Suraj Prakash scite author profile

This paper presents a novel framework to enable automatic re-training of the supervisory powertrain control strategy for hybrid electric vehicles using supervised machine learning. The aim of re-training is to customize the control strategy to a user-specific driving behavior without human intervention. The framework is designed to update the control strategy at the end of a driving task. A combination of dynamic programming and supervised machine learning is used to train the control strategy. The trained control strategy denoted as SML is compared to an online-implementable strategy based on the combination of the optimal operation line and Pontryagin’s minimum principle denoted as OOL-PMP, on the basis of fuel consumption. SML consistently performed better than OOL-PMP, evaluated over five standard drive cycles. The EUDC performance was almost identical while on FTP75 the OOL-PMP consumed 14.7% more fuel than SML. Moreover, the deviation from the global benchmark obtained from dynamic programming was between 1.8% and 5.4% for SML and between 5.8% and 16.8% for OOL-PMP. Furthermore, a test-case was conducted to emulate a real-world driving scenario wherein a trained controller is exposed to a new drive cycle. It is found that the performance on the new drive cycle deviates significantly from the optimal policy; however, this performance gap is bridged with a single re-training episode for the respective test-case.

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Event-Driven Control With Deadline Optimization for Linear Systems With Stochastic Delays

Horssen

Prakash

Antunes

et al. 2018

IEEE Trans. Control Netw. Syst.

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A 44-fJ/Conversion Step 200-MS/s Pipeline ADC Employing Current-Mode MDACs

Briseno-Vidrios

Zhou

Prakash

et al. 2018

IEEE J. Solid-State Circuits

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Suraj Prakash

Self-triggered and event-driven control for linear systems with stochastic delays

Operational Transconductance Amplifier With Class-B Slew-Rate Boosting for Fast High-Performance Switched-Capacitor Circuits

Powertrain Control for Hybrid-Electric Vehicles Using Supervised Machine Learning

Event-Driven Control With Deadline Optimization for Linear Systems With Stochastic Delays

A 44-fJ/Conversion Step 200-MS/s Pipeline ADC Employing Current-Mode MDACs

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