dlib官方使用resnet训练人脸识别,训练了300万的数据,网络参数保存在dlib_face_recognition_resnet_model_v1.dat中。
测试中识别lfw数据时,准确率能达到99.13%,可是在识别本身的数据时,准确率有点低,想在此基础上使用本身的数据经行微调。
通过一番瞎搞,最终失败了(本人是个AI小白)。c++
缘由是训练网络和测试网络不同,dlib_face_recognition_resnet_model_v1.dat中保存的是测试网络的序列化参数。
训练网络和测试网络的代码实现以下web
template <template <int,template<typename>class,int,typename> class block, int N, template<typename>class BN, typename SUBNET>
using residual = add_prev1<block<N,BN,1,tag1<SUBNET>>>;
template <template <int,template<typename>class,int,typename> class block, int N, template<typename>class BN, typename SUBNET>
using residual_down = add_prev2<avg_pool<2,2,2,2,skip1<tag2<block<N,BN,2,tag1<SUBNET>>>>>>;
template <int N, template <typename> class BN, int stride, typename SUBNET>
using block = BN<con<N,3,3,1,1,relu<BN<con<N,3,3,stride,stride,SUBNET>>>>>;
template <int N, typename SUBNET> using res = relu<residual<block,N,bn_con,SUBNET>>;
template <int N, typename SUBNET> using ares = relu<residual<block,N,affine,SUBNET>>;
template <int N, typename SUBNET> using res_down = relu<residual_down<block,N,bn_con,SUBNET>>;
template <int N, typename SUBNET> using ares_down = relu<residual_down<block,N,affine,SUBNET>>;
// ----------------------------------------------------------------------------------------
template <typename SUBNET> using level0 = res_down<256,SUBNET>;
template <typename SUBNET> using level1 = res<256,res<256,res_down<256,SUBNET>>>;
template <typename SUBNET> using level2 = res<128,res<128,res_down<128,SUBNET>>>;
template <typename SUBNET> using level3 = res<64,res<64,res<64,res_down<64,SUBNET>>>>;
template <typename SUBNET> using level4 = res<32,res<32,res<32,SUBNET>>>;
template <typename SUBNET> using alevel0 = ares_down<256,SUBNET>;
template <typename SUBNET> using alevel1 = ares<256,ares<256,ares_down<256,SUBNET>>>;
template <typename SUBNET> using alevel2 = ares<128,ares<128,ares_down<128,SUBNET>>>;
template <typename SUBNET> using alevel3 = ares<64,ares<64,ares<64,ares_down<64,SUBNET>>>>;
template <typename SUBNET> using alevel4 = ares<32,ares<32,ares<32,SUBNET>>>;
// training network type
using net_type = loss_metric<fc_no_bias<128,avg_pool_everything<
level0<
level1<
level2<
level3<
level4<
max_pool<3,3,2,2,relu<bn_con<con<32,7,7,2,2,
input_rgb_image
>>>>>>>>>>>>;
// testing network type (replaced batch normalization with fixed affine transforms)
using anet_type = loss_metric<fc_no_bias<128,avg_pool_everything<
alevel0<
alevel1<
alevel2<
alevel3<
alevel4<
max_pool<3,3,2,2,relu<affine<con<32,7,7,2,2,
input_rgb_image
>>>>>>>>>>>>;
训练网络net_type和测试网络anet_type的主要却别是,affine代替了bn_con(用固定仿射变换代替批量标准化)shell
若是将dlib_face_recognition_resnet_model_v1.dat并行化到net_type上运行时会报错,而后崩溃网络
terminate called after throwing an instance of 'dlib::serialization_error' what(): An error occurred while trying to read the first object from the file dlib_face_recognition_resnet_model_v1.dat. ERROR: Unexpected version 'affine_' found while deserializing dlib::bn_. Aborted (core dumped)
从错误打印能够看出dlib_face_recognition_resnet_model_v1.dat中保存的是affine_,即测试网络。ide
在dlib官方demo:dnn_metric_learning_on_images_ex.cpp中有svg
anet_type testing_net = net;
说明 训练网络net_type 能够自动转换成 测试网络anet_type
缘由是dlib源码中有bn_转affine_的代码测试
class affine_
{
public:
template <
layer_mode bnmode
>
affine_(
const bn_<bnmode>& item
)
...
将dlib_face_recognition_resnet_model_v1.dat并行化到测试网络anet_type上能够正常运行,若是能将测试网络anet_type转化成训练网络net_type,就能够实现了。
本人小白,尚未找到方法。。。spa