An Improved, Autonomous, Multimodal Estimation Algorithm to Estimate Intent of Other Agents on the Road to Identify Most Important Object for Advanced Driver Assistance Systems Applications Using Model-Based Design Methodology

Authors Abstract
Content
Advanced Driver Assistance Systems (ADAS) are playing a significant role in enhancing driver safety and occupant comfort in modern vehicles. The primary research focus in this domain includes the precise perception of the current state and the prediction of the future states of dynamic agents. To perform these tasks an intelligent agent capable of operating in the stochastic environment is implemented in the form of various ADAS features. A trajectory prediction problem can be defined using either a model-based or data-driven approach. The current article addresses the problem of trajectory prediction in the stochastic environment using a model-based approach with a quintic polynomial as a function approximator to ensure smooth acceleration trajectory for the left and right lane-change maneuvers. The task of trajectory prediction also considers the information about the vehicle dynamics, the concept of Receding Time Horizon (RTH), and the variable curvature model of the road. Further, the task of assessing the intent of other agents is framed as a Markov decision process problem due to uncertainty in the agent’s action. The information about the predicted trajectory and current state of an agent is processed in the state transition probability estimation module to infer information about the stochastic policy of other agents in the environment using a Naïve Bayes classifier algorithm. The decision made by other agents has been propagated further to the Collision Detection Module to find the Most Important Object (MIO) for various ADAS features. In this way, the current article outlines a robust method to predict the intent of non-ego vehicles and identify the MIO on the road for the ego vehicle to implement various ADAS applications. The capability of the proposed algorithm to handle both uncertainties in the environment and in decision-making by other agents has been validated with several simulated driving scenarios.
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DOI
https://doi.org/10.4271/12-06-01-0005
Pages
32
Citation
Waghchoure, M., Patel, K., Rachamadugu, V., Iqbal, M. et al., "An Improved, Autonomous, Multimodal Estimation Algorithm to Estimate Intent of Other Agents on the Road to Identify Most Important Object for Advanced Driver Assistance Systems Applications Using Model-Based Design Methodology," Connected and Automated Vehicles 6(1):51-82, 2023, https://doi.org/10.4271/12-06-01-0005.
Additional Details
Publisher
Published
Apr 21, 2022
Product Code
12-06-01-0005
Content Type
Journal Article
Language
English