diff --git a/Class/collect_data/face_reco_from_camera.py b/Class/collect_data/face_reco_from_camera.py index 44cb8dd..a602d14 100644 --- a/Class/collect_data/face_reco_from_camera.py +++ b/Class/collect_data/face_reco_from_camera.py @@ -9,7 +9,11 @@ import time from PIL import Image, ImageDraw, ImageFont # 1. Dlib 正向人脸检测器 -detector = dlib.get_frontal_face_detector() +# detector = dlib.get_frontal_face_detector() + +# OpenCV DNN face detector +detector = cv2.dnn.readNetFromCaffe("data/data_opencv/deploy.prototxt.txt", + "data/data_opencv/res10_300x300_ssd_iter_140000.caffemodel") # 2. Dlib 人脸 landmark 特征点检测器 predictor = dlib.shape_predictor('data/data_dlib/shape_predictor_68_face_landmarks.dat') @@ -53,7 +57,7 @@ class Face_Recognizer: else: features_someone_arr.append(csv_rd.iloc[i][j]) self.features_known_list.append(features_someone_arr) - self.name_known_list.append("Person_"+str(i+1)) + self.name_known_list.append("Person_" + str(i + 1)) self.name_known_cnt = len(self.name_known_list) print("Faces in Database:", len(self.features_known_list)) return 1 @@ -74,6 +78,8 @@ class Face_Recognizer: dist = np.sqrt(np.sum(np.square(feature_1 - feature_2))) return dist + # TODO th + # 更新 FPS def update_fps(self): now = time.time() @@ -91,7 +97,7 @@ class Face_Recognizer: def draw_name(self, img_rd): # 在人脸框下面写人脸名字 - font = ImageFont.truetype("simsun.ttc", 30) + font = ImageFont.truetype("simsun.ttc", 30, index=1) img = Image.fromarray(cv2.cvtColor(img_rd, cv2.COLOR_BGR2RGB)) draw = ImageDraw.Draw(img) for i in range(self.faces_cnt): @@ -104,7 +110,7 @@ class Face_Recognizer: def modify_name_camera_list(self): # TODO 数据库 ID # Default known name: person_1, person_2, person_3 - self.name_known_list[0] ='唐麒'.encode('utf-8').decode() + self.name_known_list[0] = '唐麒'.encode('utf-8').decode() # self.name_known_list[1] ='李四'.encode('utf-8').decode() # self.name_known_list[2] ='xx'.encode('utf-8').decode() # self.name_known_list[3] ='xx'.encode('utf-8').decode() @@ -116,7 +122,6 @@ class Face_Recognizer: if self.get_face_database(): while stream.isOpened(): flag, img_rd = stream.read() - faces = detector(img_rd, 0) kk = cv2.waitKey(1) # 按下 q 键退出 if kk == ord('q'): @@ -128,25 +133,49 @@ class Face_Recognizer: self.pos_camera_list = [] self.name_camera_list = [] + (h, w) = img_rd.shape[:2] + blob = cv2.dnn.blobFromImage(cv2.resize(img_rd, (300, 300)), 1.0, + (300, 300), (104.0, 177.0, 123.0)) + detector.setInput(blob) + faces = detector.forward() + # 2. 检测到人脸 - if len(faces) != 0: + if faces.shape[2] != 0: # 3. 获取当前捕获到的图像的所有人脸的特征,存储到 self.features_camera_list - for i in range(len(faces)): - shape = predictor(img_rd, faces[i]) + for i in range(0, faces.shape[2]): + confidence = faces[0, 0, i, 2] + + # filter out weak detections by ensuring the `confidence` is + # greater than the minimum confidence + if confidence < 0.5: + continue + box = faces[0, 0, i, 3:7] * np.array([w, h, w, h]) + (startX, startY, endX, endY) = box.astype("int") + rect = dlib.rectangle(startX, startY, endX, endY) + shape = predictor(img_rd, rect) self.features_camera_list.append(face_reco_model.compute_face_descriptor(img_rd, shape)) # 4. 遍历捕获到的图像中所有的人脸 - for k in range(len(faces)): + for k in range(0, faces.shape[2]): + # 计算矩形框大小 + confidence = faces[0, 0, k, 2] + + # filter out weak detections by ensuring the `confidence` is + # greater than the minimum confidence + if confidence < 0.5: + continue print("##### camera person", k + 1, "#####") - # 让人名跟随在矩形框的下方 + # 让人名跟随在矩形框的上方 # 确定人名的位置坐标 # 先默认所有人不认识,是 unknown # Set the default names of faces with "unknown" self.name_camera_list.append("unknown") # 每个捕获人脸的名字坐标 + box = faces[0, 0, k, 3:7] * np.array([w, h, w, h]) + (startX, startY, endX, endY) = box.astype("int") self.pos_camera_list.append(tuple( - [faces[k].left(), int(faces[k].bottom() + (faces[k].bottom() - faces[k].top()) / 4)])) + [int(startX+5), int(startY - 30)])) # 5. 对于某张人脸,遍历所有存储的人脸特征 e_distance_list = [] @@ -174,8 +203,10 @@ class Face_Recognizer: # 矩形框 for kk, d in enumerate(faces): # 绘制矩形框 - cv2.rectangle(img_rd, tuple([d.left(), d.top()]), tuple([d.right(), d.bottom()]), - (0, 255, 255), 2) + cv2.rectangle(img_rd, tuple([startX, startY]), tuple([endX, endY]), + (0, 255, 0), 2) + cv2.rectangle(img_rd, tuple([startX, startY - 35]), tuple([endX, startY]), + (0, 255, 0), cv2.FILLED) print('\n') self.faces_cnt = len(faces) @@ -210,4 +241,4 @@ def main(): if __name__ == '__main__': - main() \ No newline at end of file + main() diff --git a/Class/collect_data/features_extraction_to_csv.py b/Class/collect_data/features_extraction_to_csv.py index 8e53764..9aeff13 100644 --- a/Class/collect_data/features_extraction_to_csv.py +++ b/Class/collect_data/features_extraction_to_csv.py @@ -4,13 +4,17 @@ import os import dlib from skimage import io import csv +import cv2 import numpy as np # 要读取人脸图像文件的路径 path_images_from_camera = "data/data_faces_from_camera/" # 1. Dlib 正向人脸检测器 -detector = dlib.get_frontal_face_detector() +# detector = dlib.get_frontal_face_detector() +# OpenCV DNN face detector +detector = cv2.dnn.readNetFromCaffe("data/data_opencv/deploy.prototxt.txt", + "data/data_opencv/res10_300x300_ssd_iter_140000.caffemodel") # 2. Dlib 人脸 landmark 特征点检测器 predictor = dlib.shape_predictor('data/data_dlib/shape_predictor_68_face_landmarks.dat') @@ -22,14 +26,21 @@ face_reco_model = dlib.face_recognition_model_v1("data/data_dlib/dlib_face_recog # 返回单张图像的 128D 特征 def return_128d_features(path_img): img_rd = io.imread(path_img) - faces = detector(img_rd, 1) + (h, w) = img_rd.shape[:2] + blob = cv2.dnn.blobFromImage(cv2.resize(img_rd, (300, 300)), 1.0, + (300, 300), (104.0, 177.0, 123.0)) + detector.setInput(blob) + faces = detector.forward() print("%-40s %-20s" % ("检测到人脸的图像 / Image with faces detected:", path_img), '\n') # 因为有可能截下来的人脸再去检测,检测不出来人脸了 # 所以要确保是 检测到人脸的人脸图像 拿去算特征 - if len(faces) != 0: - shape = predictor(img_rd, faces[0]) + if faces.shape[2] != 0: + box = faces[0, 0, 0, 3:7] * np.array([w, h, w, h]) + (startX, startY, endX, endY) = box.astype("int") + rect = dlib.rectangle(startX, startY, endX, endY) + shape = predictor(img_rd, rect) face_descriptor = face_reco_model.compute_face_descriptor(img_rd, shape) else: face_descriptor = 0 diff --git a/Class/collect_data/get_faces_from_camera.py b/Class/collect_data/get_faces_from_camera.py index 25240bf..f6c8ebb 100644 --- a/Class/collect_data/get_faces_from_camera.py +++ b/Class/collect_data/get_faces_from_camera.py @@ -1,15 +1,20 @@ # 进行人脸录入 / face register # 录入多张人脸 / support multi-faces -import dlib # 人脸处理的库 Dlib -import numpy as np # 数据处理的库 Numpy -import cv2 # 图像处理的库 OpenCV -import os # 读写文件 -import shutil # 读写文件 +import dlib +import numpy as np +import cv2 +import os +import shutil # 读写文件 import time +import face_recognition # Dlib 正向人脸检测器 -detector = dlib.get_frontal_face_detector() +# detector = dlib.get_frontal_face_detector() + +# OpenCV DNN face detector +detector = cv2.dnn.readNetFromCaffe("data/data_opencv/deploy.prototxt.txt", + "data/data_opencv/res10_300x300_ssd_iter_140000.caffemodel") class Face_Register: @@ -17,9 +22,9 @@ class Face_Register: self.path_photos_from_camera = "data/data_faces_from_camera/" self.font = cv2.FONT_ITALIC - self.existing_faces_cnt = 0 # 已录入的人脸计数器 - self.ss_cnt = 0 # 录入 personX 人脸时图片计数器 - self.faces_cnt = 0 # 录入人脸计数器 + self.existing_faces_cnt = 0 # 已录入的人脸计数器 + self.ss_cnt = 0 # 录入 personX 人脸时图片计数器 + self.faces_cnt = 0 # 录入人脸计数器 # 之后用来控制是否保存图像的 flag self.save_flag = 1 @@ -42,7 +47,7 @@ class Face_Register: # 删除之前存的人脸数据文件夹 folders_rd = os.listdir(self.path_photos_from_camera) for i in range(len(folders_rd)): - shutil.rmtree(self.path_photos_from_camera+folders_rd[i]) + shutil.rmtree(self.path_photos_from_camera + folders_rd[i]) if os.path.isfile("data/features_all.csv"): os.remove("data/features_all.csv") @@ -85,15 +90,21 @@ class Face_Register: # self.pre_work_mkdir() # 2. 删除 "/data/data_faces_from_camera" 中已有人脸图像文件 - self.pre_work_del_old_face_folders() + # self.pre_work_del_old_face_folders() # 3. 检查 "/data/data_faces_from_camera" 中已有人脸文件 self.check_existing_faces_cnt() while stream.isOpened(): - flag, img_rd = stream.read() # Get camera video stream + flag, img_rd = stream.read() # Get camera video stream + kk = cv2.waitKey(1) - faces = detector(img_rd, 0) # Use dlib face detector + + (h, w) = img_rd.shape[:2] + blob = cv2.dnn.blobFromImage(cv2.resize(img_rd, (300, 300)), 1.0, + (300, 300), (104.0, 177.0, 123.0)) + detector.setInput(blob) + faces = detector.forward() # 4. 按下 'n' 新建存储人脸的文件夹 if kk == ord('n'): @@ -103,37 +114,50 @@ class Face_Register: print('\n') print("新建的人脸文件夹 / Create folders: ", current_face_dir) - self.ss_cnt = 0 # 将人脸计数器清零 - self.press_n_flag = 1 # 已经按下 'n' + self.ss_cnt = 0 # 将人脸计数器清零 + self.press_n_flag = 1 # 已经按下 'n' # 5. 检测到人脸 - if len(faces) != 0: + if faces.shape[2] != 0: # 矩形框 - for k, d in enumerate(faces): + for i in range(0, faces.shape[2]): # 计算矩形框大小 - height = (d.bottom() - d.top()) - width = (d.right() - d.left()) - hh = int(height/2) - ww = int(width/2) + confidence = faces[0, 0, i, 2] + + # filter out weak detections by ensuring the `confidence` is + # greater than the minimum confidence + if confidence < 0.5: + continue + + # compute the (x, y)-coordinates of the bounding box for the + # object + box = faces[0, 0, i, 3:7] * np.array([w, h, w, h]) + (startX, startY, endX, endY) = box.astype("int") + + height = (endY - startY) + width = (endX - startX) + hh = int(height / 2) + ww = int(width / 2) # 6. 判断人脸矩形框是否超出 480x640 - if (d.right()+ww) > 640 or (d.bottom()+hh > 480) or (d.left()-ww < 0) or (d.top()-hh < 0): + if (endX + ww) > 640 or (endY + hh > 480) or (startX - ww < 0) or ( + startY - hh < 0): cv2.putText(img_rd, "OUT OF RANGE", (20, 300), self.font, 0.8, (0, 0, 255), 1, cv2.LINE_AA) color_rectangle = (0, 0, 255) save_flag = 0 if kk == ord('s'): print("请调整位置 / Please adjust your position") else: - color_rectangle = (255, 255, 255) + color_rectangle = (0, 255, 0) save_flag = 1 cv2.rectangle(img_rd, - tuple([d.left() - ww, d.top() - hh]), - tuple([d.right() + ww, d.bottom() + hh]), + tuple([startX - ww, startY - hh]), + tuple([endX + ww, endY + hh]), color_rectangle, 2) # 7. 根据人脸大小生成空的图像 - img_blank = np.zeros((int(height*2), width*2, 3), np.uint8) + img_blank = np.zeros((int(height * 2), width * 2, 3), np.uint8) if save_flag: # 8. 按下 's' 保存摄像头中的人脸到本地 @@ -141,11 +165,12 @@ class Face_Register: # 检查有没有先按'n'新建文件夹 if self.press_n_flag: self.ss_cnt += 1 - for ii in range(height*2): - for jj in range(width*2): - img_blank[ii][jj] = img_rd[d.top()-hh + ii][d.left()-ww + jj] + for ii in range(height * 2): + for jj in range(width * 2): + img_blank[ii][jj] = img_rd[startY - hh + ii][startX - ww + jj] cv2.imwrite(current_face_dir + "/img_face_" + str(self.ss_cnt) + ".jpg", img_blank) - print("写入本地 / Save into:", str(current_face_dir) + "/img_face_" + str(self.ss_cnt) + ".jpg") + print("写入本地 / Save into:", + str(current_face_dir) + "/img_face_" + str(self.ss_cnt) + ".jpg") else: print("请先按 'N' 来建文件夹, 按 'S' / Please press 'N' and press 'S'") self.faces_cnt = len(faces) diff --git a/Class/collect_data/simsun.ttc b/Class/collect_data/simsun.ttc new file mode 100644 index 0000000..40e9693 Binary files /dev/null and b/Class/collect_data/simsun.ttc differ diff --git a/Data/data_opencv/deploy.prototxt.txt b/Data/data_opencv/deploy.prototxt.txt new file mode 100644 index 0000000..905580e --- /dev/null +++ b/Data/data_opencv/deploy.prototxt.txt @@ -0,0 +1,1789 @@ +input: "data" +input_shape { + dim: 1 + dim: 3 + dim: 300 + dim: 300 +} + +layer { + name: "data_bn" + type: "BatchNorm" + bottom: "data" + top: "data_bn" + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } +} +layer { + name: "data_scale" + type: "Scale" + bottom: "data_bn" + top: "data_bn" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + param { + lr_mult: 2.0 + decay_mult: 1.0 + } + scale_param { + bias_term: true + } +} +layer { + name: "conv1_h" + type: "Convolution" + bottom: "data_bn" + top: "conv1_h" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + param { + lr_mult: 2.0 + decay_mult: 1.0 + } + convolution_param { + num_output: 32 + pad: 3 + kernel_size: 7 + stride: 2 + weight_filler { + type: "msra" + variance_norm: FAN_OUT + } + bias_filler { + type: "constant" + value: 0.0 + } + } +} +layer { + name: "conv1_bn_h" + type: "BatchNorm" + bottom: "conv1_h" + top: "conv1_h" + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } +} +layer { + name: "conv1_scale_h" + type: "Scale" + bottom: "conv1_h" + top: "conv1_h" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + param { + lr_mult: 2.0 + decay_mult: 1.0 + } + scale_param { + bias_term: true + } +} +layer { + name: "conv1_relu" + type: "ReLU" + bottom: "conv1_h" + top: "conv1_h" +} +layer { + name: "conv1_pool" + type: "Pooling" + bottom: "conv1_h" + top: "conv1_pool" + pooling_param { + kernel_size: 3 + stride: 2 + } +} +layer { + name: "layer_64_1_conv1_h" + type: "Convolution" + bottom: "conv1_pool" + top: "layer_64_1_conv1_h" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + convolution_param { + num_output: 32 + bias_term: false + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "msra" + } + bias_filler { + type: "constant" + value: 0.0 + } + } +} +layer { + name: "layer_64_1_bn2_h" + type: "BatchNorm" + bottom: "layer_64_1_conv1_h" + top: "layer_64_1_conv1_h" + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } +} +layer { + name: "layer_64_1_scale2_h" + type: "Scale" + bottom: "layer_64_1_conv1_h" + top: "layer_64_1_conv1_h" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + param { + lr_mult: 2.0 + decay_mult: 1.0 + } + scale_param { + bias_term: true + } +} +layer { + name: "layer_64_1_relu2" + type: "ReLU" + bottom: "layer_64_1_conv1_h" + top: "layer_64_1_conv1_h" +} +layer { + name: "layer_64_1_conv2_h" + type: "Convolution" + bottom: "layer_64_1_conv1_h" + top: "layer_64_1_conv2_h" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + convolution_param { + num_output: 32 + bias_term: false + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "msra" + } + bias_filler { + type: "constant" + value: 0.0 + } + } +} +layer { + name: "layer_64_1_sum" + type: "Eltwise" + bottom: "layer_64_1_conv2_h" + bottom: "conv1_pool" + top: "layer_64_1_sum" +} +layer { + name: "layer_128_1_bn1_h" + type: "BatchNorm" + bottom: "layer_64_1_sum" + top: "layer_128_1_bn1_h" + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } +} +layer { + name: "layer_128_1_scale1_h" + type: "Scale" + bottom: "layer_128_1_bn1_h" + top: "layer_128_1_bn1_h" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + param { + lr_mult: 2.0 + decay_mult: 1.0 + } + scale_param { + bias_term: true + } +} +layer { + name: "layer_128_1_relu1" + type: "ReLU" + bottom: "layer_128_1_bn1_h" + top: "layer_128_1_bn1_h" +} +layer { + name: "layer_128_1_conv1_h" + type: "Convolution" + bottom: "layer_128_1_bn1_h" + top: "layer_128_1_conv1_h" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + convolution_param { + num_output: 128 + bias_term: false + pad: 1 + kernel_size: 3 + stride: 2 + weight_filler { + type: "msra" + } + bias_filler { + type: "constant" + value: 0.0 + } + } +} +layer { + name: "layer_128_1_bn2" + type: "BatchNorm" + bottom: "layer_128_1_conv1_h" + top: "layer_128_1_conv1_h" + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } +} +layer { + name: "layer_128_1_scale2" + type: "Scale" + bottom: "layer_128_1_conv1_h" + top: "layer_128_1_conv1_h" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + param { + lr_mult: 2.0 + decay_mult: 1.0 + } + scale_param { + bias_term: true + } +} +layer { + name: "layer_128_1_relu2" + type: "ReLU" + bottom: "layer_128_1_conv1_h" + top: "layer_128_1_conv1_h" +} +layer { + name: "layer_128_1_conv2" + type: "Convolution" + bottom: "layer_128_1_conv1_h" + top: "layer_128_1_conv2" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + convolution_param { + num_output: 128 + bias_term: false + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "msra" + } + bias_filler { + type: "constant" + value: 0.0 + } + } +} +layer { + name: "layer_128_1_conv_expand_h" + type: "Convolution" + bottom: "layer_128_1_bn1_h" + top: "layer_128_1_conv_expand_h" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + convolution_param { + num_output: 128 + bias_term: false + pad: 0 + kernel_size: 1 + stride: 2 + weight_filler { + type: "msra" + } + bias_filler { + type: "constant" + value: 0.0 + } + } +} +layer { + name: "layer_128_1_sum" + type: "Eltwise" + bottom: "layer_128_1_conv2" + bottom: "layer_128_1_conv_expand_h" + top: "layer_128_1_sum" +} +layer { + name: "layer_256_1_bn1" + type: "BatchNorm" + bottom: "layer_128_1_sum" + top: "layer_256_1_bn1" + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } +} +layer { + name: "layer_256_1_scale1" + type: "Scale" + bottom: "layer_256_1_bn1" + top: "layer_256_1_bn1" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + param { + lr_mult: 2.0 + decay_mult: 1.0 + } + scale_param { + bias_term: true + } +} +layer { + name: "layer_256_1_relu1" + type: "ReLU" + bottom: "layer_256_1_bn1" + top: "layer_256_1_bn1" +} +layer { + name: "layer_256_1_conv1" + type: "Convolution" + bottom: "layer_256_1_bn1" + top: "layer_256_1_conv1" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + convolution_param { + num_output: 256 + bias_term: false + pad: 1 + kernel_size: 3 + stride: 2 + weight_filler { + type: "msra" + } + bias_filler { + type: "constant" + value: 0.0 + } + } +} +layer { + name: "layer_256_1_bn2" + type: "BatchNorm" + bottom: "layer_256_1_conv1" + top: "layer_256_1_conv1" + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } +} +layer { + name: "layer_256_1_scale2" + type: "Scale" + bottom: "layer_256_1_conv1" + top: "layer_256_1_conv1" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + param { + lr_mult: 2.0 + decay_mult: 1.0 + } + scale_param { + bias_term: true + } +} +layer { + name: "layer_256_1_relu2" + type: "ReLU" + bottom: "layer_256_1_conv1" + top: "layer_256_1_conv1" +} +layer { + name: "layer_256_1_conv2" + type: "Convolution" + bottom: "layer_256_1_conv1" + top: "layer_256_1_conv2" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + convolution_param { + num_output: 256 + bias_term: false + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "msra" + } + bias_filler { + type: "constant" + value: 0.0 + } + } +} +layer { + name: "layer_256_1_conv_expand" + type: "Convolution" + bottom: "layer_256_1_bn1" + top: "layer_256_1_conv_expand" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + convolution_param { + num_output: 256 + bias_term: false + pad: 0 + kernel_size: 1 + stride: 2 + weight_filler { + type: "msra" + } + bias_filler { + type: "constant" + value: 0.0 + } + } +} +layer { + name: "layer_256_1_sum" + type: "Eltwise" + bottom: "layer_256_1_conv2" + bottom: "layer_256_1_conv_expand" + top: "layer_256_1_sum" +} +layer { + name: "layer_512_1_bn1" + type: "BatchNorm" + bottom: "layer_256_1_sum" + top: "layer_512_1_bn1" + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } +} +layer { + name: "layer_512_1_scale1" + type: "Scale" + bottom: "layer_512_1_bn1" + top: "layer_512_1_bn1" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + param { + lr_mult: 2.0 + decay_mult: 1.0 + } + scale_param { + bias_term: true + } +} +layer { + name: "layer_512_1_relu1" + type: "ReLU" + bottom: "layer_512_1_bn1" + top: "layer_512_1_bn1" +} +layer { + name: "layer_512_1_conv1_h" + type: "Convolution" + bottom: "layer_512_1_bn1" + top: "layer_512_1_conv1_h" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + convolution_param { + num_output: 128 + bias_term: false + pad: 1 + kernel_size: 3 + stride: 1 # 2 + weight_filler { + type: "msra" + } + bias_filler { + type: "constant" + value: 0.0 + } + } +} +layer { + name: "layer_512_1_bn2_h" + type: "BatchNorm" + bottom: "layer_512_1_conv1_h" + top: "layer_512_1_conv1_h" + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } +} +layer { + name: "layer_512_1_scale2_h" + type: "Scale" + bottom: "layer_512_1_conv1_h" + top: "layer_512_1_conv1_h" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + param { + lr_mult: 2.0 + decay_mult: 1.0 + } + scale_param { + bias_term: true + } +} +layer { + name: "layer_512_1_relu2" + type: "ReLU" + bottom: "layer_512_1_conv1_h" + top: "layer_512_1_conv1_h" +} +layer { + name: "layer_512_1_conv2_h" + type: "Convolution" + bottom: "layer_512_1_conv1_h" + top: "layer_512_1_conv2_h" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + convolution_param { + num_output: 256 + bias_term: false + pad: 2 # 1 + kernel_size: 3 + stride: 1 + dilation: 2 + weight_filler { + type: "msra" + } + bias_filler { + type: "constant" + value: 0.0 + } + } +} +layer { + name: "layer_512_1_conv_expand_h" + type: "Convolution" + bottom: "layer_512_1_bn1" + top: "layer_512_1_conv_expand_h" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + convolution_param { + num_output: 256 + bias_term: false + pad: 0 + kernel_size: 1 + stride: 1 # 2 + weight_filler { + type: "msra" + } + bias_filler { + type: "constant" + value: 0.0 + } + } +} +layer { + name: "layer_512_1_sum" + type: "Eltwise" + bottom: "layer_512_1_conv2_h" + bottom: "layer_512_1_conv_expand_h" + top: "layer_512_1_sum" +} +layer { + name: "last_bn_h" + type: "BatchNorm" + bottom: "layer_512_1_sum" + top: "layer_512_1_sum" + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } + param { + lr_mult: 0.0 + } +} +layer { + name: "last_scale_h" + type: "Scale" + bottom: "layer_512_1_sum" + top: "layer_512_1_sum" + param { + lr_mult: 1.0 + decay_mult: 1.0 + } + param { + lr_mult: 2.0 + decay_mult: 1.0 + } + scale_param { + bias_term: true + } +} +layer { + name: "last_relu" + type: "ReLU" + bottom: "layer_512_1_sum" + top: "fc7" +} + +layer { + name: "conv6_1_h" + type: "Convolution" + bottom: "fc7" + top: "conv6_1_h" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 128 + pad: 0 + kernel_size: 1 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv6_1_relu" + type: "ReLU" + bottom: "conv6_1_h" + top: "conv6_1_h" +} +layer { + name: "conv6_2_h" + type: "Convolution" + bottom: "conv6_1_h" + top: "conv6_2_h" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 256 + pad: 1 + kernel_size: 3 + stride: 2 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv6_2_relu" + type: "ReLU" + bottom: "conv6_2_h" + top: "conv6_2_h" +} +layer { + name: "conv7_1_h" + type: "Convolution" + bottom: "conv6_2_h" + top: "conv7_1_h" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 64 + pad: 0 + kernel_size: 1 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv7_1_relu" + type: "ReLU" + bottom: "conv7_1_h" + top: "conv7_1_h" +} +layer { + name: "conv7_2_h" + type: "Convolution" + bottom: "conv7_1_h" + top: "conv7_2_h" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 128 + pad: 1 + kernel_size: 3 + stride: 2 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv7_2_relu" + type: "ReLU" + bottom: "conv7_2_h" + top: "conv7_2_h" +} +layer { + name: "conv8_1_h" + type: "Convolution" + bottom: "conv7_2_h" + top: "conv8_1_h" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 64 + pad: 0 + kernel_size: 1 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv8_1_relu" + type: "ReLU" + bottom: "conv8_1_h" + top: "conv8_1_h" +} +layer { + name: "conv8_2_h" + type: "Convolution" + bottom: "conv8_1_h" + top: "conv8_2_h" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 128 + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv8_2_relu" + type: "ReLU" + bottom: "conv8_2_h" + top: "conv8_2_h" +} +layer { + name: "conv9_1_h" + type: "Convolution" + bottom: "conv8_2_h" + top: "conv9_1_h" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 64 + pad: 0 + kernel_size: 1 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv9_1_relu" + type: "ReLU" + bottom: "conv9_1_h" + top: "conv9_1_h" +} +layer { + name: "conv9_2_h" + type: "Convolution" + bottom: "conv9_1_h" + top: "conv9_2_h" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 128 + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv9_2_relu" + type: "ReLU" + bottom: "conv9_2_h" + top: "conv9_2_h" +} +layer { + name: "conv4_3_norm" + type: "Normalize" + bottom: "layer_256_1_bn1" + top: "conv4_3_norm" + norm_param { + across_spatial: false + scale_filler { + type: "constant" + value: 20 + } + channel_shared: false + } +} +layer { + name: "conv4_3_norm_mbox_loc" + type: "Convolution" + bottom: "conv4_3_norm" + top: "conv4_3_norm_mbox_loc" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 16 + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv4_3_norm_mbox_loc_perm" + type: "Permute" + bottom: "conv4_3_norm_mbox_loc" + top: "conv4_3_norm_mbox_loc_perm" + permute_param { + order: 0 + order: 2 + order: 3 + order: 1 + } +} +layer { + name: "conv4_3_norm_mbox_loc_flat" + type: "Flatten" + bottom: "conv4_3_norm_mbox_loc_perm" + top: "conv4_3_norm_mbox_loc_flat" + flatten_param { + axis: 1 + } +} +layer { + name: "conv4_3_norm_mbox_conf" + type: "Convolution" + bottom: "conv4_3_norm" + top: "conv4_3_norm_mbox_conf" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 8 # 84 + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv4_3_norm_mbox_conf_perm" + type: "Permute" + bottom: "conv4_3_norm_mbox_conf" + top: "conv4_3_norm_mbox_conf_perm" + permute_param { + order: 0 + order: 2 + order: 3 + order: 1 + } +} +layer { + name: "conv4_3_norm_mbox_conf_flat" + type: "Flatten" + bottom: "conv4_3_norm_mbox_conf_perm" + top: "conv4_3_norm_mbox_conf_flat" + flatten_param { + axis: 1 + } +} +layer { + name: "conv4_3_norm_mbox_priorbox" + type: "PriorBox" + bottom: "conv4_3_norm" + bottom: "data" + top: "conv4_3_norm_mbox_priorbox" + prior_box_param { + min_size: 30.0 + max_size: 60.0 + aspect_ratio: 2 + flip: true + clip: false + variance: 0.1 + variance: 0.1 + variance: 0.2 + variance: 0.2 + step: 8 + offset: 0.5 + } +} +layer { + name: "fc7_mbox_loc" + type: "Convolution" + bottom: "fc7" + top: "fc7_mbox_loc" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 24 + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "fc7_mbox_loc_perm" + type: "Permute" + bottom: "fc7_mbox_loc" + top: "fc7_mbox_loc_perm" + permute_param { + order: 0 + order: 2 + order: 3 + order: 1 + } +} +layer { + name: "fc7_mbox_loc_flat" + type: "Flatten" + bottom: "fc7_mbox_loc_perm" + top: "fc7_mbox_loc_flat" + flatten_param { + axis: 1 + } +} +layer { + name: "fc7_mbox_conf" + type: "Convolution" + bottom: "fc7" + top: "fc7_mbox_conf" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 12 # 126 + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "fc7_mbox_conf_perm" + type: "Permute" + bottom: "fc7_mbox_conf" + top: "fc7_mbox_conf_perm" + permute_param { + order: 0 + order: 2 + order: 3 + order: 1 + } +} +layer { + name: "fc7_mbox_conf_flat" + type: "Flatten" + bottom: "fc7_mbox_conf_perm" + top: "fc7_mbox_conf_flat" + flatten_param { + axis: 1 + } +} +layer { + name: "fc7_mbox_priorbox" + type: "PriorBox" + bottom: "fc7" + bottom: "data" + top: "fc7_mbox_priorbox" + prior_box_param { + min_size: 60.0 + max_size: 111.0 + aspect_ratio: 2 + aspect_ratio: 3 + flip: true + clip: false + variance: 0.1 + variance: 0.1 + variance: 0.2 + variance: 0.2 + step: 16 + offset: 0.5 + } +} +layer { + name: "conv6_2_mbox_loc" + type: "Convolution" + bottom: "conv6_2_h" + top: "conv6_2_mbox_loc" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 24 + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv6_2_mbox_loc_perm" + type: "Permute" + bottom: "conv6_2_mbox_loc" + top: "conv6_2_mbox_loc_perm" + permute_param { + order: 0 + order: 2 + order: 3 + order: 1 + } +} +layer { + name: "conv6_2_mbox_loc_flat" + type: "Flatten" + bottom: "conv6_2_mbox_loc_perm" + top: "conv6_2_mbox_loc_flat" + flatten_param { + axis: 1 + } +} +layer { + name: "conv6_2_mbox_conf" + type: "Convolution" + bottom: "conv6_2_h" + top: "conv6_2_mbox_conf" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 12 # 126 + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv6_2_mbox_conf_perm" + type: "Permute" + bottom: "conv6_2_mbox_conf" + top: "conv6_2_mbox_conf_perm" + permute_param { + order: 0 + order: 2 + order: 3 + order: 1 + } +} +layer { + name: "conv6_2_mbox_conf_flat" + type: "Flatten" + bottom: "conv6_2_mbox_conf_perm" + top: "conv6_2_mbox_conf_flat" + flatten_param { + axis: 1 + } +} +layer { + name: "conv6_2_mbox_priorbox" + type: "PriorBox" + bottom: "conv6_2_h" + bottom: "data" + top: "conv6_2_mbox_priorbox" + prior_box_param { + min_size: 111.0 + max_size: 162.0 + aspect_ratio: 2 + aspect_ratio: 3 + flip: true + clip: false + variance: 0.1 + variance: 0.1 + variance: 0.2 + variance: 0.2 + step: 32 + offset: 0.5 + } +} +layer { + name: "conv7_2_mbox_loc" + type: "Convolution" + bottom: "conv7_2_h" + top: "conv7_2_mbox_loc" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 24 + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv7_2_mbox_loc_perm" + type: "Permute" + bottom: "conv7_2_mbox_loc" + top: "conv7_2_mbox_loc_perm" + permute_param { + order: 0 + order: 2 + order: 3 + order: 1 + } +} +layer { + name: "conv7_2_mbox_loc_flat" + type: "Flatten" + bottom: "conv7_2_mbox_loc_perm" + top: "conv7_2_mbox_loc_flat" + flatten_param { + axis: 1 + } +} +layer { + name: "conv7_2_mbox_conf" + type: "Convolution" + bottom: "conv7_2_h" + top: "conv7_2_mbox_conf" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 12 # 126 + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv7_2_mbox_conf_perm" + type: "Permute" + bottom: "conv7_2_mbox_conf" + top: "conv7_2_mbox_conf_perm" + permute_param { + order: 0 + order: 2 + order: 3 + order: 1 + } +} +layer { + name: "conv7_2_mbox_conf_flat" + type: "Flatten" + bottom: "conv7_2_mbox_conf_perm" + top: "conv7_2_mbox_conf_flat" + flatten_param { + axis: 1 + } +} +layer { + name: "conv7_2_mbox_priorbox" + type: "PriorBox" + bottom: "conv7_2_h" + bottom: "data" + top: "conv7_2_mbox_priorbox" + prior_box_param { + min_size: 162.0 + max_size: 213.0 + aspect_ratio: 2 + aspect_ratio: 3 + flip: true + clip: false + variance: 0.1 + variance: 0.1 + variance: 0.2 + variance: 0.2 + step: 64 + offset: 0.5 + } +} +layer { + name: "conv8_2_mbox_loc" + type: "Convolution" + bottom: "conv8_2_h" + top: "conv8_2_mbox_loc" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 16 + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv8_2_mbox_loc_perm" + type: "Permute" + bottom: "conv8_2_mbox_loc" + top: "conv8_2_mbox_loc_perm" + permute_param { + order: 0 + order: 2 + order: 3 + order: 1 + } +} +layer { + name: "conv8_2_mbox_loc_flat" + type: "Flatten" + bottom: "conv8_2_mbox_loc_perm" + top: "conv8_2_mbox_loc_flat" + flatten_param { + axis: 1 + } +} +layer { + name: "conv8_2_mbox_conf" + type: "Convolution" + bottom: "conv8_2_h" + top: "conv8_2_mbox_conf" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 8 # 84 + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv8_2_mbox_conf_perm" + type: "Permute" + bottom: "conv8_2_mbox_conf" + top: "conv8_2_mbox_conf_perm" + permute_param { + order: 0 + order: 2 + order: 3 + order: 1 + } +} +layer { + name: "conv8_2_mbox_conf_flat" + type: "Flatten" + bottom: "conv8_2_mbox_conf_perm" + top: "conv8_2_mbox_conf_flat" + flatten_param { + axis: 1 + } +} +layer { + name: "conv8_2_mbox_priorbox" + type: "PriorBox" + bottom: "conv8_2_h" + bottom: "data" + top: "conv8_2_mbox_priorbox" + prior_box_param { + min_size: 213.0 + max_size: 264.0 + aspect_ratio: 2 + flip: true + clip: false + variance: 0.1 + variance: 0.1 + variance: 0.2 + variance: 0.2 + step: 100 + offset: 0.5 + } +} +layer { + name: "conv9_2_mbox_loc" + type: "Convolution" + bottom: "conv9_2_h" + top: "conv9_2_mbox_loc" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 16 + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv9_2_mbox_loc_perm" + type: "Permute" + bottom: "conv9_2_mbox_loc" + top: "conv9_2_mbox_loc_perm" + permute_param { + order: 0 + order: 2 + order: 3 + order: 1 + } +} +layer { + name: "conv9_2_mbox_loc_flat" + type: "Flatten" + bottom: "conv9_2_mbox_loc_perm" + top: "conv9_2_mbox_loc_flat" + flatten_param { + axis: 1 + } +} +layer { + name: "conv9_2_mbox_conf" + type: "Convolution" + bottom: "conv9_2_h" + top: "conv9_2_mbox_conf" + param { + lr_mult: 1 + decay_mult: 1 + } + param { + lr_mult: 2 + decay_mult: 0 + } + convolution_param { + num_output: 8 # 84 + pad: 1 + kernel_size: 3 + stride: 1 + weight_filler { + type: "xavier" + } + bias_filler { + type: "constant" + value: 0 + } + } +} +layer { + name: "conv9_2_mbox_conf_perm" + type: "Permute" + bottom: "conv9_2_mbox_conf" + top: "conv9_2_mbox_conf_perm" + permute_param { + order: 0 + order: 2 + order: 3 + order: 1 + } +} +layer { + name: "conv9_2_mbox_conf_flat" + type: "Flatten" + bottom: "conv9_2_mbox_conf_perm" + top: "conv9_2_mbox_conf_flat" + flatten_param { + axis: 1 + } +} +layer { + name: "conv9_2_mbox_priorbox" + type: "PriorBox" + bottom: "conv9_2_h" + bottom: "data" + top: "conv9_2_mbox_priorbox" + prior_box_param { + min_size: 264.0 + max_size: 315.0 + aspect_ratio: 2 + flip: true + clip: false + variance: 0.1 + variance: 0.1 + variance: 0.2 + variance: 0.2 + step: 300 + offset: 0.5 + } +} +layer { + name: "mbox_loc" + type: "Concat" + bottom: "conv4_3_norm_mbox_loc_flat" + bottom: "fc7_mbox_loc_flat" + bottom: "conv6_2_mbox_loc_flat" + bottom: "conv7_2_mbox_loc_flat" + bottom: "conv8_2_mbox_loc_flat" + bottom: "conv9_2_mbox_loc_flat" + top: "mbox_loc" + concat_param { + axis: 1 + } +} +layer { + name: "mbox_conf" + type: "Concat" + bottom: "conv4_3_norm_mbox_conf_flat" + bottom: "fc7_mbox_conf_flat" + bottom: "conv6_2_mbox_conf_flat" + bottom: "conv7_2_mbox_conf_flat" + bottom: "conv8_2_mbox_conf_flat" + bottom: "conv9_2_mbox_conf_flat" + top: "mbox_conf" + concat_param { + axis: 1 + } +} +layer { + name: "mbox_priorbox" + type: "Concat" + bottom: "conv4_3_norm_mbox_priorbox" + bottom: "fc7_mbox_priorbox" + bottom: "conv6_2_mbox_priorbox" + bottom: "conv7_2_mbox_priorbox" + bottom: "conv8_2_mbox_priorbox" + bottom: "conv9_2_mbox_priorbox" + top: "mbox_priorbox" + concat_param { + axis: 2 + } +} + +layer { + name: "mbox_conf_reshape" + type: "Reshape" + bottom: "mbox_conf" + top: "mbox_conf_reshape" + reshape_param { + shape { + dim: 0 + dim: -1 + dim: 2 + } + } +} +layer { + name: "mbox_conf_softmax" + type: "Softmax" + bottom: "mbox_conf_reshape" + top: "mbox_conf_softmax" + softmax_param { + axis: 2 + } +} +layer { + name: "mbox_conf_flatten" + type: "Flatten" + bottom: "mbox_conf_softmax" + top: "mbox_conf_flatten" + flatten_param { + axis: 1 + } +} + +layer { + name: "detection_out" + type: "DetectionOutput" + bottom: "mbox_loc" + bottom: "mbox_conf_flatten" + bottom: "mbox_priorbox" + top: "detection_out" + include { + phase: TEST + } + detection_output_param { + num_classes: 2 + share_location: true + background_label_id: 0 + nms_param { + nms_threshold: 0.45 + top_k: 400 + } + code_type: CENTER_SIZE + keep_top_k: 200 + confidence_threshold: 0.01 + } +} diff --git a/Data/data_opencv/res10_300x300_ssd_iter_140000.caffemodel b/Data/data_opencv/res10_300x300_ssd_iter_140000.caffemodel new file mode 100644 index 0000000..809dfd7 Binary files /dev/null and b/Data/data_opencv/res10_300x300_ssd_iter_140000.caffemodel differ