Faculty Publications

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Publications by NITK Faculty

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Author: search.filters.author.Devikiran, P.Subject: search.filters.subject.Active suspension systems

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    Experimental and Analytical Evaluation of an Acceleration-Based Semiactive Control Strategy for Automotive Suspension Systems with Magneto-Rheological Damper
    (SAE International, 2023) Jamadar, M.E.H.; Devikiran, P.; Kumar, H.; Joladarshi, S.
    Most of the control strategies presented to date are based on either the velocities or displacement of the vehicle body and the wheel which are derived by filtering and converting the data from the accelerometer. This increases the computational load and therefore directly affects the performance of the semiactive suspension system. This study presents a control strategy purely based on the acceleration for semiactive control of vehicle suspension with a magneto-rheological MR damper. The effectiveness of the acceleration-based skyhook (ASH) control strategy is compared with the existing velocity-based skyhook (VSH) control strategy based on the vibration response of a single-degree-of-freedom (SDOF) system. The effectiveness of ASH is evaluated experimentally, and the reaction time is evaluated analytically. The experimental results revealed that the ASH reduces the peak displacement and peak acceleration of the mass under the free vibration test and also improves the settling time as compared to VSH. The amplitude of the displacement and acceleration was also found to be reduced under the forced vibration test with maximum improvement observed during high-frequency excitation. The reaction time of ASH was also found to be considerably lower than VSH. Therefore, it was learned that the proposed ASH performed better under high-frequency excitation than under lower-frequency excitation. Moreover, the lower reaction time of the ASH could improve the overall performance of the semiactive suspension system. © 2023 SAE International.
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    Performance evaluation of magneto-rheological damper with spring accumulator and on-road testing by implementing in a four wheeler vehicle
    (Springer, 2025) Puneet, N.P.; Devikiran, P.; Kumar, H.; Gangadharan, K.V.
    Passenger vehicles running over roads are undergoing speedy updates every now and then in terms of design, luxury and passenger expectations. Above all, a passenger expects greater comfort in a vehicle throughout the journey. In many possible ways, semi-active suspension systems are proving themselves as optimum choice between passive and active systems. The present study emphasizes the performance analysis of a class of semi-active systems called magneto-rheological (MR) dampers. An MR damper suitable for a specific four wheeler vehicle with McPherson suspension system is designed and developed with a spring accumulator. The MR damper thus developed has undergone characterization testing subjected to variable input excitation conditions. The MR fluid for this damper is prepared in the laboratory. Sky-hook and ground-hook controllers are used as the current controlling devices. The developed MR damper is then used in the suspension system of the front half of the four wheeler vehicle for on-road testing. The developed damper showed about 20% improvement in the ride comfort level when used with the control strategies. © Indian Academy of Sciences 2025.