A compact magneto-rheological tactile feedback device with axial comb-shaped channel for steer-by-wire systems

Abstract

Steer-by-Wire (SbW) systems eliminate the mechanical linkage between the handwheel and roadwheels, necessitating artificial tactile feedback to restore steering feel. This paper focuses on the design, optimization, and experimental validation of a compact magneto-rheological torque feedback device (MRTFD) intended for SbW applications. To accommodate the elongated axial geometry and severely limited radial envelope of SbW steering columns, an axially oriented comb-shaped MRF channel configuration is developed. This architecture enhances magnetic field utilization and load-carrying capability while maintaining a low off-state torque, enabling a wide controllable dynamic range within stringent geometric constraints. A constrained multi-objective optimization framework is employed to balance dynamic torque range and energy consumption under a prescribed maximum activated feedback torque constraint. The optimized design is subsequently fabricated and experimentally characterized, showing close agreement between measured and simulated torque responses. Furthermore, the prototype is integrated into an SbW steering test rig and evaluated under a feedback control scheme that combines a PID controller with inverse-model feedforward compensation. Experimental results demonstrate accurate torque tracking over various steering rates, thereby highlighting the feasibility and effectiveness of the proposed MRTFD for future SbW steering feedback applications.

Keywords

brake comb-shaped feedback haptic magneto-rheological steer-by-wire tactile

Get full access to this article

View all access options for this article.

References

Ahmadkhanlou

Washington

Bechtel

, et al. (2006) Magnetorheological fluid based automotive steer-by-wire systems. Proceedings of SPIE 6171: 61710I.

Balachandran

(2015) Applications of force feedback steering for steer-by-wire vehicles with active steering. PhD Thesis, Stanford University, CA

Chugh

Bruzelius

Klomp

, et al. (2018) Design of haptic feedback control for steer-by-wire. In: Proceedings of the 21st international conference on intelligent transportation systems (ITSC 2018), Piscataway, pp. 1737–1744. NJ: IEEE.

Chugh

Bruzelius

Klomp

, et al. (2020) An approach to develop haptic feedback control reference for steering systems using open-loop driving maneuvers. Vehicle System Dynamics 58(12): 1953–1976.

Diep

Nguyen

Kim

, et al. (2021) Performance evaluation of a 3D haptic joystick featuring two bidirectional MR actuators and a linear MRB. Smart Materials and Structures 30(1): 017003.

Dorf

Bishop

(2011) Modern Control Systems. Pearson Education, Inc.

EPS Division (2021) Rotary Seal Design Guide. Parker Hannifin Corporation.

Fahami

SMH

Zamzuri

Mazlan

(2015) Development of estimation force feedback torque control algorithm for driver steering feel in vehicle steer by wire system: Hardware in the loop. International Journal of Vehicular Technology 2015: 1–17.

Finne

Ström

(2022) Road Feedback in a Steer-by-Wire System for a Passenger Car. Master Thesis, Linköping University.

10.

Heo

Kim

(2024) Enhanced tiny haptic dial with T-shaped shaft based on magnetorheological fluid. IEEE Robotics and Automation Letters 9(12): 10835–10841.

11.

Hoang

Nguyen

Bui

(2024) Optimal design of a magneto-rheological tactile feedback device for automotive applications. In: Proceedings of the international conference on sustainable energy technologies, ICSET 2023, green energy and technology, pp. 379–387. Singapore: Springer.

12.

(2021) Torque characteristics analysis of a magnetorheological brake with double brake disc. Actuators 10(2): 23.

13.

Zhang

Ying

, et al. (2025) Optimization design and braking performance analysis of cylindrical magnetorheological brake with inner and outer fluid flow channels. Physica Scripta 100(4): 045536.

14.

Kadam

Kariganaur

Kumar

(2024) Torque generation in lightweight four rotor magnetorheological brake. Sādhanā 49(4): 261.

15.

Kikuchi

Ikeda

Matsushita

, et al. (2024) Development of second prototype of twin-driven magnetorheological fluid actuator for haptic device. Micromachines 15(10): 1184.

16.

Lhommeau

Lamy

Plante

(2023) Design and characterization of a miniaturized low inertia and low viscous friction magnetorheological clutch using 3D metal printing for human-robot applications. Journal of Intelligent Material Systems and Structures 34(14): 1633–1645.

17.

Liu

Wang

Feng

, et al. (2022) A magnetorheological fluid-based force feedback master robot for vascular interventional surgery. Journal of Intelligent & Robotic Systems 106(1): 20.

18.

Lutanto

Ubaidillah

Imaduddin

, et al. (2022) Development of tiny vane-type magnetorheological brake considering quality function deployment. Micromachines 14(1): 26.

19.

Nguyen

Le-Duc

Hiep

, et al. (2019) Development of a new magnetorheological fluid–based brake with multiple coils placed on the side housings. Journal of Intelligent Material Systems and Structures 30(5): 734–748.

20.

Nguyen

, et al. (2022) Design and experimental evaluation a novel magneto-rheological brake with tooth shaped rotor. Smart Materials and Structures 31(1): 015015.

21.

Park

Kang

Choi

(2024) A new rotary magnetorheological damper for a semi-active suspension system of low-floor vehicles. Actuators 13(4): 155.

22.

Peretti

Zigliotto

(2006) A force feedback system for steer-by-wire applications based on low-cost MR fluids – design hints. In: Proceedings of the 3rd IET international conference on power electronics, machines and drives (PEMD 2006), pp. 469–473.

23.

Plante

St-Jean

Lucking Bigué

(2025) Bridging the gap between haptic devices and cobots with highly geared magnetorheological actuators. Scientific Reports 15(1): 14363.

24.

Saini

RST

Chandramohan

Sujatha

, et al. (2021) Design of bypass rotary vane magnetorheological damper for prosthetic knee application. Journal of Intelligent Material Systems and Structures 32(9): 931–942.

25.

Shi

Lin

Nie

, et al. (2025) Design and testing of magnetorheological brake with adjustable interdigitated combs for lower limb prostheses and exoskeletons. Smart Materials and Structures 34(5): 055031.

26.

Singh

Sarkar

(2023) Two-wheeler magnetorheological drum brake operating under hybrid mode for enhancing braking torque: Development and validation. Mechatronics 92: 102971.

27.

Song

Tian

, et al. (2023) A novel master-slave interventional surgery robot with force feedback and collaborative operation. Sensors 23(7): 3584.

28.

Turabimana

Sohn

(2023) Optimal design and control performance evaluation of a magnetorheological fluid brake featuring a T-shape grooved disc. Actuators 12(8): 315.

29.

Wellborn

Mitchell

Pieper

, et al. (2022) Design and analysis of a small-scale magnetorheological brake. IEEE/ASME Transactions on Mechatronics 27(5): 3099–3109.

30.

Kong

Huang

, et al. (2024) Design and experimental evaluation of a multi-drum magnetorheological brake with side-set dual-coil. Alexandria Engineering Journal 108: 549–560.

31.

Yang

Yao

Dong

, et al. (2024) Design and performance evaluation of a multi-disc magnetorheological fluid brake for A00-class minicars. Journal of Intelligent Material Systems and Structures 35(1): 99–113.