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ablation study

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hofee 2025-04-28 06:16:03 +00:00
parent ad7a1c9cdf
commit 81bf2678ac
7 changed files with 232 additions and 50 deletions
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41
configs/server/server_train_config.yaml
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@ -3,11 +3,11 @@ runner:
general: general:
seed: 0 seed: 0
device: cuda device: cuda
cuda_visible_devices: "0" cuda_visible_devices: "2"
parallel: False parallel: False
experiment: experiment:
name: train_ab_global_only_with_wp_p++_strong name: newtrain_real_global_only
root_dir: "experiments" root_dir: "experiments"
use_checkpoint: False use_checkpoint: False
epoch: -1 # -1 stands for last epoch epoch: -1 # -1 stands for last epoch
@ -28,18 +28,18 @@ runner:
- OmniObject3d_test - OmniObject3d_test
- OmniObject3d_val - OmniObject3d_val
pipeline: nbv_reconstruction_pipeline pipeline: nbv_reconstruction_pipeline_global_only
dataset: dataset:
OmniObject3d_train: OmniObject3d_train:
root_dir: "/data/hofee/data/new_full_data" root_dir: "/data/hofee/data/new_full_data"
model_dir: "../data/scaled_object_meshes" model_dir: "../data/scaled_object_meshes"
source: nbv_reconstruction_dataset source: nbv_reconstruction_dataset
split_file: "/data/hofee/data/new_full_data_list/OmniObject3d_train.txt" split_file: "/data/hofee/data/new_full_data_list/new_OmniObject3d_train.txt"
type: train type: train
cache: True cache: True
ratio: 1 ratio: 1
batch_size: 64 batch_size: 24
num_workers: 128 num_workers: 128
pts_num: 8192 pts_num: 8192
load_from_preprocess: True load_from_preprocess: True
@ -48,14 +48,14 @@ dataset:
root_dir: "/data/hofee/data/new_full_data" root_dir: "/data/hofee/data/new_full_data"
model_dir: "../data/scaled_object_meshes" model_dir: "../data/scaled_object_meshes"
source: nbv_reconstruction_dataset source: nbv_reconstruction_dataset
split_file: "/data/hofee/data/new_full_data_list/OmniObject3d_test.txt" split_file: "/data/hofee/data/new_full_data_list/new_OmniObject3d_test.txt"
type: test type: test
cache: True cache: True
filter_degree: 75 filter_degree: 75
eval_list: eval_list:
- pose_diff - pose_diff
ratio: 1 ratio: 1
batch_size: 80 batch_size: 32
num_workers: 12 num_workers: 12
pts_num: 8192 pts_num: 8192
load_from_preprocess: True load_from_preprocess: True
@ -64,21 +64,37 @@ dataset:
root_dir: "/data/hofee/data/new_full_data" root_dir: "/data/hofee/data/new_full_data"
model_dir: "../data/scaled_object_meshes" model_dir: "../data/scaled_object_meshes"
source: nbv_reconstruction_dataset source: nbv_reconstruction_dataset
split_file: "/data/hofee/data/new_full_data_list/OmniObject3d_train.txt" split_file: "/data/hofee/data/new_full_data_list/new_OmniObject3d_train.txt"
type: test type: test
cache: True cache: True
filter_degree: 75 filter_degree: 75
eval_list: eval_list:
- pose_diff - pose_diff
ratio: 0.1 ratio: 0.1
batch_size: 80 batch_size: 32
num_workers: 12 num_workers: 12
pts_num: 8192 pts_num: 8192
load_from_preprocess: True load_from_preprocess: True
pipeline: pipeline:
nbv_reconstruction_pipeline: nbv_reconstruction_pipeline_local:
modules:
pts_encoder: pointnet++_encoder
seq_encoder: transformer_seq_encoder
pose_encoder: pose_encoder
view_finder: gf_view_finder
eps: 1e-5
global_scanned_feat: True
nbv_reconstruction_pipeline_global:
modules:
pts_encoder: pointnet++_encoder
seq_encoder: transformer_seq_encoder
pose_encoder: pose_encoder
view_finder: gf_view_finder
eps: 1e-5
global_scanned_feat: True
nbv_reconstruction_pipeline_local_only:
modules: modules:
pts_encoder: pointnet++_encoder pts_encoder: pointnet++_encoder
seq_encoder: transformer_seq_encoder seq_encoder: transformer_seq_encoder
@ -98,10 +114,9 @@ module:
pointnet++_encoder: pointnet++_encoder:
in_dim: 3 in_dim: 3
params_name: strong
transformer_seq_encoder: transformer_seq_encoder:
embed_dim: 256 embed_dim: 1280
num_heads: 4 num_heads: 4
ffn_dim: 256 ffn_dim: 256
num_layers: 3 num_layers: 3
@ -110,7 +125,7 @@ module:
gf_view_finder: gf_view_finder:
t_feat_dim: 128 t_feat_dim: 128
pose_feat_dim: 256 pose_feat_dim: 256
main_feat_dim: 5120 main_feat_dim: 1024
regression_head: Rx_Ry_and_T regression_head: Rx_Ry_and_T
pose_mode: rot_matrix pose_mode: rot_matrix
per_point_feature: False per_point_feature: False

81
core/ab_global_only_pts_pipeline.py Normal file
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@ -0,0 +1,81 @@
import torch
from torch import nn
import PytorchBoot.namespace as namespace
import PytorchBoot.stereotype as stereotype
from PytorchBoot.factory.component_factory import ComponentFactory
from PytorchBoot.utils import Log
@stereotype.pipeline("nbv_reconstruction_pipeline_global_only")
class NBVReconstructionGlobalPointsOnlyPipeline(nn.Module):
def __init__(self, config):
super(NBVReconstructionGlobalPointsOnlyPipeline, self).__init__()
self.config = config
self.module_config = config["modules"]
self.pts_encoder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["pts_encoder"])
self.pose_encoder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["pose_encoder"])
self.view_finder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["view_finder"])
self.eps = float(self.config["eps"])
self.enable_global_scanned_feat = self.config["global_scanned_feat"]
def forward(self, data):
mode = data["mode"]
if mode == namespace.Mode.TRAIN:
return self.forward_train(data)
elif mode == namespace.Mode.TEST:
return self.forward_test(data)
else:
Log.error("Unknown mode: {}".format(mode), True)
def pertube_data(self, gt_delta_9d):
bs = gt_delta_9d.shape[0]
random_t = torch.rand(bs, device=gt_delta_9d.device) * (1. - self.eps) + self.eps
random_t = random_t.unsqueeze(-1)
mu, std = self.view_finder.marginal_prob(gt_delta_9d, random_t)
std = std.view(-1, 1)
z = torch.randn_like(gt_delta_9d)
perturbed_x = mu + z * std
target_score = - z * std / (std ** 2)
return perturbed_x, random_t, target_score, std
def forward_train(self, data):
main_feat = self.get_main_feat(data)
''' get std '''
best_to_world_pose_9d_batch = data["best_to_world_pose_9d"]
perturbed_x, random_t, target_score, std = self.pertube_data(best_to_world_pose_9d_batch)
input_data = {
"sampled_pose": perturbed_x,
"t": random_t,
"main_feat": main_feat,
}
estimated_score = self.view_finder(input_data)
output = {
"estimated_score": estimated_score,
"target_score": target_score,
"std": std
}
return output
def forward_test(self,data):
main_feat = self.get_main_feat(data)
estimated_delta_rot_9d, in_process_sample = self.view_finder.next_best_view(main_feat)
result = {
"pred_pose_9d": estimated_delta_rot_9d,
"in_process_sample": in_process_sample
}
return result
def get_main_feat(self, data):
combined_scanned_pts_batch = data['combined_scanned_pts']
global_scanned_feat = self.pts_encoder.encode_points(combined_scanned_pts_batch)
main_feat = global_scanned_feat
if torch.isnan(main_feat).any():
Log.error("nan in main_feat", True)
return main_feat

91
core/ab_local_only_pts_pipeline.py Normal file
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@ -0,0 +1,91 @@
import torch
from torch import nn
import PytorchBoot.namespace as namespace
import PytorchBoot.stereotype as stereotype
from PytorchBoot.factory.component_factory import ComponentFactory
from PytorchBoot.utils import Log
@stereotype.pipeline("nbv_reconstruction_pipeline_local_only")
class NBVReconstructionLocalPointsOnlyPipeline(nn.Module):
def __init__(self, config):
super(NBVReconstructionLocalPointsOnlyPipeline, self).__init__()
self.config = config
self.module_config = config["modules"]
self.pts_encoder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["pts_encoder"])
self.pose_encoder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["pose_encoder"])
self.seq_encoder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["seq_encoder"])
self.view_finder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["view_finder"])
self.eps = float(self.config["eps"])
self.enable_global_scanned_feat = self.config["global_scanned_feat"]
def forward(self, data):
mode = data["mode"]
if mode == namespace.Mode.TRAIN:
return self.forward_train(data)
elif mode == namespace.Mode.TEST:
return self.forward_test(data)
else:
Log.error("Unknown mode: {}".format(mode), True)
def pertube_data(self, gt_delta_9d):
bs = gt_delta_9d.shape[0]
random_t = torch.rand(bs, device=gt_delta_9d.device) * (1. - self.eps) + self.eps
random_t = random_t.unsqueeze(-1)
mu, std = self.view_finder.marginal_prob(gt_delta_9d, random_t)
std = std.view(-1, 1)
z = torch.randn_like(gt_delta_9d)
perturbed_x = mu + z * std
target_score = - z * std / (std ** 2)
return perturbed_x, random_t, target_score, std
def forward_train(self, data):
main_feat = self.get_main_feat(data)
''' get std '''
best_to_world_pose_9d_batch = data["best_to_world_pose_9d"]
perturbed_x, random_t, target_score, std = self.pertube_data(best_to_world_pose_9d_batch)
input_data = {
"sampled_pose": perturbed_x,
"t": random_t,
"main_feat": main_feat,
}
estimated_score = self.view_finder(input_data)
output = {
"estimated_score": estimated_score,
"target_score": target_score,
"std": std
}
return output
def forward_test(self,data):
main_feat = self.get_main_feat(data)
estimated_delta_rot_9d, in_process_sample = self.view_finder.next_best_view(main_feat)
result = {
"pred_pose_9d": estimated_delta_rot_9d,
"in_process_sample": in_process_sample
}
return result
def get_main_feat(self, data):
scanned_pts_batch = data['scanned_pts']
scanned_n_to_world_pose_9d_batch = data['scanned_n_to_world_pose_9d']
device = next(self.parameters()).device
feat_seq_list = []
for scanned_pts,scanned_n_to_world_pose_9d in zip(scanned_pts_batch,scanned_n_to_world_pose_9d_batch):
scanned_pts = scanned_pts.to(device)
scanned_n_to_world_pose_9d = scanned_n_to_world_pose_9d.to(device)
pts_feat = self.pts_encoder.encode_points(scanned_pts)
pose_feat = self.pose_encoder.encode_pose(scanned_n_to_world_pose_9d)
seq_feat = torch.cat([pts_feat, pose_feat], dim=-1)
feat_seq_list.append(seq_feat)
main_feat = self.seq_encoder.encode_sequence(feat_seq_list)
if torch.isnan(main_feat).any():
Log.error("nan in main_feat", True)
return main_feat

10
core/global_pts_pipeline.py
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@ -6,7 +6,7 @@ from PytorchBoot.factory.component_factory import ComponentFactory
from PytorchBoot.utils import Log from PytorchBoot.utils import Log
@stereotype.pipeline("nbv_reconstruction_global_pts_pipeline") @stereotype.pipeline("nbv_reconstruction_pipeline_global")
class NBVReconstructionGlobalPointsPipeline(nn.Module): class NBVReconstructionGlobalPointsPipeline(nn.Module):
def __init__(self, config): def __init__(self, config):
super(NBVReconstructionGlobalPointsPipeline, self).__init__() super(NBVReconstructionGlobalPointsPipeline, self).__init__()
@ -14,7 +14,7 @@ class NBVReconstructionGlobalPointsPipeline(nn.Module):
self.module_config = config["modules"] self.module_config = config["modules"]
self.pts_encoder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["pts_encoder"]) self.pts_encoder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["pts_encoder"])
self.pose_encoder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["pose_encoder"]) self.pose_encoder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["pose_encoder"])
self.pose_seq_encoder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["pose_seq_encoder"]) self.seq_encoder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["seq_encoder"])
self.view_finder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["view_finder"]) self.view_finder = ComponentFactory.create(namespace.Stereotype.MODULE, self.module_config["view_finder"])
self.eps = float(self.config["eps"]) self.eps = float(self.config["eps"])
self.enable_global_scanned_feat = self.config["global_scanned_feat"] self.enable_global_scanned_feat = self.config["global_scanned_feat"]
@ -73,13 +73,13 @@ class NBVReconstructionGlobalPointsPipeline(nn.Module):
device = next(self.parameters()).device device = next(self.parameters()).device
pose_feat_seq_list = [] feat_seq_list = []
for scanned_n_to_world_pose_9d in scanned_n_to_world_pose_9d_batch: for scanned_n_to_world_pose_9d in scanned_n_to_world_pose_9d_batch:
scanned_n_to_world_pose_9d = scanned_n_to_world_pose_9d.to(device) scanned_n_to_world_pose_9d = scanned_n_to_world_pose_9d.to(device)
pose_feat_seq_list.append(self.pose_encoder.encode_pose(scanned_n_to_world_pose_9d)) feat_seq_list.append(self.pose_encoder.encode_pose(scanned_n_to_world_pose_9d))
main_feat = self.pose_seq_encoder.encode_sequence(pose_feat_seq_list) main_feat = self.seq_encoder.encode_sequence(feat_seq_list)
combined_scanned_pts_batch = data['combined_scanned_pts'] combined_scanned_pts_batch = data['combined_scanned_pts']

19
core/local_pts_pipeline.py
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@ -5,7 +5,7 @@ import PytorchBoot.stereotype as stereotype
from PytorchBoot.factory.component_factory import ComponentFactory from PytorchBoot.factory.component_factory import ComponentFactory
from PytorchBoot.utils import Log from PytorchBoot.utils import Log
@stereotype.pipeline("nbv_reconstruction_local_pts_pipeline") @stereotype.pipeline("nbv_reconstruction_pipeline_local")
class NBVReconstructionLocalPointsPipeline(nn.Module): class NBVReconstructionLocalPointsPipeline(nn.Module):
def __init__(self, config): def __init__(self, config):
super(NBVReconstructionLocalPointsPipeline, self).__init__() super(NBVReconstructionLocalPointsPipeline, self).__init__()
@ -70,23 +70,18 @@ class NBVReconstructionLocalPointsPipeline(nn.Module):
def get_main_feat(self, data): def get_main_feat(self, data):
scanned_pts_batch = data['scanned_pts'] scanned_pts_batch = data['scanned_pts']
scanned_n_to_world_pose_9d_batch = data['scanned_n_to_world_pose_9d'] scanned_n_to_world_pose_9d_batch = data['scanned_n_to_world_pose_9d']
device = next(self.parameters()).device device = next(self.parameters()).device
feat_seq_list = []
pts_feat_seq_list = []
pose_feat_seq_list = []
for scanned_pts,scanned_n_to_world_pose_9d in zip(scanned_pts_batch,scanned_n_to_world_pose_9d_batch): for scanned_pts,scanned_n_to_world_pose_9d in zip(scanned_pts_batch,scanned_n_to_world_pose_9d_batch):
scanned_pts = scanned_pts.to(device) scanned_pts = scanned_pts.to(device)
scanned_n_to_world_pose_9d = scanned_n_to_world_pose_9d.to(device) scanned_n_to_world_pose_9d = scanned_n_to_world_pose_9d.to(device)
pts_feat_seq_list.append(self.pts_encoder.encode_points(scanned_pts)) pts_feat = self.pts_encoder.encode_points(scanned_pts)
pose_feat_seq_list.append(self.pose_encoder.encode_pose(scanned_n_to_world_pose_9d)) pose_feat = self.pose_encoder.encode_pose(scanned_n_to_world_pose_9d)
seq_feat = torch.cat([pts_feat, pose_feat], dim=-1)
main_feat = self.seq_encoder.encode_sequence(pts_feat_seq_list, pose_feat_seq_list) feat_seq_list.append(seq_feat)
main_feat = self.seq_encoder.encode_sequence(feat_seq_list)
if self.enable_global_scanned_feat: if self.enable_global_scanned_feat:
combined_scanned_pts_batch = data['combined_scanned_pts'] combined_scanned_pts_batch = data['combined_scanned_pts']

36
core/nbv_dataset.py
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@ -135,7 +135,7 @@ class NBVReconstructionDataset(BaseDataset):
scanned_coverages_rate, scanned_coverages_rate,
scanned_n_to_world_pose, scanned_n_to_world_pose,
) = ([], [], []) ) = ([], [], [])
start_time = time.time() #start_time = time.time()
start_indices = [0] start_indices = [0]
total_points = 0 total_points = 0
for view in scanned_views: for view in scanned_views:
@ -163,7 +163,7 @@ class NBVReconstructionDataset(BaseDataset):
start_indices.append(total_points) start_indices.append(total_points)
end_time = time.time() #end_time = time.time()
#Log.info(f"load data time: {end_time - start_time}") #Log.info(f"load data time: {end_time - start_time}")
nbv_idx, nbv_coverage_rate = nbv[0], nbv[1] nbv_idx, nbv_coverage_rate = nbv[0], nbv[1]
nbv_path = DataLoadUtil.get_path(self.root_dir, scene_name, nbv_idx) nbv_path = DataLoadUtil.get_path(self.root_dir, scene_name, nbv_idx)
@ -182,22 +182,22 @@ class NBVReconstructionDataset(BaseDataset):
voxel_downsampled_combined_scanned_pts_np, inverse = self.voxel_downsample_with_mapping(combined_scanned_views_pts, 0.003) voxel_downsampled_combined_scanned_pts_np, inverse = self.voxel_downsample_with_mapping(combined_scanned_views_pts, 0.003)
random_downsampled_combined_scanned_pts_np, random_downsample_idx = PtsUtil.random_downsample_point_cloud(voxel_downsampled_combined_scanned_pts_np, self.pts_num, require_idx=True) random_downsampled_combined_scanned_pts_np, random_downsample_idx = PtsUtil.random_downsample_point_cloud(voxel_downsampled_combined_scanned_pts_np, self.pts_num, require_idx=True)
all_idx_unique = np.arange(len(voxel_downsampled_combined_scanned_pts_np)) # all_idx_unique = np.arange(len(voxel_downsampled_combined_scanned_pts_np))
all_random_downsample_idx = all_idx_unique[random_downsample_idx] # all_random_downsample_idx = all_idx_unique[random_downsample_idx]
scanned_pts_mask = [] # scanned_pts_mask = []
for idx, start_idx in enumerate(start_indices): # for idx, start_idx in enumerate(start_indices):
if idx == len(start_indices) - 1: # if idx == len(start_indices) - 1:
break # break
end_idx = start_indices[idx+1] # end_idx = start_indices[idx+1]
view_inverse = inverse[start_idx:end_idx] # view_inverse = inverse[start_idx:end_idx]
view_unique_downsampled_idx = np.unique(view_inverse) # view_unique_downsampled_idx = np.unique(view_inverse)
view_unique_downsampled_idx_set = set(view_unique_downsampled_idx) # view_unique_downsampled_idx_set = set(view_unique_downsampled_idx)
mask = np.array([idx in view_unique_downsampled_idx_set for idx in all_random_downsample_idx]) # mask = np.array([idx in view_unique_downsampled_idx_set for idx in all_random_downsample_idx])
scanned_pts_mask.append(mask) # #scanned_pts_mask.append(mask)
data_item = { data_item = {
"scanned_pts": np.asarray(scanned_views_pts, dtype=np.float32), # Ndarray(S x Nv x 3) "scanned_pts": np.asarray(scanned_views_pts, dtype=np.float32), # Ndarray(S x Nv x 3)
"combined_scanned_pts": np.asarray(random_downsampled_combined_scanned_pts_np, dtype=np.float32), # Ndarray(N x 3) "combined_scanned_pts": np.asarray(random_downsampled_combined_scanned_pts_np, dtype=np.float32), # Ndarray(N x 3)
"scanned_pts_mask": np.asarray(scanned_pts_mask, dtype=np.bool), # Ndarray(N) #"scanned_pts_mask": np.asarray(scanned_pts_mask, dtype=np.bool), # Ndarray(N)
"scanned_coverage_rate": scanned_coverages_rate, # List(S): Float, range(0, 1) "scanned_coverage_rate": scanned_coverages_rate, # List(S): Float, range(0, 1)
"scanned_n_to_world_pose_9d": np.asarray(scanned_n_to_world_pose, dtype=np.float32), # Ndarray(S x 9) "scanned_n_to_world_pose_9d": np.asarray(scanned_n_to_world_pose, dtype=np.float32), # Ndarray(S x 9)
"best_coverage_rate": nbv_coverage_rate, # Float, range(0, 1) "best_coverage_rate": nbv_coverage_rate, # Float, range(0, 1)
@ -223,9 +223,9 @@ class NBVReconstructionDataset(BaseDataset):
collate_data["scanned_n_to_world_pose_9d"] = [ collate_data["scanned_n_to_world_pose_9d"] = [
torch.tensor(item["scanned_n_to_world_pose_9d"]) for item in batch torch.tensor(item["scanned_n_to_world_pose_9d"]) for item in batch
] ]
collate_data["scanned_pts_mask"] = [ # collate_data["scanned_pts_mask"] = [
torch.tensor(item["scanned_pts_mask"]) for item in batch # torch.tensor(item["scanned_pts_mask"]) for item in batch
] # ]
''' ------ Fixed Length ------ ''' ''' ------ Fixed Length ------ '''
collate_data["best_to_world_pose_9d"] = torch.stack( collate_data["best_to_world_pose_9d"] = torch.stack(

4
runners/simulator.py
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@ -1,5 +1,5 @@
import pybullet as p # import pybullet as p
import pybullet_data # import pybullet_data
import numpy as np import numpy as np
import os import os
import time import time