Planning from Pixels in Environments with Combinatorially Hard Search Spaces -- NeurIPS 2021

Related tags

Deep LearningPPGS
Overview

PPGS: Planning from Pixels in Environments with Combinatorially Hard Search Spaces

PPGS Overview

Environment Setup

  • We recommend pipenv for creating and managing virtual environments (dependencies for other environment managers can be found in Pipfile)
git clone https://github.com/martius-lab/PPGS
cd ppgs
pipenv install
pipenv shell
  • For simplicity, this codebase is ready for training on two of the three environments (IceSlider and DigitJump). They are part of the puzzlegen package, which we provide here, and can be simply installed with
pip install -e https://github.com/martius-lab/puzzlegen
  • Offline datasets can be generated for training and validation. In the case of IceSlider we can use
python -m puzzlegen.extract_trajectories --record-dir /path/to/train_data --env-name ice_slider --start-level 0 --number-levels 1000 --max-steps 20 --n-repeat 20 --random 1
python -m puzzlegen.extract_trajectories --record-dir /path/to/test_data --env-name ice_slider --start-level 1000 --number-levels 1000 --max-steps 20 --n-repeat 5 --random 1

  • Finally, we can add the paths to the extracted datasets in default_params.json as data_params.train_path and data_params.test_path. We should also set the name of the environment for validation in data_params.env_name ("ice_slider" for IceSlider or "digit_jump" for DigitJump).

  • Training and evaluation are performed sequentially by running

python main.py

Configuration

All settings can be handled by editing default_config.json.

Param Default Info
optimizer_params.eps 1e-05 epsilon for Adam
train_params.seed null seed for training
train_params.epochs 40 # of training epochs
train_params.batch_size 128 batch size for training
train_params.save_every_n_epochs 5 how often to save models
train_params.val_every_n_epochs 2 how often to perform validation
train_params.lr_dict - dictionary of learning rates for each component
train_params.loss_weight_dict - dictionary of weights for the three loss functions
train_params.margin 0.1 latent margin epsilon
train_params.hinge_params - hyperparameters for margin loss
train_params.schedule [] learning rate schedule
model_params.name 'ppgs' name of the model to train in ['ppgs', 'latent']
model_params.load_model true whether to load saved model if present
model_params.filters [64, 128, 256, 512] encoder filters
model_params.embedding_size 16 dimensionality of latent space
model_params.normalize true whether to normalize embeddings
model_params.forward_layers 3 layers in MLP forward model for 'latent' world model
model_params.forward_units 256 units in MLP forward model for 'latent' world model
model_params.forward_ln true layer normalization in MLP forward model for 'latent' world model
model_params.inverse_layers 1 layers in MLP inverse model
model_params.inverse_units 32 units in MLP inverse model
model_params.inverse_ln true layer normalization in MLP inverse model
data_params.train_path '' path to training dataset
data_params.test_path '' path to validation dataset
data_params.env_name 'ice_slider' name of environment ('ice_slider' for IceSlider, 'digit_jump' for DigitJump
data_params.seq_len 2 number of steps for multi-step loss
data_params.shuffle true whether to shuffle datasets
data_params.normalize true whether to normalize observations
data_params.encode_position false enables positional encoding
data_params.env_params {} params to pass to environment
eval_params.evaluate_losses true whether to compute evaluation losses
eval_params.evaluate_rollouts true whether to compute solution rates
eval_params.eval_at [1,3,4] # of steps to evaluate at
eval_params.latent_eval_at [1,5,10] K for latent metrics
eval_params.seeds [2000] starting seed for evaluation levels
eval_params.num_levels 100 # evaluation levels
eval_params.batch_size 128 batch size for latent metrics evaluation
eval_params.planner_params.batch_size 256 cutoff for graph search
eval_params.planner_params.margin 0.1 latent margin for reidentification
eval_params.planner_params.early_stop true whether to stop when goal is found
eval_params.planner_params.backtrack false enables backtracking algorithm
eval_params.planner_params.penalize_visited false penalizes visited vertices in graph search
eval_params.planner_params.eps 0 enables epsilon greedy action selection
eval_params.planner_params.max_steps 256 maximal solution length
eval_params.planner_params.replan horizon 10 T_max for full planner
eval_params.planner_params.snap false snaps new vertices to visited ones
working_dir "results/ppgs" directory for checkpoints and results
Owner
Autonomous Learning Group
Autonomous Learning Group
GitHub Repository
Reinfore learning tool box, contains trpo, a3c algorithm for continous action space

RL_toolbox all the algorithm is running on pycharm IDE, or the package loss error may exist. implemented algorithm: trpo a3c a3c:for continous action

yupei.wu 44 Oct 10, 2022
Rule based classification A hotel s customers dataset

Rule-based-classification-A-hotel-s-customers-dataset- Aim: Categorize new customers by segment and predict how much revenue they can generate This re

Şebnem 4 Jan 02, 2022
DCGAN LSGAN WGAN-GP DRAGAN PyTorch

Recommendation Our GAN based work for facial attribute editing - AttGAN. News 8 April 2019: We re-implement these GANs by Tensorflow 2! The old versio

Zhenliang He 408 Nov 30, 2022
Pytorch Lightning Distributed Accelerators using Ray

Distributed PyTorch Lightning Training on Ray This library adds new PyTorch Lightning accelerators for distributed training using the Ray distributed

166 Dec 27, 2022
Physics-Informed Neural Networks (PINN) and Deep BSDE Solvers of Differential Equations for Scientific Machine Learning (SciML) accelerated simulation

NeuralPDE NeuralPDE.jl is a solver package which consists of neural network solvers for partial differential equations using scientific machine learni

SciML Open Source Scientific Machine Learning 680 Jan 02, 2023
Pi-NAS: Improving Neural Architecture Search by Reducing Supernet Training Consistency Shift (ICCV 2021)

Π-NAS This repository provides the evaluation code of our submitted paper: Pi-NAS: Improving Neural Architecture Search by Reducing Supernet Training

Jiqi Zhang 18 Aug 18, 2022
Syllabic Quantity Patterns as Rhythmic Features for Latin Authorship Attribution

Syllabic Quantity Patterns as Rhythmic Features for Latin Authorship Attribution Abstract Within the Latin (and ancient Greek) production, it is well

4 Dec 03, 2022
Unofficial Alias-Free GAN implementation. Based on rosinality's version with expanded training and inference options.

Alias-Free GAN An unofficial version of Alias-Free Generative Adversarial Networks (https://arxiv.org/abs/2106.12423). This repository was heavily bas

dusk (they/them) 75 Dec 12, 2022
Jingju baseline - A baseline model of our project of Beijing opera script generation

Jingju Baseline It is a baseline of our project about Beijing opera script gener

midon 1 Jan 14, 2022
JAX bindings to the Flatiron Institute Non-uniform Fast Fourier Transform (FINUFFT) library

JAX bindings to FINUFFT This package provides a JAX interface to (a subset of) the Flatiron Institute Non-uniform Fast Fourier Transform (FINUFFT) lib

Dan Foreman-Mackey 32 Oct 15, 2022
This is an official implementation for "Self-Supervised Learning with Swin Transformers".

Self-Supervised Learning with Vision Transformers By Zhenda Xie*, Yutong Lin*, Zhuliang Yao, Zheng Zhang, Qi Dai, Yue Cao and Han Hu This repo is the

Swin Transformer 529 Jan 02, 2023
Equivariant GNN for the prediction of atomic multipoles up to quadrupoles.

Equivariant Graph Neural Network for Atomic Multipoles Description Repository for the Model used in the publication 'Learning Atomic Multipoles: Predi

16 Nov 22, 2022
'Aligned mixture of latent dynamical systems' (amLDS) for stimulus decoding probabilistic manifold alignment across animals. P. Herrero-Vidal et al. NeurIPS 2021 code.

Across-animal odor decoding by probabilistic manifold alignment (NeurIPS 2021) This repository is the official implementation of aligned mixture of la

Pedro Herrero-Vidal 3 Jul 12, 2022
House_prices_kaggle - Predict sales prices and practice feature engineering, RFs, and gradient boosting

House Prices - Advanced Regression Techniques Predicting House Prices with Machine Learning This project is build to enhance my knowledge about machin

Gurpreet Singh 1 Jan 01, 2022
A certifiable defense against adversarial examples by training neural networks to be provably robust

DiffAI v3 DiffAI is a system for training neural networks to be provably robust and for proving that they are robust. The system was developed for the

SRI Lab, ETH Zurich 202 Dec 13, 2022
This is an example of object detection on Micro bacterium tuberculosis using Mask-RCNN

Mask-RCNN on Mycobacterium tuberculosis This is an example of object detection on Mycobacterium Tuberculosis using Mask RCNN. Implement of Mask R-CNN

Jun-En Ding 1 Sep 16, 2021
Style transfer between images was performed using the VGG19 model

Style transfer between images was performed using the VGG19 model. The necessary codes, libraries and all other information of this project are available below

Onur yılmaz 2 May 09, 2022
The official GitHub repository for the Argoverse 2 dataset.

Argoverse 2 API Official GitHub repository for the Argoverse 2 family of datasets. If you have any questions or run into any problems with either the

Argo AI 156 Dec 23, 2022
Ensembling Off-the-shelf Models for GAN Training

Vision-aided GAN video (3m) | website | paper Can the collective knowledge from a large bank of pretrained vision models be leveraged to improve GAN t

345 Dec 28, 2022
PyTorch implementations of the paper: "DR.VIC: Decomposition and Reasoning for Video Individual Counting, CVPR, 2022"

DRNet for Video Indvidual Counting (CVPR 2022) Introduction This is the official PyTorch implementation of paper: DR.VIC: Decomposition and Reasoning

tao han 35 Nov 22, 2022