Clarification

This commit is contained in:
bkerbl 2023-07-12 12:10:03 +02:00
parent 35b89fca85
commit 7e126c02c6
3 changed files with 6 additions and 4 deletions

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@ -301,12 +301,12 @@ cmake --build build --target install
```
#### Ubuntu 20.04
Backwards compatibility with Focal Fossa is not fully tested, but building SIBR should still work by first invoking
Backwards compatibility with Focal Fossa is not fully tested, but building SIBR should still invoking
```shell
git checkout fossa_compatibility
git submodule update --init
```
and then continuing with the steps for Ubuntu 22.04.
in ```SIBR_viewers``` and then continuing with the steps for Ubuntu 22.04.
### Navigation in SIBR Viewers
The SIBR interface provides several methods of navigating the scene. By default, you will be started with an FPS navigator, which you can control with ```W, A, S, D, Q, E``` for camera translation and ```I, K, J, L, U, O``` for rotation. Alternatively, you may want to use a Trackball-style navigator (select from the floating menu). You can also snap to a camera from the data set with the ```Snap to``` button or find the closest camera with ```Snap to closest```. The floating menues also allow you to change the navigation speed. You can use the ```Scaling Modifier``` to control the size of the displayed Gaussians, or show the initial point cloud.

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@ -12,7 +12,7 @@
import os
from argparse import ArgumentParser
mipnerf360_outdoor_scenes = ["bicycle", "flowers", "garden", "stump", "treehill"]
mipnerf360_outdoor_scenes = ["flowers", "garden", "stump", "treehill"]
mipnerf360_indoor_scenes = ["room", "counter", "kitchen", "bonsai"]
tanks_and_temples_scenes = ["truck", "train"]
deep_blending_scenes = ["drjohnson", "playroom"]
@ -37,7 +37,7 @@ if not args.skip_training or not args.skip_rendering:
args = parser.parse_args()
if not args.skip_training:
common_args = " --quiet --eval --test_iterations -1"
common_args = " --eval --save_iterations -1"
for scene in mipnerf360_outdoor_scenes:
source = args.mipnerf360 + "/" + scene
os.system("python train.py -s " + source + " -i images_4 -m " + args.output_path + "/" + scene + common_args)

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@ -84,7 +84,9 @@ class GaussianModel:
self.active_sh_degree += 1
def create_from_pcd(self, pcd : BasicPointCloud, spatial_lr_scale : float):
spatial_lr_scale = 5
self.spatial_lr_scale = spatial_lr_scale
#print(spatial_lr_scale)
fused_point_cloud = torch.tensor(np.asarray(pcd.points)).float().cuda()
fused_color = RGB2SH(torch.tensor(np.asarray(pcd.colors)).float().cuda())
features = torch.zeros((fused_color.shape[0], 3, (self.max_sh_degree + 1) ** 2)).float().cuda()