Ejemplos de Boson en Python

Ejemplo n.º 1

Archivo: image_capture_SBC.py Proyecto: Polarization-Lab/IRCSP

def take_image(filename):
    """take_image: The function will create a Operating System timestamp variable (OS_time), configure
                the 2 IRCSP cameras to take an image (image1 & image2) and store the FPA temperatures
                (temp1 & temp2) into an HDF5 File format with a unique naming convention.

    Parameters:
                filename - the filename of the HDF5 file.


    Returns: HDF5 file with 2 FLIR Boson Images, 2 FPA Temperatures & OS_time string.
    """

    # Time/Speed Test - Start
    start = datetime.datetime.now()

    #Create Timestamp for File Creation Tracking
    now = datetime.datetime.now()
    OS_time = now.strftime("%H:%M")

    camera1 = Boson(port='COM4')
    #camera2 = Boson(port='COM6')

    print(camera1.find_video_device())
    #print(camera2.find_video_device())

    #set FFC to manual
    #camera1.set_ffc_manual()
    #camera2.set_ffc_manual()

    #get FPA temperature
    #temp1 = camera1.get_fpa_temperature()
    #temp2 = camera2.get_fpa_temperature()

    #Take Image
    #image1 = camera1.grab(device_id = 1)
    #image2 = camera2.grab(device_id = 2)

    #Close Camera
    camera1.close()
    #camera2.close()

    # Open as Read-Write ("a" - creates file if doesn't exist)
    #with h5py.File(filename, "a") as h5:
    #h5.attrs["OS_time"] = OS_time
    #h5["image1"] = image1
    #h5["image2"] = image2
    #h5["temp1"] = temp1
    #h5["temp2"] = temp2

    #Time/Speed Test - Finish
    finish = datetime.datetime.now()
    print("Image Capture File: ", filename, " created in ", finish - start)

    #Adjust Sleep for File Creation Rate - (File/Seconds)
    time.sleep(10)

Ejemplo n.º 2

Archivo: threadedboson.py Proyecto: Polarization-Lab/IRCSP

    def _connect(self, device, port, baudrate, loglevel):
        try:
            self.camera = Boson(port, baudrate, loglevel)
            self.camera.setup_video(device)
            self.camera.grab()

            if not self.camera.cap.isOpened():
                warnings.warn("Failed to open camera")
                self.camera = None

        except IOError:
            warnings.warn("Failed to find camera")
            self.camera = None

Ejemplo n.º 3

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_capture_unix():
    with Boson() as camera:
        res = camera.grab()

        assert res is not None
        assert len(res.shape) == 2
        assert res.dtype == "uint16"

Ejemplo n.º 4

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_ffc_request():
    with Boson() as camera:
        n_frames = camera.get_frame_count()
        print(n_frames)
        camera.do_ffc()
        time.sleep(1)
        ffc_frame = camera.get_last_ffc_frame_count()
        assert (ffc_frame - n_frames) < 200

Ejemplo n.º 5

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_capture_windows():
    with Boson() as camera:
        # Currently have no way of figuring this out
        res = camera.grab()

        assert res is not None
        assert len(res.shape) == 2
        assert res.dtype == "uint16"

Ejemplo n.º 6

Archivo: threadedboson.py Proyecto: Polarization-Lab/IRCSP

class ThreadedBoson(ThreadedCamera):
    def __init__(self,
                 device=None,
                 port=None,
                 baudrate=921600,
                 loglevel=logging.WARNING):
        super(ThreadedBoson, self).__init__()
        self.temperature = None
        self._connect(device, port, baudrate, loglevel)

    def _connect(self, device, port, baudrate, loglevel):
        try:
            self.camera = Boson(port, baudrate, loglevel)
            self.camera.setup_video(device)
            self.camera.grab()

            if not self.camera.cap.isOpened():
                warnings.warn("Failed to open camera")
                self.camera = None

        except IOError:
            warnings.warn("Failed to find camera")
            self.camera = None

    def height(self):
        return self.camera.cap.get(cv2.CAP_PROP_FRAME_HEIGHT)

    def width(self):
        return self.camera.cap.get(cv2.CAP_PROP_FRAME_WIDTH)

    def channels(self):
        return 1

    def dtype(self):
        return np.uint16

    def _grab(self):
        image = np.expand_dims(self.camera.grab(), -1)
        self.min_count = image.min()
        self.max_count = image.max()
        return image

    def close(self):
        self.camera.close()

    def get_target_fps(self):
        return self.camera.cap.get(cv2.CAP_PROP_FPS)

Ejemplo n.º 7

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_ffc_temperature():
    with Boson() as camera:
        assert camera.get_last_ffc_temperature() > 0

Ejemplo n.º 8

Archivo: quick_snap.py Proyecto: Polarization-Lab/IRCSP

And a single polarization state (unpol, H,V, ect)
Output will be saved as a hdf5 file 
Uses flirpy, make sure enviroment is open
uses python-usbtmc

@author: khart
"""
from flirpy.camera.boson import Boson
import matplotlib.pyplot as plt
import numpy as np
import h5py
import time

#choose the ROI
ymin = 100
ymax = 250
xmin = 100
xmax = 200

camera1 = Boson()
print(camera1.find_serial_device())
image1 = camera1.grab()
t1 = camera1.get_fpa_temperature()
camera1.close()

print('cam temp is ' + str(t1) + ' C')

plt.matshow(image1[xmin:xmax, ymin:ymax])
plt.colorbar()
plt.show()

Ejemplo n.º 9

Archivo: basic_im_aquisition.py Proyecto: Polarization-Lab/IRCSP

# -*- coding: utf-8 -*-
"""
Created on Tue Sep  8 09:50:57 2020

@author: khart
"""

import matplotlib.pyplot as plt
from flirpy.camera.boson import Boson

camera1 = Boson(port='COM5')
camera2 = Boson(port='COM6')

print(camera1.find_video_device())
print(camera2.find_video_device())

# set FFC to manual
camera1.set_ffc_manual()
camera2.set_ffc_manual()

# get FPA temperature
temp1 = camera1.get_fpa_temperature()
temp2 = camera2.get_fpa_temperature()

# take image
im1 = camera1.grab(device_id=1)
im2 = camera2.grab(device_id=2)
camera1.close()
camera2.close()

plt.imshow(im1)

Ejemplo n.º 10

Archivo: single_cam_mono_sweep.py Proyecto: Polarization-Lab/IRCSP

save_path = 'C:\\Users\\khart\\Documents\\IRCSP2_data\\mono_data\\'
name = 'cam1_test'

#choose the ROI
ymin = 0;
ymax = 250;
xmin = 0;
xmax = 320;

#initialize monochromator
instr = initialize()
shutter(instr,1)

#initialize camera
camera = Boson()

#choose wavelengths
samps    = 80;
waves    = np.linspace(6,14,samps);
response = np.zeros(samps);
err      = np.zeros(samps);
images   = [];

i =0;
while i <samps:
    changeWavelength(instr,waves[i]);
    image       = camera.grab();
    images.append(image)
    response[i] = np.mean(image[ymin:ymax,xmin:xmax]);
    err[i]      = np.std(image[ymin:ymax,xmin:xmax]);

Ejemplo n.º 11

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_ffc_temperature_threshold():
    with Boson() as camera:
        temp_diff = 5.0
        camera.set_ffc_temperature_threshold(temp_diff)
        assert camera.get_ffc_temperature_threshold() == temp_diff

Ejemplo n.º 12

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_ffc_mode_auto():
    with Boson() as camera:
        camera.set_ffc_auto()
        mode = camera.get_ffc_mode()
        assert mode == flirpy.camera.boson.FLR_BOSON_AUTO_FFC

Ejemplo n.º 13

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_open_boson():
    camera = Boson()
    camera.close()

Ejemplo n.º 14

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

from flirpy.camera.boson import Boson
import flirpy.camera.boson
import pytest
import os
import time

if Boson.find_video_device() is None:
    pytest.skip("Boson not connected, skipping tests", allow_module_level=True)


def test_open_boson():
    camera = Boson()
    camera.close()


@pytest.mark.skipif(os.name != "nt", reason="Skipping Windows-only test")
def test_capture_windows():
    with Boson() as camera:
        # Currently have no way of figuring this out
        res = camera.grab()

        assert res is not None
        assert len(res.shape) == 2
        assert res.dtype == "uint16"


@pytest.mark.skipif(os.name == "nt", reason="Skipping on Windows")
def test_capture_unix():
    with Boson() as camera:
        res = camera.grab()

Ejemplo n.º 15

Archivo: boson_take_image.py Proyecto: Polarization-Lab/IRCSP

# -*- coding: utf-8 -*-
"""
Created on Fri Apr 16 11:24:49 2021

@author: khart
"""
from flirpy.camera.boson import Boson
import matplotlib.pyplot as plt
import cv2
import numpy as np
import time
import h5py

#initialize camera
camera = Boson()
camera.set_ffc_manual()
wait = 5
frames = 100


def take_image(frames):
    image = np.zeros([frames, 256, 320])
    for i in range(frames):
        im = camera.grab(device_id=1)
        image[i] = im
    return (np.mean(image, axis=0))


plt.imshow(take_image(3))

camera.close()

Ejemplo n.º 16

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_frame_count():
    with Boson() as camera:
        assert camera.get_frame_count() > 0

Ejemplo n.º 17

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_get_serial():
    with Boson() as camera:
        assert camera.get_camera_serial() != 0

Ejemplo n.º 18

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_ffc_frame_threshold():
    with Boson() as camera:
        thresh = 6000
        camera.set_ffc_frame_threshold(thresh)
        assert camera.get_ffc_frame_threshold() == thresh

Ejemplo n.º 19

from flirpy.camera.boson import Boson

c = Boson(port="COM14")
c.grab()
c2 = Boson(port="COM17")
c2.grab()
c.close()

Ejemplo n.º 20

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_ffc_mode_manual():
    with Boson() as camera:
        camera.set_ffc_manual()
        mode = camera.get_ffc_mode()
        assert mode == flirpy.camera.boson.FLR_BOSON_MANUAL_FFC

Ejemplo n.º 21

"""

from flirpy.camera.boson import Boson
import numpy as np
import matplotlib.pyplot as plt
import os.path
import h5py
import time

#ask user to input correct COM port
COM = input("What is the COM PORT? \n ")
print("Attempting to open ", COM)

#open camera object and set FFC to manual
try:
    cam = Boson(COM)
    cam.setup_video(device_id=1)
    cam.set_ffc_manual()
    temp = cam.get_fpa_temperature()
    print('The FPA temp is ', temp, ' C')
except:
    print('Could not open COM port, check camera is not in use')

#Ask user if an initical ffc is requested
ffc = input('would you like to do an initial ffc? [y,n] \n')

if ffc in ['Y', 'y', 'Yes', 'yes', 'YES']:
    print('Initiating FFC')
    cam.do_ffc()

#Ask user how many images and at what intervals

Ejemplo n.º 22

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_get_sensor_serial():
    # Skipped until proper CRC is implemented
    with Boson() as camera:
        assert camera.get_sensor_serial() != 0

Ejemplo n.º 23

from flirpy.camera.boson import Boson
import matplotlib.pyplot as plt
import cv2
import numpy as np
import time
import h5py
"""options for measurement"""
save_path = 'C:\\Users\\khart\\Documents\\IRCSP2_data\\NUC\\may19\\polarized\\'
meas_num = 10  # number of measurements to average over
wait = .1  # time between samples

angle_step = 1
angle_start = 0
angle_stop = 360
"""DO NOT CHANGE"""
camera1 = Boson(port='COM5')
camera2 = Boson(port='COM6')

# set FFC to manual
camera1.set_ffc_manual()
camera2.set_ffc_manual()

# SET UP MOTOR
motor = apt.Motor(83830282)

# set velocity parameters to be maximum
[minv, a, v] = motor.get_velocity_parameters()
[maxa, maxv] = motor.get_velocity_parameter_limits()

print('homing motor')
motor.set_velocity_parameters(minv, maxa, maxv)

Ejemplo n.º 24

#choose the ROI
ymin = 0;
ymax = 250;
xmin = 0;
xmax = 320;


#choose wavelengths
samps    = 5;
temp1 = np.zeros(samps);temp2 = np.zeros(samps)
avgs1 = np.zeros(samps);avgs2 = np.zeros(samps)
images1   = [];images2   = []

i =0;
while i <samps:
    camera1     = Boson(port = "COM5")
    print(camera1.find_serial_device())
    image1       = camera1.grab();
    t1           = camera1.get_fpa_temperature()
    camera1.close()
    
    camera2 = Boson(port = "COM6")
    image2       = camera2.grab();
    print(camera2.find_serial_device())
    t2           = camera2.get_fpa_temperature()
    camera2.close()
   
    print('sample #'+str(i)+' temp1 is '+str(t1)+' C,  '+'temp2 is '+str(t2)+' C')
    images1.append(image1)
    temp1[i]        = t1
    avgs1[i]        = np.mean(image1)

Ejemplo n.º 25

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_get_firmware_revision():
    with Boson() as camera:
        rev = camera.get_firmware_revision()
        assert len(rev) == 3

Ejemplo n.º 26

Archivo: stokes_image.py Proyecto: Polarization-Lab/IRCSP

"""options for measurement"""
name = "dark"
save_path = 'C:\\Users\\khart\\Documents\\IRCAM_data\\jun032021\\'

#SET UP MOTOR
motor = apt.Motor(83830277)

#set velocity parameters to be maximum
[minv, a, v] = motor.get_velocity_parameters()
[maxa, maxv] = motor.get_velocity_parameter_limits()

motor.set_velocity_parameters(minv, maxa, maxv)
motor.move_home(True)

#initialize camera
camera = Boson(port='COM4')
camera.set_ffc_manual()
wait = 5
frames = 100


def take_image(frames):
    image = np.zeros([frames, 256, 320])
    for i in range(frames):
        im = camera.grab(device_id=1)
        image[i] = im
    return (np.mean(image, axis=0))


#measurement sequence
I0 = take_image(frames)

Ejemplo n.º 27

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_get_fpa_temperature():
    with Boson() as camera:
        # In principle this could be exactly zero, but it's quite unlikely.
        assert camera.get_fpa_temperature() != 0

Ejemplo n.º 28

single_cam_mono_sweep
Created on Wed Dec  9 13:12:18 2020

This script will sweep over wavelength on the monochomator
for a single measurement configuration.

This includes image capture for a single camera (no MS)
And a single polarization state (unpol, H,V, ect)
Output will be saved as a hdf5 file 
Uses flirpy, make sure enviroment is open
uses python-usbtmc

@author: khart
"""
from flirpy.camera.boson import Boson
import matplotlib.pyplot as plt
import numpy as np
import h5py
import time

#initialize camera
camera1 = Boson(port="COM5")
camera2 = Boson(port="COM6")

print(camera1.find_video_device())
print(camera2.find_video_device())

#close camera
camera1.close()
camera2.close()

Ejemplo n.º 29

Archivo: test_boson.py Proyecto: zoltanszalontay/flirpy

def test_get_part_number():
    with Boson() as camera:
        pn = camera.get_part_number()
        assert pn != ""