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Official implementation of PACER, Pedestrian Animation ControllER, of CVPR 2023 paper: "Trace and Pace: Controllable Pedestrian Animation via Guided Trajectory Diffusion".

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PACER: Pedestrian Animation Controller

Official implementation of PACER, Pedestrian Animation ControllER, of CVPR 2023 paper: "Trace and Pace: Controllable Pedestrian Animation via Guided Trajectory Diffusion".

Note: this repo only contains the PACER component of this paper (i.e., the pedestrian animation controler). For TRACE (the trajectory diffusion model), please see this other repository.

[paper] [website] [Video]

News 🚩

[Nov 6, 2023] Code released.

Introduction

This repo implements PACER, Pedestrian Animation ControllER. PACER is a framework for controlling simulated humanoids of different body shapes to navigate diverse type of terrains while avoiding obstacles and other humanoids. PACER is built upon the AMP code base and trained with selected locomotion sequences from the AMASS dataset.

Dependencies

To create the environment, follow the following instructions:

  1. Create new conda environment and install pytroch:
conda create -n isaac python=3.8
conda install pytorch torchvision torchaudio pytorch-cuda=11.6 -c pytorch -c nvidia
pip install -r requirements.txt
  1. Download and setup Isaac Gym.

  2. Download SMPL paramters from SMPL. Put them in the data/smpl folder, unzip them into 'data/smpl' folder. Please download the v1.1.0 version, which contains the neutral humanoid. Rename the files basicmodel_neutral_lbs_10_207_0_v1.1.0, basicmodel_m_lbs_10_207_0_v1.1.0.pkl, basicmodel_f_lbs_10_207_0_v1.1.0.pkl to SMPL_NEUTRAL.pkl, SMPL_MALE.pkl and SMPL_FEMALE.pkl. Rename The file structure should look like this:


|-- data
    |-- smpl
        |-- SMPL_FEMALE.pkl
        |-- SMPL_NEUTRAL.pkl
        |-- SMPL_MALE.pkl

Data processing for evaluating/training PACER

Evaluation

Use the following script to download trained models and sample data.

bash download_data.sh

Training

We train on a subset of the AMASS dataset.

For prcessing the AMASS, first, download the AMASS dataset from AMASS. Then, run the following script on the unzipped data:

python uhc/data_process/process_amass_raw.py

which dumps the data into the amass_db_smplh.pt file. Then, run

python uhc/data_process/process_amass_db.py

We further process these data into Motionlib format by running the following script:

python uhc/data_process/convert_amass_isaac.py

Using your own mesh

Refer to scripts/render_mesh.py and scripts/render_mesh_ply.py in creating compatible mesh files and height maps.

Refer to create_mesh_ground function in pacer/env/tasks/humanoid_pedestrain_terrain.py for how to load your own mesh.

Then, add --real_mesh flag to the command line to use your own mesh.

Evaluation

## Model with terrain + trajectory following 
python pacer/run.py --task HumanoidPedestrianTerrain --cfg_env pacer/data/cfg/pacer_no_shape.yaml --cfg_train pacer/data/cfg/train/rlg/amp_humanoid_smpl_sept_task.yaml --motion_file sample_data/amass_isaac_standing_upright_slim.pkl --network_path output/release/pacer_no_shape --test --num_envs 1 --epoch -1 --small_terrain --no_virtual_display

## Model with terrain + trajectory following + shape 
python pacer/run.py --task HumanoidPedestrianTerrain --cfg_env pacer/data/cfg/pacer.yaml --cfg_train pacer/data/cfg/train/rlg/amp_humanoid_smpl_sept_task.yaml --motion_file sample_data/amass_isaac_standing_upright_slim.pkl --network_path output/release/pacer --test --num_envs 1 --epoch -1 --small_terrain --no_virtual_display

## Model with terrain + trajectory following + shape + group
python pacer/run.py --task HumanoidPedestrianTerrain --cfg_env pacer/data/cfg/pacer_group_cnn.yaml --cfg_train pacer/data/cfg/train/rlg/amp_humanoid_smpl_cnn_task.yaml --motion_file sample_data/amass_isaac_standing_upright_slim.pkl --network_path output/release/pacer_group_cnn  --test --num_envs 1 --epoch -1 --small_terrain --no_virtual_display

## Model with terrain + trajectory following + shape + getup
python pacer/run.py --task HumanoidPedestrianTerrain --cfg_env pacer/data/cfg/pacer_getup.yaml --cfg_train pacer/data/cfg/train/rlg/amp_humanoid_smpl_sept_task.yaml --motion_file sample_data/amass_isaac_standing_upright_slim.pkl --network_path output/release/pacer_getup  --test --num_envs 1 --epoch -1 --small_terrain  --no_virtual_display

Training

python pacer/run.py --task HumanoidPedestrianTerrain --cfg_env pacer/data/cfg/pacer_no_shape.yaml --cfg_train pacer/data/cfg/train/rlg/amp_humanoid_smpl_sept_task.yaml --motion_file data/amass/pkls/amass_isaac_run_upright_slim.pkl --network_path output/exp/pacer_no_shape --headless 

python pacer/run.py --task HumanoidPedestrianTerrain --cfg_env pacer/data/cfg/pacer.yaml --cfg_train pacer/data/cfg/train/rlg/amp_humanoid_smpl_sept_task.yaml --motion_file data/amass/pkls/amass_isaac_run_upright_slim.pkl --network_path output/exp/pacer --headless 

python pacer/run.py --task HumanoidPedestrianTerrain --cfg_env pacer/data/cfg/pacer_group_cnn.yaml --cfg_train pacer/data/cfg/train/rlg/amp_humanoid_smpl_cnn_task.yaml --motion_file data/amass/pkls/amass_isaac_run_upright_slim.pkl --network_path output/exp/pacer_group_cnn --headless 

python pacer/run.py --task HumanoidPedestrianTerrainGetup --cfg_env pacer/data/cfg/pacer_getup.yaml --cfg_train pacer/data/cfg/train/rlg/amp_humanoid_smpl_sept_task.yaml --motion_file data/amass/pkls/amass_isaac_run_crawl_upright_slim.pkl --network_path output/exp/pacer_getup --headless 

Viewer Shortcuts

Keyboard Function
F focus on humanoid
Right click + WASD change view port
Shift + Right click + WASD change view port fast
B create stright path
G go to fixed point on flat ground
L record screenshot, press again to stop recording
; cancel screen shot
J apply large force to humanoid
M cancel reset

... more short cut can be found in pacer/env/tasks/base_task.py

Notes on rendering: I am using pyvirtualdisplay to record the video such that you can see all humanoids at the same time (default function will only capture the first environment). You can disable it in pacer/env/tasks/base_task.py.

Citation

If you find this work useful for your research, please cite our paper:

@inproceedings{rempeluo2023tracepace,
    author={Rempe, Davis and Luo, Zhengyi and Peng, Xue Bin and Yuan, Ye and Kitani, Kris and Kreis, Karsten and Fidler, Sanja and Litany, Or},
    title={Trace and Pace: Controllable Pedestrian Animation via Guided Trajectory Diffusion},
    booktitle={Conference on Computer Vision and Pattern Recognition (CVPR)},
    year={2023}
}            

References

This repository is built on top of the following amazing repositories:

  • Main code framework is from: AMP
  • Part of the SMPL_robot code is from: UHC
  • SMPL models and layer is from: SMPL-X model
  • Some scripts are from PHC. PHC also has a more detailed README on SMPL_Robot.

Please follow the license of the above repositories for usage of that part of the codebase (the licenses are included in this repo).

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Official implementation of PACER, Pedestrian Animation ControllER, of CVPR 2023 paper: "Trace and Pace: Controllable Pedestrian Animation via Guided Trajectory Diffusion".

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