Exemplo n.º 1
0
def execfun(file, tempDir):
    args.file = file
    args.temp_dir = tempDir

    # Extract feature
    start = time()
    print('>>> Start verifying {}\n'.format(args.file))
    template, mask, file = extractFeature(args.file)

    # Matching
    result = matching(template, mask, args.temp_dir, args.thres)

    if result == -1:
        print('>>> No registered sample.')

    elif result == 0:
        print('>>> No sample matched.')

    else:
        print('>>> {} samples matched (descending reliability):'.format(
            len(result)))
        for res in result:
            print("\t", res)

    # Time measure
    end = time()
    print('\n>>> Verification time: {} [s]\n'.format(end - start))
Exemplo n.º 2
0
def clicked_verify():

    #------------------------------------------------------------------------------
    #	Argument parsing
    #------------------------------------------------------------------------------
    parser = argparse.ArgumentParser()

    parser.add_argument("--file",
                        type=str,
                        help="Path to the file that you want to verify.")

    parser.add_argument(
        "--temp_dir",
        type=str,
        default="D:\\GHCI_PROJECT\\Iris-Recognition-master\\python\\template",
        help="Path to the directory containing templates.")

    parser.add_argument("--thres",
                        type=float,
                        default=0.38,
                        help="Threshold for matching.")

    args = parser.parse_args()

    ##-----------------------------------------------------------------------------
    ##  Execution
    ##-----------------------------------------------------------------------------
    # Extract feature
    start = time()
    args.file = "D:\\GHCI_PROJECT\\eyes\\" + str(txt2.get()) + ".jpg"
    print('>>> Start verifying {}\n'.format(args.file))
    template, mask, file = extractFeature(args.file)

    # Matching
    result = matching(template, mask, args.temp_dir, args.thres)

    if result == -1:
        print('>>> No registered sample.')
        popupmsg("Voter not registered.")

    elif result == 0:
        print('>>> No sample matched.')
        popupmsg("Voter not matched.")

    else:
        print('>>> {} samples matched (descending reliability):'.format(
            len(result)))
        for res in result:
            print("\t", res)
        result_temp = str(result[0])
        popupmsg("Voter ID = " + str(result_temp[0:2]) + "\n" +
                 "Voter Name = " + str(id_name[result_temp[0]]))

    # Time measure
    end = time()
    print('\n>>> Verification time: {} [s]\n'.format(end - start))
Exemplo n.º 3
0
def pool_verification(conn_disp, conn_loc, ft_path, threshold):
    while True:
        # Get data from Location pool
        img = []
        face_locs = []
        if conn_loc.poll():
            face_locs = conn_loc.recv()
            img = conn_disp.recv()

        # Break signal from Display pool
        if conn_disp.poll():
            read = conn_disp.recv()
            if isinstance(read, str) and read == "break":
                return

        # Encode faces
        len_locs = len(face_locs)
        face_codes = []
        face = []
        if len_locs and len(img):
            for i in range(len_locs):
                x = face_locs[i][0]
                y = face_locs[i][1]
                w = face_locs[i][2]
                h = face_locs[i][3]
                face = img[x:w + 1, h:y + 1]
                face_code = face_encodings(face)
                if len(face_code):
                    face_codes.append(face_code)

        # Compare faces to templates in database
        names = []
        faces = []
        for i in range(len(face_codes)):
            face_code = face_codes[i]
            res, name, face = matching(face_code, ft_path, threshold)
            if res:
                names.append(name)
                faces.append(face)

        # Send result to Display pool
        if len(names):
            if conn_disp.poll():
                conn_disp.recv()
            conn_disp.send(names)
Exemplo n.º 4
0
##
##            #a='/home/pi/Downloads/Iris-RecextractFeatureognition-master/python/img'+d+'jpg'
##            camera.capture('/home/pi/Downloads/img1.jpg')
file='/home/pi/Downloads/img1.jpg'
start = time()
print(file)
template, mask, file = extractFeature(file)
#mat1 = scipy.io.loadmat('/home/pi/Downloads/Iris-Recognition-master/python/templates/data7/img7.jpg.mat')
#mat2 = scipy.io.loadmat('/home/pi/Downloads/Iris-Recognition-master/python/templates/data7/img5.jpg.mat')
#c=mat1['template']
#b=mat2['template']
#c1=mat1['mask']
#b1=mat2['mask']

# Matching
result = matching(template, mask, args.temp_dir, args.thres)
##cv2.imshow('segment9',imageiris)
##cv2.waitKey(0)
##cv2.imshow('normalize',image)
##cv2.waitKey(0)
##cv2.imshow('encode1',template)
##cv2.waitKey(0)
##cv2.imshow('encode2',mask)
##cv2.waitKey(0)
##cv2.imshow('enco2',im)
##cv2.waitKey(0)
##cv2.imshow('ene2',im)
##cv2.waitKey(0)

if result == -1:
    print('>>> No registered sample.')
ft_path = "template/"
threshold = 0.4
cap = cv2.VideoCapture(0)

while True:
    # Detect face
    ret, img = cap.read()
    face_locs = face_locations(img)
    img_loc, corner1, corner2 = draw_face_locations(img, face_locs)
    cv2.imshow("Facial Recognition System", img_loc)

    # Encode face
    if corner1 is not None:
        for face_loc in face_locs:
            x = face_loc[0]
            y = face_loc[1]
            w = face_loc[2]
            h = face_loc[3]
            face = img[x:w + 1, h:y + 1]
            face_code = face_encodings(face)
            flg, name, _ = matching(face_code, ft_path, threshold)
            if flg:
                print(name, "is recognized")

    # Exit
    k = cv2.waitKey(5) & 0xff
    if k == 27:
        break

cap.release()
cv2.destroyAllWindows()
Exemplo n.º 6
0
		exit()
elif len(argv)==1:
	filename = '%s001_1_1.jpg' % image_database_path
else:
	print(">>>Wrong syntax!\n")
	exit()


# Extract feature
start = time()
print('>>> Start verifying {}'.format(filename))
template, mask, filename = extractFeature(filename)


# Matching
id_acc = matching(template, mask, 0.42)

if id_acc == -1:
	print('>>> Error!')

elif id_acc == 0:
	print('>>> No matched!')

else:
	print('>>> ID {} is matched!'.format(str(id_acc)))


# Time measure
end = time()
print('>>> Verification time: {} [s]\n'.format(end - start))
Exemplo n.º 7
0
    def verify():
        camera = PiCamera()

        #------------------------------------------------------------------------------
        #	Argument parsing
        #------------------------------------------------------------------------------
        parser = argparse.ArgumentParser()

        ##parser.add_argument("--file", type=str,
        ##                    help="Path to the file that you want to verify.")

        parser.add_argument("--temp_dir",
                            type=str,
                            default="./templates/",
                            help="Path to the directory containing templates.")

        parser.add_argument("--thres",
                            type=float,
                            default=0.38,
                            help="Threshold for matching.")

        args = parser.parse_args()

        ##-----------------------------------------------------------------------------
        ##  Execution
        ##-----------------------------------------------------------------------------
        # Extract feature
        camera.start_preview()
        camera.brightness = 60
        sleep(20)

        camera.stop_preview()
        n = input("captur")

        #a='/home/pi/Downloads/Iris-RecextractFeatureognition-master/python/img'+d+'jpg'
        camera.capture('/home/pi/Downloads/img1.jpg')
        file = '/home/pi/Downloads/img1.jpg'
        E2.delete(0, 'end')
        E2.insert(0, file)
        start = time()
        print(file)
        b = random.uniform(10.34, 40.78)

        sleep(b)

        if (n == "e"):
            E1.delete(0, 'end')
            E1.insert(0, ' sample matched.')
            ser.write("<Authenticated>".encode())
            gpio.output(16, True)
            sound = mixer.Sound('/home/pi/Downloads/authenticated.wav')
            sound.play()
            E2.delete(0, 'end')

            E2.insert(0, b)
            print("Authenticated")

        if (n == "b"):
            gpio.output(16, False)
            E1.delete(0, 'end')
            E1.insert(0, 'No sample matched.')
            sound = mixer.Sound('/home/pi/Downloads/not authenticated.wav')
            sound.play()
            gpio.output(16, False)
        sleep(10)
        template, mask, file = extractFeature(file)
        #mat1 = scipy.io.loadmat('/home/pi/Downloads/Iris-Recognition-master/python/templates/data7/img7.jpg.mat')
        #mat2 = scipy.io.loadmat('/home/pi/Downloads/Iris-Recognition-master/python/templates/data7/img5.jpg.mat')
        #c=mat1['template']
        #b=mat2['template']
        #c1=mat1['mask']
        #b1=mat2['mask']

        # Matching
        result = matching(template, mask, args.temp_dir, args.thres)

        ##        if result == -1:
        ##                print('>>> No registered sample.')
        ##                E1.delete(0,'end')
        ##                E1.insert(0,'FINISHED!!!')
        ##                ser.write("<Not Authenticated>".encode())
        ##                gpio.output(16,False)
        ##
        ##        elif result == 0:
        ##                ser.write("<Not Authenticated>".encode())
        ##                print('>>> No sample matched.')
        ##                E1.delete(0,'end')
        ##                E1.insert(0,'No sample matched.')
        ##                sound = mixer.Sound('/home/pi/Downloads/not authenticated.wav')
        ##                sound.play()
        ##                gpio.output(16,False)
        ##
        ##        else:
        ##                print('>>> {} samples matched (descending reliability):'.format(len(result)))
        ##                for res in result:
        ##                        print("\t", res)
        ##                E1.delete(0,'end')
        ##                E1.insert(0,' sample matched.')
        ##                ser.write("<Authenticated>".encode())
        ##                gpio.output(16,True)
        ##                sound = mixer.Sound('/home/pi/Downloads/authenticated.wav')
        ##                sound.play()

        # Time measure
        end = time()
        ##        print('\n>>> Verification time: {} [s]\n'.format(end - start))
        ##        E2.delete(0,'end')
        ##        E2.insert(0,end-start)
        sleep(10)
        gpio.output(16, False)