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Main Authors: Kimbrell, Keegan, Tianhao, Wang, Chen, Feng, Gupta, Gopal
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.04271
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author Kimbrell, Keegan
Tianhao, Wang
Chen, Feng
Gupta, Gopal
author_facet Kimbrell, Keegan
Tianhao, Wang
Chen, Feng
Gupta, Gopal
contents Autonomous Vehicle (AV) technology has been heavily researched and sought after, yet there are no SAE Level 5 AVs available today in the marketplace. We contend that over-reliance on machine learning technology is the main reason. Use of automated commonsense reasoning technology, we believe, can help achieve SAE Level 5 autonomy. In this paper, we show how automated common-sense reasoning technology can be deployed in situations where there are not enough data samples available to train a deep learning-based AV model that can handle certain abnormal road scenarios. Specifically, we consider two situations where (i) a traffic signal is malfunctioning at an intersection and (ii) all the cars ahead are slowing down and steering away due to an unexpected obstruction (e.g., animals on the road). We show that in such situations, our commonsense reasoning-based solution accurately detects traffic light colors and obstacles not correctly captured by the AV's perception model. We also provide a pathway for efficiently invoking commonsense reasoning by measuring uncertainty in the computer vision model and using commonsense reasoning to handle uncertain scenarios. We describe our experiments conducted using the CARLA simulator and the results obtained. The main contribution of our research is to show that automated commonsense reasoning effectively corrects AV-based object detection misclassifications and that hybrid models provide an effective pathway to improving AV perception.
format Preprint
id arxiv_https___arxiv_org_abs_2601_04271
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Correcting Autonomous Driving Object Detection Misclassifications with Automated Commonsense Reasoning
Kimbrell, Keegan
Tianhao, Wang
Chen, Feng
Gupta, Gopal
Artificial Intelligence
Robotics
Autonomous Vehicle (AV) technology has been heavily researched and sought after, yet there are no SAE Level 5 AVs available today in the marketplace. We contend that over-reliance on machine learning technology is the main reason. Use of automated commonsense reasoning technology, we believe, can help achieve SAE Level 5 autonomy. In this paper, we show how automated common-sense reasoning technology can be deployed in situations where there are not enough data samples available to train a deep learning-based AV model that can handle certain abnormal road scenarios. Specifically, we consider two situations where (i) a traffic signal is malfunctioning at an intersection and (ii) all the cars ahead are slowing down and steering away due to an unexpected obstruction (e.g., animals on the road). We show that in such situations, our commonsense reasoning-based solution accurately detects traffic light colors and obstacles not correctly captured by the AV's perception model. We also provide a pathway for efficiently invoking commonsense reasoning by measuring uncertainty in the computer vision model and using commonsense reasoning to handle uncertain scenarios. We describe our experiments conducted using the CARLA simulator and the results obtained. The main contribution of our research is to show that automated commonsense reasoning effectively corrects AV-based object detection misclassifications and that hybrid models provide an effective pathway to improving AV perception.
title Correcting Autonomous Driving Object Detection Misclassifications with Automated Commonsense Reasoning
topic Artificial Intelligence
Robotics
url https://arxiv.org/abs/2601.04271