import cv2 import dlib import numpy as np import os import time import mediapipe as mp from skimage import feature class AntiSpoofingSystem: def __init__(self): self.detector = dlib.get_frontal_face_detector() self.predictor = dlib.shape_predictor("PreTrained/shape_predictor_68_face_landmarks.dat") self.mp_hands = mp.solutions.hands self.hands = self.mp_hands.Hands(static_image_mode=False, max_num_hands=1, min_detection_confidence=0.7) self.cap = cv2.VideoCapture(0) self.cap.set(cv2.CAP_PROP_FRAME_WIDTH, 1280) self.cap.set(cv2.CAP_PROP_FRAME_HEIGHT, 720) self.save_directory = "Person" if not os.path.exists(self.save_directory): os.makedirs(self.save_directory) self.net_smartphone = cv2.dnn.readNet('PreTrained/yolov4.weights', 'PreTrained/yolov4.cfg') with open('PreTrained/coco.names', 'r') as f: self.classes_smartphone = f.read().strip().split('\n') self.EAR_THRESHOLD = 0.25 self.BLINK_CONSEC_FRAMES = 4 self.left_eye_state = False self.right_eye_state = False self.left_blink_counter = 0 self.right_blink_counter = 0 self.smartphone_detected = False self.smartphone_detection_frame_interval = 30 self.frame_count = 0 def calculate_ear(self, eye): A = np.linalg.norm(eye[1] - eye[5]) B = np.linalg.norm(eye[2] - eye[4]) C = np.linalg.norm(eye[0] - eye[3]) return (A + B) / (2.0 * C) def analyze_texture(self, face_region): gray_face = cv2.cvtColor(face_region, cv2.COLOR_BGR2GRAY) lbp = feature.local_binary_pattern(gray_face, P=8, R=1, method="uniform") lbp_hist, _ = np.histogram(lbp.ravel(), bins=np.arange(0, 58), range=(0, 58)) lbp_hist = lbp_hist.astype("float") lbp_hist /= (lbp_hist.sum() + 1e-5) return np.sum(lbp_hist[:10]) > 0.3 def detect_hand_gesture(self, frame): results = self.hands.process(cv2.cvtColor(frame, cv2.COLOR_BGR2RGB)) return results.multi_hand_landmarks is not None def detect_smartphone(self, frame): if self.frame_count % self.smartphone_detection_frame_interval == 0: blob = cv2.dnn.blobFromImage(frame, 1 / 255.0, (416, 416), swapRB=True, crop=False) self.net_smartphone.setInput(blob) output_layers_names = self.net_smartphone.getUnconnectedOutLayersNames() detections = self.net_smartphone.forward(output_layers_names) for detection in detections: for obj in detection: scores = obj[5:] class_id = np.argmax(scores) confidence = scores[class_id] if confidence > 0.5 and self.classes_smartphone[class_id] == 'cell phone': center_x = int(obj[0] * frame.shape[1]) center_y = int(obj[1] * frame.shape[0]) width = int(obj[2] * frame.shape[1]) height = int(obj[3] * frame.shape[0]) left = int(center_x - width / 2) top = int(center_y - height / 2) cv2.rectangle(frame, (left, top), (left + width, top + height), (0, 0, 255), 2) cv2.putText(frame, 'Smartphone Detected', (left, top - 10), cv2.FONT_HERSHEY_SIMPLEX, 0.5, (0, 0, 255), 2) self.smartphone_detected = True self.left_blink_counter = 0 self.right_blink_counter = 0 return self.frame_count += 1 self.smartphone_detected = False def detect_blink(self, left_ear, right_ear): if self.smartphone_detected: self.left_eye_state = False self.right_eye_state = False self.left_blink_counter = 0 self.right_blink_counter = 0 return False if left_ear < self.EAR_THRESHOLD: if not self.left_eye_state: self.left_eye_state = True else: if self.left_eye_state: self.left_eye_state = False self.left_blink_counter += 1 if right_ear < self.EAR_THRESHOLD: if not self.right_eye_state: self.right_eye_state = True else: if self.right_eye_state: self.right_eye_state = False self.right_blink_counter += 1 if self.left_blink_counter > 0 and self.right_blink_counter > 0: self.left_blink_counter = 0 self.right_blink_counter = 0 return True else: return False def run(self): blink_count = 0 hand_gesture_detected = False image_captured = False last_event_time = time.time() event_timeout = 60 message_displayed = False while True: ret, frame = self.cap.read() if not ret: break self.detect_smartphone(frame) if self.smartphone_detected: cv2.putText(frame, "Mobile phone detected, can't record attendance", (10, 30), cv2.FONT_HERSHEY_SIMPLEX, 0.7, (0, 0, 255), 2) blink_count = 0 if not self.smartphone_detected: gray = cv2.cvtColor(frame, cv2.COLOR_BGR2GRAY) faces = self.detector(gray) for face in faces: landmarks = self.predictor(gray, face) leftEye = np.array([(landmarks.part(n).x, landmarks.part(n).y) for n in range(36, 42)]) rightEye = np.array([(landmarks.part(n).x, landmarks.part(n).y) for n in range(42, 48)]) ear_left = self.calculate_ear(leftEye) ear_right = self.calculate_ear(rightEye) if self.detect_blink(ear_left, ear_right): blink_count += 1 cv2.putText(frame, f"Blink Count: {blink_count}", (10, 50), cv2.FONT_HERSHEY_SIMPLEX, 0.7, (0, 255, 0), 2) hand_gesture_detected = self.detect_hand_gesture(frame) if hand_gesture_detected: cv2.putText(frame, "Hand Gesture Detected", (10, 100), cv2.FONT_HERSHEY_SIMPLEX, 0.7, (0, 255, 0), 2) (x, y, w, h) = (face.left(), face.top(), face.width(), face.height()) expanded_region = frame[max(y - h // 2, 0):min(y + 3 * h // 2, frame.shape[0]), max(x - w // 2, 0):min(x + 3 * w // 2, frame.shape[1])] if blink_count >= 5 and hand_gesture_detected and self.analyze_texture(expanded_region) and not message_displayed: cv2.putText(frame, "Please hold still for 2 seconds...", (10, 150), cv2.FONT_HERSHEY_SIMPLEX, 0.7, (0, 0, 255), 2) cv2.imshow("Frame", frame) cv2.waitKey(1) time.sleep(2) message_displayed = True if message_displayed and not image_captured: timestamp = int(time.time()) picture_name = f"person_mediumres_face_{timestamp}.jpg" cv2.imwrite(os.path.join(self.save_directory, picture_name), expanded_region) image_captured = True cv2.imshow("Frame", frame) if image_captured or (time.time() - last_event_time > event_timeout and not hand_gesture_detected): break if cv2.waitKey(1) & 0xFF == ord('q'): break self.cap.release() cv2.destroyAllWindows() if image_captured: print(f"Person detected. Face image captured and saved as {picture_name}.") elif not hand_gesture_detected: print("No real person detected") if __name__ == "__main__": anti_spoofing_system = AntiSpoofingSystem() anti_spoofing_system.run()