Machine learning used to calibrate emissions control systems faster, more efficiently

November 12, 2025

The GIST Machine learning used to calibrate emissions control systems faster, more efficiently

Gaby Clark

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Andrew Zinin

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Southwest Research Institute (SwRI) has developed a method to automate the calibration of heavy-duty diesel truck emissions control systems using machine learning and algorithm-based optimization. The latest diesel aftertreatment systems often take weeks to calibrate. SwRI's new method can calibrate them in as little as two hours.

"Manually calibrating selective catalytic reduction (SCR) systems is labor-intensive, often taking six or more weeks of testing and work," said Venkata Chundru, senior research engineer in SwRI's Advanced Algorithms Section. "By combining advanced modeling with automated optimization, we can accelerate calibration and improve system performance while ensuring compliance with the upcoming standards."

New U.S. Environmental Protection Agency and California Air Resources Board (CARB) standards are scheduled to go into effect in 2027, governing the amount of nitrogen oxides (NOx) a vehicle can emit in proportion to energy used. SwRI has completed several projects that improve existing automotive technologies, bringing them to well within the new standards or exceeding them.

As a continuation of this work, SwRI's Powertrain Engineering Division has developed a method to automate calibration of SCR systems for diesel engines. Most SCR systems control engines emissions using an ammonia-based solution, such as the urea-based diesel exhaust fluid injected into the exhaust stream. The dosed exhaust interacts with a catalyst, creating a chemical reaction that converts NOx into harmless water and nitrogen.

The project team created a physics-informed neural network machine learning model that learns from both data and the laws of physics, providing faster and more accurate results. By running simulations of an active SCR system, the team could fine-tune its urea dosing control to lower overall NOx and ammonia emissions and rapidly identify optimal settings for the engines. The model could then learn to identify these settings and map the calibration processes, allowing for full automation.

"Compared to manual calibration, the method we developed consistently delivered faster calibration timelines and improved NOx conversion efficiency, among other benefits,"Chundru said. "It provides us with a scalable, cost-effective pathway for future heavy-duty applications."

Provided by Southwest Research Institute Citation: Machine learning used to calibrate emissions control systems faster, more efficiently (2025, November 12) retrieved 12 November 2025 from https://techxplore.com/news/2025-11-machine-calibrate-emissions-faster-efficiently.html This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.

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