Ejemplo n.º 1
0
def SSD300(input_shape, num_classes=21):
    # 300,300,3
    input_tensor = Input(shape=input_shape)
    img_size = (input_shape[1], input_shape[0])

    # SSD architecture,net
    net = VGG16(input_tensor)
    #-----------------------Six feature layers Processing---------------------------#
    # Process conv4_3  (38,38,512)
    net['conv4_3_norm'] = Normalize(20, name='conv4_3_norm')(net['conv4_3'])
    num_priors = 4
    # Process the Prediction of bounding box
    # num_priors means how many priors in cell of this feature layer ,4 is x,y,h,w, positio of bounding box.
    net['conv4_3_norm_mbox_loc'] = Conv2D(num_priors * 4, kernel_size=(3,3), padding='same', name='conv4_3_norm_mbox_loc')(net['conv4_3_norm'])
    net['conv4_3_norm_mbox_loc_flat'] = Flatten(name='conv4_3_norm_mbox_loc_flat')(net['conv4_3_norm_mbox_loc'])
    # num_priors means how many priors in cell of this feature layer,num_classes means object classs
    net['conv4_3_norm_mbox_conf'] = Conv2D(num_priors * num_classes, kernel_size=(3,3), padding='same',name='conv4_3_norm_mbox_conf')(net['conv4_3_norm'])
    net['conv4_3_norm_mbox_conf_flat'] = Flatten(name='conv4_3_norm_mbox_conf_flat')(net['conv4_3_norm_mbox_conf'])
    priorbox = PriorBox(img_size, 30.0,max_size = 60.0, aspect_ratios=[2],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv4_3_norm_mbox_priorbox')
    net['conv4_3_norm_mbox_priorbox'] = priorbox(net['conv4_3_norm'])
    
    # Process fc7
    num_priors = 6
    # Process the Prediction of bounding box
    # num_priors means how many priors in cell of this feature layer ,4 is x,y,h,w, positio of bounding box.
    net['fc7_mbox_loc'] = Conv2D(num_priors * 4, kernel_size=(3,3),padding='same',name='fc7_mbox_loc')(net['fc7'])
    net['fc7_mbox_loc_flat'] = Flatten(name='fc7_mbox_loc_flat')(net['fc7_mbox_loc'])
    # num_priors means how many priors in cell of this feature layer,num_classes means object classs
    net['fc7_mbox_conf'] = Conv2D(num_priors * num_classes, kernel_size=(3,3),padding='same',name='fc7_mbox_conf')(net['fc7'])
    net['fc7_mbox_conf_flat'] = Flatten(name='fc7_mbox_conf_flat')(net['fc7_mbox_conf'])

    priorbox = PriorBox(img_size, 60.0, max_size=111.0, aspect_ratios=[2, 3],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='fc7_mbox_priorbox')
    net['fc7_mbox_priorbox'] = priorbox(net['fc7'])

    # Process conv6_2
    num_priors = 6
    # Process the Prediction of bounding box
    # num_priors means how many priors in cell of this feature layer ,4 is x,y,h,w, positio of bounding box.
    x = Conv2D(num_priors * 4, kernel_size=(3,3), padding='same',name='conv6_2_mbox_loc')(net['conv6_2'])
    net['conv6_2_mbox_loc'] = x
    net['conv6_2_mbox_loc_flat'] = Flatten(name='conv6_2_mbox_loc_flat')(net['conv6_2_mbox_loc'])
    # num_priors means how many priors in cell of this feature layer,num_classes means object classs
    x = Conv2D(num_priors * num_classes, kernel_size=(3,3), padding='same',name='conv6_2_mbox_conf')(net['conv6_2'])
    net['conv6_2_mbox_conf'] = x
    net['conv6_2_mbox_conf_flat'] = Flatten(name='conv6_2_mbox_conf_flat')(net['conv6_2_mbox_conf'])

    priorbox = PriorBox(img_size, 111.0, max_size=162.0, aspect_ratios=[2, 3],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv6_2_mbox_priorbox')
    net['conv6_2_mbox_priorbox'] = priorbox(net['conv6_2'])

    # Process conv7_2
    num_priors = 6
    # Process the Prediction of bounding box
    # num_priors means how many priors in cell of this feature layer ,4 is x,y,h,w, positio of bounding box.
    x = Conv2D(num_priors * 4, kernel_size=(3,3), padding='same',name='conv7_2_mbox_loc')(net['conv7_2'])
    net['conv7_2_mbox_loc'] = x
    net['conv7_2_mbox_loc_flat'] = Flatten(name='conv7_2_mbox_loc_flat')(net['conv7_2_mbox_loc'])
    # num_priors means how many priors in cell of this feature layer,num_classes means object classs
    x = Conv2D(num_priors * num_classes, kernel_size=(3,3), padding='same',name='conv7_2_mbox_conf')(net['conv7_2'])
    net['conv7_2_mbox_conf'] = x
    net['conv7_2_mbox_conf_flat'] = Flatten(name='conv7_2_mbox_conf_flat')(net['conv7_2_mbox_conf'])

    priorbox = PriorBox(img_size, 162.0, max_size=213.0, aspect_ratios=[2, 3],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv7_2_mbox_priorbox')
    net['conv7_2_mbox_priorbox'] = priorbox(net['conv7_2'])

    # Process conv8_2
    num_priors = 4
    # Process the Prediction of bounding box
    # num_priors means how many priors in cell of this feature layer ,4 is x,y,h,w, positio of bounding box.
    x = Conv2D(num_priors * 4, kernel_size=(3,3), padding='same',name='conv8_2_mbox_loc')(net['conv8_2'])
    net['conv8_2_mbox_loc'] = x
    net['conv8_2_mbox_loc_flat'] = Flatten(name='conv8_2_mbox_loc_flat')(net['conv8_2_mbox_loc'])
    # num_priors means how many priors in cell of this feature layer,num_classes means object classs
    x = Conv2D(num_priors * num_classes, kernel_size=(3,3), padding='same',name='conv8_2_mbox_conf')(net['conv8_2'])
    net['conv8_2_mbox_conf'] = x
    net['conv8_2_mbox_conf_flat'] = Flatten(name='conv8_2_mbox_conf_flat')(net['conv8_2_mbox_conf'])

    priorbox = PriorBox(img_size, 213.0, max_size=264.0, aspect_ratios=[2],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv8_2_mbox_priorbox')
    net['conv8_2_mbox_priorbox'] = priorbox(net['conv8_2'])

    # Process conv9_2
    num_priors = 4
    # Process the Prediction of bounding box
    # num_priors means how many priors in cell of this feature layer ,4 is x,y,h,w, positio of bounding box.
    x = Conv2D(num_priors * 4, kernel_size=(3,3), padding='same',name='conv9_2_mbox_loc')(net['conv9_2'])
    net['conv9_2_mbox_loc'] = x
    net['conv9_2_mbox_loc_flat'] = Flatten(name='conv9_2_mbox_loc_flat')(net['conv9_2_mbox_loc'])
    # num_priors means how many priors in cell of this feature layer,num_classes means object classs
    x = Conv2D(num_priors * num_classes, kernel_size=(3,3), padding='same',name='conv9_2_mbox_conf')(net['conv9_2'])
    net['conv9_2_mbox_conf'] = x
    net['conv9_2_mbox_conf_flat'] = Flatten(name='conv9_2_mbox_conf_flat')(net['conv9_2_mbox_conf'])
    
    priorbox = PriorBox(img_size, 264.0, max_size=315.0, aspect_ratios=[2],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv9_2_mbox_priorbox')

    net['conv9_2_mbox_priorbox'] = priorbox(net['conv9_2'])

    # concatenate location and conffident in all feature layers
    net['mbox_loc'] = concatenate([net['conv4_3_norm_mbox_loc_flat'],
                             net['fc7_mbox_loc_flat'],
                             net['conv6_2_mbox_loc_flat'],
                             net['conv7_2_mbox_loc_flat'],
                             net['conv8_2_mbox_loc_flat'],
                             net['conv9_2_mbox_loc_flat']],
                            axis=1, name='mbox_loc')
    net['mbox_conf'] = concatenate([net['conv4_3_norm_mbox_conf_flat'],
                              net['fc7_mbox_conf_flat'],
                              net['conv6_2_mbox_conf_flat'],
                              net['conv7_2_mbox_conf_flat'],
                              net['conv8_2_mbox_conf_flat'],
                              net['conv9_2_mbox_conf_flat']],
                             axis=1, name='mbox_conf')
    net['mbox_priorbox'] = concatenate([net['conv4_3_norm_mbox_priorbox'],
                                  net['fc7_mbox_priorbox'],
                                  net['conv6_2_mbox_priorbox'],
                                  net['conv7_2_mbox_priorbox'],
                                  net['conv8_2_mbox_priorbox'],
                                  net['conv9_2_mbox_priorbox']],
                                  axis=1, name='mbox_priorbox')

    if hasattr(net['mbox_loc'], '_keras_shape'):
        num_boxes = net['mbox_loc']._keras_shape[-1] // 4
    elif hasattr(net['mbox_loc'], 'int_shape'):
        num_boxes = K.int_shape(net['mbox_loc'])[-1] // 4
    # 8732,4
    net['mbox_loc'] = Reshape((num_boxes, 4),name='mbox_loc_final')(net['mbox_loc'])
    # 8732,21
    net['mbox_conf'] = Reshape((num_boxes, num_classes),name='mbox_conf_logits')(net['mbox_conf'])
    net['mbox_conf'] = Activation('softmax',name='mbox_conf_final')(net['mbox_conf'])

    net['predictions'] = concatenate([net['mbox_loc'],
                               net['mbox_conf'],
                               net['mbox_priorbox']],
                               axis=2, name='predictions')
    print(net['predictions'])
    model = Model(net['input'], net['predictions'])
    return model
Ejemplo n.º 2
0
def SSD300(input_shape, num_classes=21):
    # 300,300,3
    input_tensor = Input(shape=input_shape)
    img_size = (input_shape[1], input_shape[0])

    # SSD结构,net字典
    net = VGG16(input_tensor)

    # -----------------------将提取到的主干特征进行处理---------------------------#
    # 对conv4_3进行处理 38,38,512
    net['conv4_3_norm'] = Normalize(20, name='conv4_3_norm')(net['conv4_3'])
    num_priors = 4
    # 预测框的处理
    # num_priors表示每个网格点先验框的数量,4是x,y,h,w的调整
    net['conv4_3_norm_mbox_loc'] = Conv2D(num_priors * 4,
                                          kernel_size=(3, 3),
                                          padding='same',
                                          name='conv4_3_norm_mbox_loc')(
                                              net['conv4_3_norm'])
    net['conv4_3_norm_mbox_loc_flat'] = Flatten(
        name='conv4_3_norm_mbox_loc_flat')(net['conv4_3_norm_mbox_loc'])
    # num_priors表示每个网格点先验框的数量,num_classes是所分的类
    net['conv4_3_norm_mbox_conf'] = Conv2D(num_priors * num_classes,
                                           kernel_size=(3, 3),
                                           padding='same',
                                           name='conv4_3_norm_mbox_conf')(
                                               net['conv4_3_norm'])
    net['conv4_3_norm_mbox_conf_flat'] = Flatten(
        name='conv4_3_norm_mbox_conf_flat')(net['conv4_3_norm_mbox_conf'])
    priorbox = PriorBox(img_size,
                        30.0,
                        max_size=60.0,
                        aspect_ratios=[2],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv4_3_norm_mbox_priorbox')
    net['conv4_3_norm_mbox_priorbox'] = priorbox(net['conv4_3_norm'])

    # 对fc7层进行处理
    num_priors = 6
    # 预测框的处理
    # num_priors表示每个网格点先验框的数量,4是x,y,h,w的调整
    net['fc7_mbox_loc'] = Conv2D(num_priors * 4,
                                 kernel_size=(3, 3),
                                 padding='same',
                                 name='fc7_mbox_loc')(net['fc7'])
    net['fc7_mbox_loc_flat'] = Flatten(name='fc7_mbox_loc_flat')(
        net['fc7_mbox_loc'])
    # num_priors表示每个网格点先验框的数量,num_classes是所分的类
    net['fc7_mbox_conf'] = Conv2D(num_priors * num_classes,
                                  kernel_size=(3, 3),
                                  padding='same',
                                  name='fc7_mbox_conf')(net['fc7'])
    net['fc7_mbox_conf_flat'] = Flatten(name='fc7_mbox_conf_flat')(
        net['fc7_mbox_conf'])

    priorbox = PriorBox(img_size,
                        60.0,
                        max_size=111.0,
                        aspect_ratios=[2, 3],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='fc7_mbox_priorbox')
    net['fc7_mbox_priorbox'] = priorbox(net['fc7'])

    # 对conv6_2进行处理
    num_priors = 6
    # 预测框的处理
    # num_priors表示每个网格点先验框的数量,4是x,y,h,w的调整
    x = Conv2D(num_priors * 4,
               kernel_size=(3, 3),
               padding='same',
               name='conv6_2_mbox_loc')(net['conv6_2'])
    net['conv6_2_mbox_loc'] = x
    net['conv6_2_mbox_loc_flat'] = Flatten(name='conv6_2_mbox_loc_flat')(
        net['conv6_2_mbox_loc'])
    # num_priors表示每个网格点先验框的数量,num_classes是所分的类
    x = Conv2D(num_priors * num_classes,
               kernel_size=(3, 3),
               padding='same',
               name='conv6_2_mbox_conf')(net['conv6_2'])
    net['conv6_2_mbox_conf'] = x
    net['conv6_2_mbox_conf_flat'] = Flatten(name='conv6_2_mbox_conf_flat')(
        net['conv6_2_mbox_conf'])

    priorbox = PriorBox(img_size,
                        111.0,
                        max_size=162.0,
                        aspect_ratios=[2, 3],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv6_2_mbox_priorbox')
    net['conv6_2_mbox_priorbox'] = priorbox(net['conv6_2'])

    # 对conv7_2进行处理
    num_priors = 6
    # 预测框的处理
    # num_priors表示每个网格点先验框的数量,4是x,y,h,w的调整
    x = Conv2D(num_priors * 4,
               kernel_size=(3, 3),
               padding='same',
               name='conv7_2_mbox_loc')(net['conv7_2'])
    net['conv7_2_mbox_loc'] = x
    net['conv7_2_mbox_loc_flat'] = Flatten(name='conv7_2_mbox_loc_flat')(
        net['conv7_2_mbox_loc'])
    # num_priors表示每个网格点先验框的数量,num_classes是所分的类
    x = Conv2D(num_priors * num_classes,
               kernel_size=(3, 3),
               padding='same',
               name='conv7_2_mbox_conf')(net['conv7_2'])
    net['conv7_2_mbox_conf'] = x
    net['conv7_2_mbox_conf_flat'] = Flatten(name='conv7_2_mbox_conf_flat')(
        net['conv7_2_mbox_conf'])

    priorbox = PriorBox(img_size,
                        162.0,
                        max_size=213.0,
                        aspect_ratios=[2, 3],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv7_2_mbox_priorbox')
    net['conv7_2_mbox_priorbox'] = priorbox(net['conv7_2'])

    # 对conv8_2进行处理
    num_priors = 4
    # 预测框的处理
    # num_priors表示每个网格点先验框的数量,4是x,y,h,w的调整
    x = Conv2D(num_priors * 4,
               kernel_size=(3, 3),
               padding='same',
               name='conv8_2_mbox_loc')(net['conv8_2'])
    net['conv8_2_mbox_loc'] = x
    net['conv8_2_mbox_loc_flat'] = Flatten(name='conv8_2_mbox_loc_flat')(
        net['conv8_2_mbox_loc'])
    # num_priors表示每个网格点先验框的数量,num_classes是所分的类
    x = Conv2D(num_priors * num_classes,
               kernel_size=(3, 3),
               padding='same',
               name='conv8_2_mbox_conf')(net['conv8_2'])
    net['conv8_2_mbox_conf'] = x
    net['conv8_2_mbox_conf_flat'] = Flatten(name='conv8_2_mbox_conf_flat')(
        net['conv8_2_mbox_conf'])

    priorbox = PriorBox(img_size,
                        213.0,
                        max_size=264.0,
                        aspect_ratios=[2],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv8_2_mbox_priorbox')
    net['conv8_2_mbox_priorbox'] = priorbox(net['conv8_2'])

    # 对conv9_2进行处理
    num_priors = 4
    # 预测框的处理
    # num_priors表示每个网格点先验框的数量,4是x,y,h,w的调整
    x = Conv2D(num_priors * 4,
               kernel_size=(3, 3),
               padding='same',
               name='conv9_2_mbox_loc')(net['conv9_2'])
    net['conv9_2_mbox_loc'] = x
    net['conv9_2_mbox_loc_flat'] = Flatten(name='conv9_2_mbox_loc_flat')(
        net['conv9_2_mbox_loc'])
    # num_priors表示每个网格点先验框的数量,num_classes是所分的类
    x = Conv2D(num_priors * num_classes,
               kernel_size=(3, 3),
               padding='same',
               name='conv9_2_mbox_conf')(net['conv9_2'])
    net['conv9_2_mbox_conf'] = x
    net['conv9_2_mbox_conf_flat'] = Flatten(name='conv9_2_mbox_conf_flat')(
        net['conv9_2_mbox_conf'])

    priorbox = PriorBox(img_size,
                        264.0,
                        max_size=315.0,
                        aspect_ratios=[2],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv9_2_mbox_priorbox')

    net['conv9_2_mbox_priorbox'] = priorbox(net['conv9_2'])

    # 将所有结果进行堆叠
    net['mbox_loc'] = concatenate([
        net['conv4_3_norm_mbox_loc_flat'], net['fc7_mbox_loc_flat'],
        net['conv6_2_mbox_loc_flat'], net['conv7_2_mbox_loc_flat'],
        net['conv8_2_mbox_loc_flat'], net['conv9_2_mbox_loc_flat']
    ],
                                  axis=1,
                                  name='mbox_loc')
    net['mbox_conf'] = concatenate([
        net['conv4_3_norm_mbox_conf_flat'], net['fc7_mbox_conf_flat'],
        net['conv6_2_mbox_conf_flat'], net['conv7_2_mbox_conf_flat'],
        net['conv8_2_mbox_conf_flat'], net['conv9_2_mbox_conf_flat']
    ],
                                   axis=1,
                                   name='mbox_conf')
    net['mbox_priorbox'] = concatenate([
        net['conv4_3_norm_mbox_priorbox'], net['fc7_mbox_priorbox'],
        net['conv6_2_mbox_priorbox'], net['conv7_2_mbox_priorbox'],
        net['conv8_2_mbox_priorbox'], net['conv9_2_mbox_priorbox']
    ],
                                       axis=1,
                                       name='mbox_priorbox')

    if hasattr(net['mbox_loc'], '_keras_shape'):
        num_boxes = net['mbox_loc']._keras_shape[-1] // 4
    elif hasattr(net['mbox_loc'], 'int_shape'):
        num_boxes = K.int_shape(net['mbox_loc'])[-1] // 4
    # 8732,4
    net['mbox_loc'] = Reshape((num_boxes, 4),
                              name='mbox_loc_final')(net['mbox_loc'])
    # 8732,21
    net['mbox_conf'] = Reshape((num_boxes, num_classes),
                               name='mbox_conf_logits')(net['mbox_conf'])
    net['mbox_conf'] = Activation('softmax',
                                  name='mbox_conf_final')(net['mbox_conf'])

    net['predictions'] = concatenate(
        [net['mbox_loc'], net['mbox_conf'], net['mbox_priorbox']],
        axis=2,
        name='predictions')
    print(net['predictions'])
    model = Model(net['input'], net['predictions'])
    return model
Ejemplo n.º 3
0
def SSD300(input_shape, num_classes=21, anchors_size=[30,60,111,162,213,264,315]):
    #---------------------------------#
    #   典型的输入大小为[300,300,3]
    #---------------------------------#
    input_tensor = Input(shape=input_shape)
    
    # net变量里面包含了整个SSD的结构,通过层名可以找到对应的特征层
    net = VGG16(input_tensor)

    #-----------------------将提取到的主干特征进行处理---------------------------#
    # 对conv4_3的通道进行l2标准化处理 
    # 38,38,512
    net['conv4_3_norm'] = Normalize(20, name='conv4_3_norm')(net['conv4_3'])
    num_priors = 4
    # 预测框的处理
    # num_priors表示每个网格点先验框的数量,4是x,y,h,w的调整
    net['conv4_3_norm_mbox_loc'] = Conv2D(num_priors * 4, kernel_size=(3,3), padding='same', name='conv4_3_norm_mbox_loc')(net['conv4_3_norm'])
    net['conv4_3_norm_mbox_loc_flat'] = Flatten(name='conv4_3_norm_mbox_loc_flat')(net['conv4_3_norm_mbox_loc'])
    # num_priors表示每个网格点先验框的数量,num_classes是所分的类
    net['conv4_3_norm_mbox_conf'] = Conv2D(num_priors * num_classes, kernel_size=(3,3), padding='same',name='conv4_3_norm_mbox_conf')(net['conv4_3_norm'])
    net['conv4_3_norm_mbox_conf_flat'] = Flatten(name='conv4_3_norm_mbox_conf_flat')(net['conv4_3_norm_mbox_conf'])

    priorbox = PriorBox(input_shape, anchors_size[0], max_size=anchors_size[1], aspect_ratios=[2],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv4_3_norm_mbox_priorbox')
    net['conv4_3_norm_mbox_priorbox'] = priorbox(net['conv4_3_norm'])
    
    # 对fc7层进行处理 
    # 19,19,1024
    num_priors = 6
    # 预测框的处理
    # num_priors表示每个网格点先验框的数量,4是x,y,h,w的调整
    net['fc7_mbox_loc'] = Conv2D(num_priors * 4, kernel_size=(3,3),padding='same',name='fc7_mbox_loc')(net['fc7'])
    net['fc7_mbox_loc_flat'] = Flatten(name='fc7_mbox_loc_flat')(net['fc7_mbox_loc'])
    # num_priors表示每个网格点先验框的数量,num_classes是所分的类
    net['fc7_mbox_conf'] = Conv2D(num_priors * num_classes, kernel_size=(3,3),padding='same',name='fc7_mbox_conf')(net['fc7'])
    net['fc7_mbox_conf_flat'] = Flatten(name='fc7_mbox_conf_flat')(net['fc7_mbox_conf'])

    priorbox = PriorBox(input_shape, anchors_size[1], max_size=anchors_size[2], aspect_ratios=[2, 3],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='fc7_mbox_priorbox')
    net['fc7_mbox_priorbox'] = priorbox(net['fc7'])

    # 对conv6_2进行处理
    # 10,10,512
    num_priors = 6
    # 预测框的处理
    # num_priors表示每个网格点先验框的数量,4是x,y,h,w的调整
    x = Conv2D(num_priors * 4, kernel_size=(3,3), padding='same',name='conv6_2_mbox_loc')(net['conv6_2'])
    net['conv6_2_mbox_loc'] = x
    net['conv6_2_mbox_loc_flat'] = Flatten(name='conv6_2_mbox_loc_flat')(net['conv6_2_mbox_loc'])
    # num_priors表示每个网格点先验框的数量,num_classes是所分的类
    x = Conv2D(num_priors * num_classes, kernel_size=(3,3), padding='same',name='conv6_2_mbox_conf')(net['conv6_2'])
    net['conv6_2_mbox_conf'] = x
    net['conv6_2_mbox_conf_flat'] = Flatten(name='conv6_2_mbox_conf_flat')(net['conv6_2_mbox_conf'])

    priorbox = PriorBox(input_shape, anchors_size[2], max_size=anchors_size[3], aspect_ratios=[2, 3],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv6_2_mbox_priorbox')
    net['conv6_2_mbox_priorbox'] = priorbox(net['conv6_2'])

    # 对conv7_2进行处理
    # 5,5,256
    num_priors = 6
    # 预测框的处理
    # num_priors表示每个网格点先验框的数量,4是x,y,h,w的调整
    x = Conv2D(num_priors * 4, kernel_size=(3,3), padding='same',name='conv7_2_mbox_loc')(net['conv7_2'])
    net['conv7_2_mbox_loc'] = x
    net['conv7_2_mbox_loc_flat'] = Flatten(name='conv7_2_mbox_loc_flat')(net['conv7_2_mbox_loc'])
    # num_priors表示每个网格点先验框的数量,num_classes是所分的类
    x = Conv2D(num_priors * num_classes, kernel_size=(3,3), padding='same',name='conv7_2_mbox_conf')(net['conv7_2'])
    net['conv7_2_mbox_conf'] = x
    net['conv7_2_mbox_conf_flat'] = Flatten(name='conv7_2_mbox_conf_flat')(net['conv7_2_mbox_conf'])

    priorbox = PriorBox(input_shape, anchors_size[3], max_size=anchors_size[4], aspect_ratios=[2, 3],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv7_2_mbox_priorbox')
    net['conv7_2_mbox_priorbox'] = priorbox(net['conv7_2'])

    # 对conv8_2进行处理
    # 3,3,256
    num_priors = 4
    # 预测框的处理
    # num_priors表示每个网格点先验框的数量,4是x,y,h,w的调整
    x = Conv2D(num_priors * 4, kernel_size=(3,3), padding='same',name='conv8_2_mbox_loc')(net['conv8_2'])
    net['conv8_2_mbox_loc'] = x
    net['conv8_2_mbox_loc_flat'] = Flatten(name='conv8_2_mbox_loc_flat')(net['conv8_2_mbox_loc'])
    # num_priors表示每个网格点先验框的数量,num_classes是所分的类
    x = Conv2D(num_priors * num_classes, kernel_size=(3,3), padding='same',name='conv8_2_mbox_conf')(net['conv8_2'])
    net['conv8_2_mbox_conf'] = x
    net['conv8_2_mbox_conf_flat'] = Flatten(name='conv8_2_mbox_conf_flat')(net['conv8_2_mbox_conf'])

    priorbox = PriorBox(input_shape, anchors_size[4], max_size=anchors_size[5], aspect_ratios=[2],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv8_2_mbox_priorbox')
    net['conv8_2_mbox_priorbox'] = priorbox(net['conv8_2'])

    # 对conv9_2进行处理
    # 1,1,256
    num_priors = 4
    # 预测框的处理
    # num_priors表示每个网格点先验框的数量,4是x,y,h,w的调整
    x = Conv2D(num_priors * 4, kernel_size=(3,3), padding='same',name='conv9_2_mbox_loc')(net['conv9_2'])
    net['conv9_2_mbox_loc'] = x
    net['conv9_2_mbox_loc_flat'] = Flatten(name='conv9_2_mbox_loc_flat')(net['conv9_2_mbox_loc'])
    # num_priors表示每个网格点先验框的数量,num_classes是所分的类
    x = Conv2D(num_priors * num_classes, kernel_size=(3,3), padding='same',name='conv9_2_mbox_conf')(net['conv9_2'])
    net['conv9_2_mbox_conf'] = x
    net['conv9_2_mbox_conf_flat'] = Flatten(name='conv9_2_mbox_conf_flat')(net['conv9_2_mbox_conf'])
    
    priorbox = PriorBox(input_shape, anchors_size[5], max_size=anchors_size[6], aspect_ratios=[2],
                        variances=[0.1, 0.1, 0.2, 0.2],
                        name='conv9_2_mbox_priorbox')

    net['conv9_2_mbox_priorbox'] = priorbox(net['conv9_2'])

    # 将所有结果进行堆叠
    net['mbox_loc'] = concatenate([net['conv4_3_norm_mbox_loc_flat'],
                             net['fc7_mbox_loc_flat'],
                             net['conv6_2_mbox_loc_flat'],
                             net['conv7_2_mbox_loc_flat'],
                             net['conv8_2_mbox_loc_flat'],
                             net['conv9_2_mbox_loc_flat']],
                            axis=1, name='mbox_loc')
    net['mbox_conf'] = concatenate([net['conv4_3_norm_mbox_conf_flat'],
                              net['fc7_mbox_conf_flat'],
                              net['conv6_2_mbox_conf_flat'],
                              net['conv7_2_mbox_conf_flat'],
                              net['conv8_2_mbox_conf_flat'],
                              net['conv9_2_mbox_conf_flat']],
                             axis=1, name='mbox_conf')
    net['mbox_priorbox'] = concatenate([net['conv4_3_norm_mbox_priorbox'],
                                  net['fc7_mbox_priorbox'],
                                  net['conv6_2_mbox_priorbox'],
                                  net['conv7_2_mbox_priorbox'],
                                  net['conv8_2_mbox_priorbox'],
                                  net['conv9_2_mbox_priorbox']],
                                  axis=1, name='mbox_priorbox')

    # 8732,4
    net['mbox_loc'] = Reshape((-1, 4),name='mbox_loc_final')(net['mbox_loc'])
    # 8732,21
    net['mbox_conf'] = Reshape((-1, num_classes),name='mbox_conf_logits')(net['mbox_conf'])
    # 8732,8
    net['mbox_conf'] = Activation('softmax',name='mbox_conf_final')(net['mbox_conf'])
    # 8732,33
    net['predictions'] = concatenate([net['mbox_loc'],
                                    net['mbox_conf'],
                                    net['mbox_priorbox']],
                                    axis=2, name='predictions')

    model = Model(net['input'], net['predictions'])
    return model