calibrate(self):
     timestamp = time.strftime('%m-%d_%H%M')
     fileName = "data\\dmc_calib_" + timestamp
     self.calibrate_both_spins(fileName)
     self.calibrate_all_straight(fileName)
     for i in range(2):
         serial.write("cmd write_motor_settings")
     print("!!!\nDone calibrating!\n!!!")
 def full_calibrate(self):
     timestamp = time.strftime('%m-%d_%H%M')
     fileName = "data\\dmc_calib_" + timestamp
     self.calibrate_both_spins(fileName)
     self.calibrate_all_straight(fileName)
     for i in range(2):
         serial.write("cmd write_motor_settings")
     print("!!!\nDone calibrating!\n!!!")
Ejemplo n.º 3
0
 def full_calibrate(self):
     #first, calibrate droplet spin for one direction. This will give us motor sign and relative values for the three motors.
     #then calibrate directions 0, 2, and 4 (or 1, 3, and 5)
     timestamp = time.strftime('%m-%d_%H%M')
     fileName = "data\\dmc_calib_" + timestamp
     self.calibrate_both_spins(fileName)
     self.calibrate_all_straight(fileName)
     for i in range(2):
         serial.write("cmd write_motor_settings")
     print("!!!\nDone calibrating!\n!!!")
Ejemplo n.º 4
0
 def full_calibrate(self):
     #first, calibrate droplet spin for one direction. This will give us motor sign and relative values for the three motors.
     #then calibrate directions 0, 2, and 4 (or 1, 3, and 5)
     timestamp = time.strftime('%m-%d_%H%M')
     fileName = "data\\dmc_calib_" + timestamp
     self.calibrate_both_spins(fileName)
     self.calibrate_all_straight(fileName)
     for i in range(2):
         serial.write("cmd write_motor_settings")
     print("!!!\nDone calibrating!\n!!!")
Ejemplo n.º 5
0
def process_and_transmit_line(line):
    byte_strs = [str(line[i])+str(line[i+1]) for i in range(1,len(line)-1,2)]
    byte_sum=0
    for b in byte_strs:
        byte_sum+=int(b,16)
    byte_sum-=int(byte_strs[-1],16)
    if(format(0xFF&((0xFF^(byte_sum & 0xFF))+1),'02X') != byte_strs[-1]):
        print("checksum mismatch?")
        print("\t" + format(0xFF&((0xFF^(byte_sum & 0xFF))+1),'02X'))
        print("\t" + byte_strs[-1])
    dat = ''.join([chr(int(b,16)) for b in byte_strs])
    #print(dat)
    Serial.write(dat)
 def __init__(self):
     self.rr = RR_API()
     self.rr.Connect("localhost")    
     port_h = serial.open_serial_port("COM9")
     serial.set_global_port(port_h)
Ejemplo n.º 7
0
        if id == "ROOT":
            id = rootID
        str = '"{0}"->{{{1:.0f}, {2:.0f}, {3:.1f}}}'.format(id, xPositions[i], yPositions[i], orientations[i])
        print(str,end="")
        file.write(str)
        if i is not (numFids-1):
            print(", ",end="")
            file.write(", ")
    print("}},")
    file.write('}},\n')
    
timeStr = time.strftime("%d%m%Y_%H%M%S")
root = "ROOT"

with open("rnbCalibData_{0}.txt".format(timeStr),'w') as f:
    with serial.Wrapper("COM3") as port:
        while True:
            while port.inWaiting() > 0:
                data = port.readLine()
                data = data.strip()
                idMatch = re.match("My ID is: ([0-9A-F]{4})", data)
                dataMatch = re.match('\{"([0-9A-F]{4})", "([0-9A-F]{4})", \{\{-?\d+,-?\d+,-?\d+,-?\d+,-?\d+,-?\d+\},\{-?\d+,-?\d+,-?\d+,-?\d+,-?\d+,-?\d+\},\{-?\d+,-?\d+,-?\d+,-?\d+,-?\d+,-?\d+\},\{-?\d+,-?\d+,-?\d+,-?\d+,-?\d+,-?\d+\},\{-?\d+,-?\d+,-?\d+,-?\d+,-?\d+,-?\d+\},\{-?\d+,-?\d+,-?\d+,-?\d+,-?\d+,-?\d+\}\}\},', data)
                if idMatch:
                    root = idMatch.group(1)
                elif dataMatch:
                    root = dataMatch.group(2)
                    print(data[:-2],end=', ')
                    f.write(data[:-2])
                    f.write(', ')
                    printRRData(f, root)
                else:
Ejemplo n.º 8
0
 def __init__(self):
     self.rr = RR_API()
     self.rr.Connect("localhost")
     port_h = serial.open_serial_port("COM9")
     serial.set_global_port(port_h)
Ejemplo n.º 9
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 def __del__(self):
     serial.cleanup()
     self.rr.close()
     print("Finished cleaning up myself.")
Ejemplo n.º 10
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    def calibrate_droplet_straight(self, direction, fName=None):
        alpha = 1.  #reflection coefficient
        gamma = 2.  #expansion coefficient
        rho = -0.5  #contraction coefficient
        sigma = 0.5 #shrink coefficient

        x_0 = np.array([0,0])
        x_1 = np.array([100,-100])
        x_2 = np.array([-100,100])
        spx = np.array([x_0, x_1, x_2])
        old_spx = np.zeros((3,2))

        if fName is None:
            settings_history_fName = 'dmc_data_%s.csv'%("cw" if cw_q else "ccw")
            simplex_history_fName = 'dmc_data_%s.csv'%("cw" if cw_q else "ccw")
        else:
            settings_history_fName = fName + "_%s_hist.csv"%(direction)
            simplex_history_fName = fName + "_%s_spx.csv"%(direction)

        settings_history_file = open(settings_history_fName,'w')
        settings_history_file.write('mot0set, mot1set, mot2set, radius, sign, distance_traveled\n')

        simplex_history_file = open(simplex_history_fName,'w')
        simplex_history_file.write('spx00, spx01, spx02, rad0, spx10, spx11, spx12, rad1, spx20, spx21, spx22, rad2, spx30, spx31, spx32, rad3\n')

        finished = False
        def fun(x):
            (radius, travel_dir, dist_traveled) =self.test_straight_settings(x, direction, settings_history_file)
            return -radius - travel_dir*dist_traveled
        try:
            while(True):
                spx = np.array(sorted(spx, key=fun))
                if str(spx) == str(old_spx):
                    finished = True
                old_spx = copy.deepcopy(spx)

                func_values = [fun(point) for point in spx]
                output_array = np.array(map(lambda spx_point, radius: np.append(spx_point, radius), spx, func_values)).flatten().tolist()
                simplex_history_file.write(",".join(map(str, output_array))+"\n")
                simplex_history_file.flush()



                print("spx: %s"%(str(spx)))
                x_o = np.mean(spx[:-1],0).astype(int)
                x_r = (x_o + alpha*(x_o - spx[-1])).astype(int)
                if (fun(x_r)<fun(spx[-2])) and (fun(x_r)>=fun(spx[0])):
                    print("Reflecting.")
                    spx[-1] = x_r
                elif fun(x_r)<fun(spx[0]):

                    x_e = (x_o + gamma*(x_o-spx[-1])).astype(int)
                    if fun(x_e)<fun(x_r):
                        print("Expanding.")
                        spx[-1] = x_e
                    else:
                        print("Reflecting.")
                        spx[-1] = x_r
                else:

                    x_c = (x_o + rho*(x_o-spx[-1])).astype(int)
                    if fun(x_c)<fun(spx[-1]):
                        print("Contracting.")
                        spx[-1] = x_c
                    else:
                        for i in range(1,3):
                            spx[i] = (spx[0] + sigma*(spx[i]-spx[0])).astype(int)

                if finished:
                    set_motors(i, *spx[0])
                    print("We're done straightening direction %d"%direction)
                    settings_history_file.close()
                    simplex_history_file.close()
                    return cw_q
        except KeyboardInterrupt:
            print("Calibration interrupted by user.")
            settings_history_file.close()
            simplex_history_file.close()
            serial.cleanup()
Ejemplo n.º 11
0
def set_motors(direction, mot0val, mot1val, mot2val):
    serial.write("cmd set_motors %d %d %d %d"%(direction, mot0val, mot1val, mot2val))
    #Once more, just to be sure.
    serial.write("cmd set_motors %d %d %d %d"%(direction, mot0val, mot1val, mot2val))
Ejemplo n.º 12
0
def set_motors(direction, mot0val, mot1val, mot2val):
    serial.write("cmd set_motors %d %d %d %d" %
                 (direction, mot0val, mot1val, mot2val))
    #Once more, just to be sure.
    serial.write("cmd set_motors %d %d %d %d" %
                 (direction, mot0val, mot1val, mot2val))
Ejemplo n.º 13
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def set_led(r, g, b):
    serial.write("cmd set_led rgb %d %d %d" % (r, g, b))
Ejemplo n.º 14
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 def __init__(self):
     self.rr = RoboRealmInterface()
     port_h = serial.open_serial_port("COM10")
     serial.set_global_port(port_h)
Ejemplo n.º 15
0
import MySerialWrapper as Serial
import time

PROGRAM_DELAY = 6.0 #seconds
programTime = PROGRAM_DELAY-0.50
bytespersec = Serial.baud/8
secondsPerLine = (21./bytespersec) #21 is the no. of bytes of each line
lineCount = int(PROGRAM_DELAY*0.9/secondsPerLine)

#need to set the two lines below based on your system.
port = Serial.open_serial_port("COM7")
hexFilePath = "C:\Users\Kailaash\Documents\Atmel Studio\Droplets\Droplets\Debug\Droplets.hex"

Serial.set_global_port(port)

#count = lineCount
now = 0
def process_and_transmit_line(line):
    byte_strs = [str(line[i])+str(line[i+1]) for i in range(1,len(line)-1,2)]
    byte_sum=0
    for b in byte_strs:
        byte_sum+=int(b,16)
    byte_sum-=int(byte_strs[-1],16)
    if(format(0xFF&((0xFF^(byte_sum & 0xFF))+1),'02X') != byte_strs[-1]):
        print("checksum mismatch?")
        print("\t" + format(0xFF&((0xFF^(byte_sum & 0xFF))+1),'02X'))
        print("\t" + byte_strs[-1])
    dat = ''.join([chr(int(b,16)) for b in byte_strs])
    #print(dat)
    Serial.write(dat)
    
Ejemplo n.º 16
0
def set_led(r, g, b):
    serial.write("cmd set_led rgb %d %d %d"%(r, g, b))
Ejemplo n.º 17
0
    def calibrate_droplet_straight(self, direction, fName=None):
        alpha = 1.  #reflection coefficient
        gamma = 2.  #expansion coefficient
        rho = -0.5  #contraction coefficient
        sigma = 0.5  #shrink coefficient

        x_0 = np.array([0, 0])
        x_1 = np.array([100, -100])
        x_2 = np.array([-100, 100])
        spx = np.array([x_0, x_1, x_2])
        old_spx = np.zeros((3, 2))

        if fName is None:
            settings_history_fName = 'dmc_data_%s.csv' % ("cw"
                                                          if cw_q else "ccw")
            simplex_history_fName = 'dmc_data_%s.csv' % ("cw"
                                                         if cw_q else "ccw")
        else:
            settings_history_fName = fName + "_%s_hist.csv" % (direction)
            simplex_history_fName = fName + "_%s_spx.csv" % (direction)

        settings_history_file = open(settings_history_fName, 'w')
        settings_history_file.write(
            'mot0set, mot1set, mot2set, radius, sign, distance_traveled\n')

        simplex_history_file = open(simplex_history_fName, 'w')
        simplex_history_file.write(
            'spx00, spx01, spx02, rad0, spx10, spx11, spx12, rad1, spx20, spx21, spx22, rad2, spx30, spx31, spx32, rad3\n'
        )

        finished = False

        def fun(x):
            (radius, travel_dir, dist_traveled) = self.test_straight_settings(
                x, direction, settings_history_file)
            return -radius - travel_dir * dist_traveled

        try:
            while (True):
                spx = np.array(sorted(spx, key=fun))
                if str(spx) == str(old_spx):
                    finished = True
                old_spx = copy.deepcopy(spx)

                func_values = [fun(point) for point in spx]
                output_array = np.array(
                    map(lambda spx_point, radius: np.append(spx_point, radius),
                        spx, func_values)).flatten().tolist()
                simplex_history_file.write(",".join(map(str, output_array)) +
                                           "\n")
                simplex_history_file.flush()

                print("spx: %s" % (str(spx)))
                x_o = np.mean(spx[:-1], 0).astype(int)
                x_r = (x_o + alpha * (x_o - spx[-1])).astype(int)
                if (fun(x_r) < fun(spx[-2])) and (fun(x_r) >= fun(spx[0])):
                    print("Reflecting.")
                    spx[-1] = x_r
                elif fun(x_r) < fun(spx[0]):

                    x_e = (x_o + gamma * (x_o - spx[-1])).astype(int)
                    if fun(x_e) < fun(x_r):
                        print("Expanding.")
                        spx[-1] = x_e
                    else:
                        print("Reflecting.")
                        spx[-1] = x_r
                else:

                    x_c = (x_o + rho * (x_o - spx[-1])).astype(int)
                    if fun(x_c) < fun(spx[-1]):
                        print("Contracting.")
                        spx[-1] = x_c
                    else:
                        for i in range(1, 3):
                            spx[i] = (spx[0] + sigma *
                                      (spx[i] - spx[0])).astype(int)

                if finished:
                    set_motors(i, *spx[0])
                    print("We're done straightening direction %d" % direction)
                    settings_history_file.close()
                    simplex_history_file.close()
                    return cw_q
        except KeyboardInterrupt:
            print("Calibration interrupted by user.")
            settings_history_file.close()
            simplex_history_file.close()
            serial.cleanup()
Ejemplo n.º 18
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def move_steps(direction, num_steps):
    serial.write("cmd move_steps %d %d"%(direction, num_steps))
Ejemplo n.º 19
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def move_steps(direction, num_steps):
    serial.write("cmd move_steps %d %d" % (direction, num_steps))
Ejemplo n.º 20
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def stop_walk():
    serial.write("cmd stop_walk")
Ejemplo n.º 21
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def stop_walk():
    serial.write("cmd stop_walk")
Ejemplo n.º 22
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 def __init__(self):
     self.rr = RoboRealmInterface()
     port_h = serial.open_serial_port("COM10")
     serial.set_global_port(port_h)
Ejemplo n.º 23
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 def __del__(self):
     serial.cleanup()
     self.rr.close()
     print("Finished cleaning up myself.")