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[RSS2023] Metric-Free Exploration for Topological Mapping by Task and Motion Imitation in Feature Space

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Yuhang He*, Irving Fang*, Yiming Li, Rushi Bhavesh Shah, Chen Feng

Abstract

We propose DeepExplorer, a simple and lightweight metric-free exploration method for topological mapping of unknown environments. It performs task and motion planning (TAMP) entirely in image feature space. The task planner is a recurrent network using the latest image observation sequence to hallucinate a feature as the next-best exploration goal. The motion planner then utilizes the current and the hallucinated features to generate an action taking the agent towards that goal. Our novel feature hallucination enables imitation learning with deep supervision to jointly train the two planners more efficiently than baseline methods. During exploration, we iteratively call the two planners to predict the next action, and the topological map is built by constantly appending the latest image observation and action to the map and using visual place recognition (VPR) for loop closing. The resulting topological map efficiently represents an environment's connectivity and traversability, so it can be used for tasks such as visual navigation. We show DeepExplorer's exploration efficiency and strong sim2sim generalization capability on large-scale simulation datasets like Gibson and MP3D. Its effectiveness is further validated via the image-goal navigation performance on the resulting topological map. We further show its strong zero-shot sim2real generalization capability in real-world experiments.

Project Website

Please visit this website for more information like video presentation and visualization.

Environment Setup

Please refer to the requirements.txt for the environment we run our experiment in.

Note that we run all our experiments in habitat-sim and habitat-lab on version 0.1.6. The hash for habitat-sim=0.1.6 is 781f787. The hash for habitat-lab=0.1.6 is ac937fd. Theoretically, the version between habitat-sim and habitat-lab should match, but we never experimented with this.

You could potentially run our code in a higher version of habitat since the software should be fairly backward compatible, but we noticed that some configuration files need to be manually changed to implement the 360 panorama camera we used, so we decided to stick with an old version of habitat

Because of the old habitat version, our Python version is stuck with `3.6``.

I wrote this tutorial on installing habitat for our lab's junior members. It focuses on installing it in an HPC environment, but it may still be helpful for you.

TL;DR

train contains all the code for training exploration contains all the code for exploration inference navigation contains all the code for navigation inference

Data Preparation

To generate the expert demonstration data we used for training, please refer to the experdemon_datacollect folder

Exploration Training

The DeepExplorer model is defined in models/motion_task_joint_planner.py. The script to train it can be found in train/train_explorer.py.

The dataset that we wrote to handle the expert demo data can be found in train/DataProvider_explorer.py.

The pre-trained model can be found in pretrained_model folder.

Exploration Inference

In the exploration folder, you can find the scripts to run the exploration on Gibson and MP3D with explore_[dataset].py. To calculate the coverage ratio, the script coverage_ratio_area_[dataset].py` can be used.

We adopted two different scripts for the two datasets to accommodate some differences, such as floor numbers.

Navigation

Action Assigner

In train/train_actassigner.py, you can train the ActionAssigner that we used in the map completion stage when we enhance our topological map with visual similarity.

The dataset for this can be found in /train/DataProvider_actassigner.py, and the model is defined in models/action_assigner.py

The pre-trained model can be found in pretrained_model folder.

Navigation Pipeline

For the navigation pipeline, including running VPR to enhance the topological map and actually perform navigation, please refer to the navigation folder

Pretrained Models

All the pretrained models can be found in pretrained_model folder

Citations

If you found our work helpful, please use the following information to cite our work

@INPROCEEDINGS{He-RSS-23, 
  AUTHOR    = {Yuhang He AND Irving Fang AND Yiming Li AND Rushi Bhavesh Shah 
  AND Chen Feng}, 
  TITLE     = {{Metric-Free Exploration for Topological Mapping by Task and 
  Motion Imitation in Feature Space}}, 
  BOOKTITLE = {Proceedings of Robotics: Science and Systems}, 
  YEAR      = {2023}, 
  ADDRESS   = {Daegu, Republic of Korea}, 
  MONTH     = {July}, 
  DOI       = {10.15607/RSS.2023.XIX.099} 
} 

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