我们大致将模型组件分为了 5 种类型。
- 主干网络 (Backbone): 通常是一个全卷积网络 (FCN),用来提取特征图,比如残差网络 (ResNet)。也可以是基于视觉 Transformer 的网络,比如 Swin Transformer 等。
- Neck: 主干网络和任务头 (Head) 之间的连接组件,比如 FPN, ReFPN。
- 任务头 (Head): 用于某种具体任务(比如边界框预测)的组件。
- 区域特征提取器 (Roi Extractor): 用于从特征图上提取区域特征的组件,比如 RoI Align Rotated。
- 损失 (loss): 任务头上用于计算损失函数的组件,比如 FocalLoss, GWDLoss, and KFIoULoss。
这里,我们以 MobileNet 为例来展示如何开发新组件。
新建文件 mmrotate/models/backbones/mobilenet.py。
import torch.nn as nn
from mmrotate.models.builder import ROTATED_BACKBONES
@ROTATED_BACKBONES.register_module()
class MobileNet(nn.Module):
def __init__(self, arg1, arg2):
pass
def forward(self, x): # should return a tuple
pass你可以将下面的代码添加到 mmrotate/models/backbones/__init__.py 中:
from .mobilenet import MobileNet或者添加如下代码
custom_imports = dict(
imports=['mmrotate.models.backbones.mobilenet'],
allow_failed_imports=False)到配置文件中以避免修改原始代码。
model = dict(
...
backbone=dict(
type='MobileNet',
arg1=xxx,
arg2=xxx),
...新建文件 mmrotate/models/necks/pafpn.py。
from mmrotate.models.builder import ROTATED_NECKS
@ROTATED_NECKS.register_module()
class PAFPN(nn.Module):
def __init__(self,
in_channels,
out_channels,
num_outs,
start_level=0,
end_level=-1,
add_extra_convs=False):
pass
def forward(self, inputs):
# implementation is ignored
pass你可以添加下述代码到 mmrotate/models/necks/__init__.py 中
from .pafpn import PAFPN或者添加
custom_imports = dict(
imports=['mmrotate.models.necks.pafpn.py'],
allow_failed_imports=False)到配置文件中以避免修改原始代码。
neck=dict(
type='PAFPN',
in_channels=[256, 512, 1024, 2048],
out_channels=256,
num_outs=5)这里,我们以 Double Head R-CNN 为例来展示如何添加一个新的 Head。
首先,添加一个新的 bbox head 到 mmrotate/models/roi_heads/bbox_heads/double_bbox_head.py。
Double Head R-CNN 在目标检测上实现了一个新的 bbox head。为了实现 bbox head,我们需要使用如下的新模块中三个函数。
from mmrotate.models.builder import ROTATED_HEADS
from mmrotate.models.roi_heads.bbox_heads.bbox_head import BBoxHead
@ROTATED_HEADS.register_module()
class DoubleConvFCBBoxHead(BBoxHead):
r"""Bbox head used in Double-Head R-CNN
/-> cls
/-> shared convs ->
\-> reg
roi features
/-> cls
\-> shared fc ->
\-> reg
""" # noqa: W605
def __init__(self,
num_convs=0,
num_fcs=0,
conv_out_channels=1024,
fc_out_channels=1024,
conv_cfg=None,
norm_cfg=dict(type='BN'),
**kwargs):
kwargs.setdefault('with_avg_pool', True)
super(DoubleConvFCBBoxHead, self).__init__(**kwargs)
def forward(self, x_cls, x_reg):然后,如有必要,我们需要实现一个新的 RoI Head。我们打算从 StandardRoIHead 继承出新的 DoubleHeadRoIHead。我们发现 StandardRoIHead 已经实现了下述函数。
import torch
from mmdet.core import bbox2result, bbox2roi, build_assigner, build_sampler
from mmrotate.models.builder import ROTATED_HEADS, build_head, build_roi_extractor
from mmrotate.models.roi_heads.base_roi_head import BaseRoIHead
from mmrotate.models.roi_heads.test_mixins import BBoxTestMixin, MaskTestMixin
@ROTATED_HEADS.register_module()
class StandardRoIHead(BaseRoIHead, BBoxTestMixin, MaskTestMixin):
"""Simplest base roi head including one bbox head and one mask head.
"""
def init_assigner_sampler(self):
def init_bbox_head(self, bbox_roi_extractor, bbox_head):
def forward_dummy(self, x, proposals):
def forward_train(self,
x,
img_metas,
proposal_list,
gt_bboxes,
gt_labels,
gt_bboxes_ignore=None,
gt_masks=None):
def _bbox_forward(self, x, rois):
def _bbox_forward_train(self, x, sampling_results, gt_bboxes, gt_labels,
img_metas):
def simple_test(self,
x,
proposal_list,
img_metas,
proposals=None,
rescale=False):
"""Test without augmentation."""Double Head 的修改主要在 _bbox_forward 的逻辑中,且它从 StandardRoIHead 中继承了其他逻辑。
在 mmrotate/models/roi_heads/double_roi_head.py 中, 我们实现如下的新的 RoI Head:
from mmrotate.models.builder import ROTATED_HEADS
from mmrotate.models.roi_heads.standard_roi_head import StandardRoIHead
@ROTATED_HEADS.register_module()
class DoubleHeadRoIHead(StandardRoIHead):
"""RoI head for Double Head RCNN
https://arxiv.org/abs/1904.06493
"""
def __init__(self, reg_roi_scale_factor, **kwargs):
super(DoubleHeadRoIHead, self).__init__(**kwargs)
self.reg_roi_scale_factor = reg_roi_scale_factor
def _bbox_forward(self, x, rois):
bbox_cls_feats = self.bbox_roi_extractor(
x[:self.bbox_roi_extractor.num_inputs], rois)
bbox_reg_feats = self.bbox_roi_extractor(
x[:self.bbox_roi_extractor.num_inputs],
rois,
roi_scale_factor=self.reg_roi_scale_factor)
if self.with_shared_head:
bbox_cls_feats = self.shared_head(bbox_cls_feats)
bbox_reg_feats = self.shared_head(bbox_reg_feats)
cls_score, bbox_pred = self.bbox_head(bbox_cls_feats, bbox_reg_feats)
bbox_results = dict(
cls_score=cls_score,
bbox_pred=bbox_pred,
bbox_feats=bbox_cls_feats)
return bbox_results最后,用户需要把这个新模块添加到 mmrotate/models/bbox_heads/__init__.py 以及 mmrotate/models/roi_heads/__init__.py 中。 这样,注册机制就能找到并加载它们。
另外,用户也可以添加
custom_imports=dict(
imports=['mmrotate.models.roi_heads.double_roi_head', 'mmrotate.models.bbox_heads.double_bbox_head'])到配置文件中来实现同样的目的。
假设你想添加一个新的损失 MyLoss 用于边界框回归。
为了添加一个新的损失函数,用户需要在 mmrotate/models/losses/my_loss.py 中实现。
装饰器 weighted_loss 可以使损失每个部分加权。
import torch
import torch.nn as nn
from mmrotate.models.builder import ROTATED_LOSSES
from mmdet.models.losses.utils import weighted_loss
@weighted_loss
def my_loss(pred, target):
assert pred.size() == target.size() and target.numel() > 0
loss = torch.abs(pred - target)
return loss
@ROTATED_LOSSES.register_module()
class MyLoss(nn.Module):
def __init__(self, reduction='mean', loss_weight=1.0):
super(MyLoss, self).__init__()
self.reduction = reduction
self.loss_weight = loss_weight
def forward(self,
pred,
target,
weight=None,
avg_factor=None,
reduction_override=None):
assert reduction_override in (None, 'none', 'mean', 'sum')
reduction = (
reduction_override if reduction_override else self.reduction)
loss_bbox = self.loss_weight * my_loss(
pred, target, weight, reduction=reduction, avg_factor=avg_factor)
return loss_bbox然后,用户需要把下面的代码加到 mmrotate/models/losses/__init__.py 中。
from .my_loss import MyLoss, my_loss或者,你可以添加:
custom_imports=dict(
imports=['mmrotate.models.losses.my_loss'])到配置文件来实现相同的目的。
因为 MyLoss 是用于回归的,你需要在 Head 中修改 loss_bbox 字段:
loss_bbox=dict(type='MyLoss', loss_weight=1.0))