# Lack of Robustness of LIDAR-Based Deep Learning Systems to Small Adversarial Perturbations

N. Patel, K. Liu, P. Krishnamurthy, S. Garg, F. Khorrami

Published in ISR 2018 - June 2018

### Abstract

In this paper, we investigate the robustness of LIDAR-based autonomous navigation for unmanned vehicles using Deep Neural Networks (DNN) to adversarial perturbations. A well-trained network robust to sensor noise can yield an undesirable network response (e.g., steering the vehicle in a wrong direction) by maliciously crafted perturbations in sensor data. We show through experimental evaluations on our unmanned ground vehicle (UGV) that small perturbations in some of the LIDAR sensor data (even perturbations smaller than the sensor accuracy) can lead the DNN to generate incorrect outputs. This is somewhat unexpected from a sensor such as LIDAR, which provides very well-defined structural/geometrical information about the environment.

### Bibtex

@inproceedings{PatelKKGK18,
author    = {Naman Patel and
Kang Liu and
Prashanth Krishnamurthy and
Siddharth Garg and