Publications

Assistive and Rehabilitation Robotics Lab

International Journal

Improved Assistive Profile Tracking of Exosuit by Considering Adaptive Stiffness Model and Body Movement
Author
Jihun Kim, Kimoon Nam, Seungtae Yang, Junyoung Moon, Jaeha Yang, Jaewook Ryu, Giuk Lee
Journal
Soft Robotics
Status
Published
Year
2024
File
kim-et-al-2024-improved-assistive-profile-tracking-of-exosuit-by-considering-adaptive-stiffness-model-and-body-movement.pdf (2.4M) 10회 다운로드 DATE : 2024-10-07 17:22:00
Wearable robots have been developed to assist the physical performance of humans. Specifically, exosuits have attracted attention due to their lightweight and soft nature, which facilitate user movement. Although several types of force controllers have been used in exosuits,
it is challenging to control the assistive force due to the material’s softness. In this study, we propose three methods to improve the performance of
the basic controller using an admittance-based force controller. In method A, the cable was controlled according to the user’s thigh motion to eliminate delays in generating the assistive force and improve the control accuracy. In method B, the stiffness feedforward model of the human exosuit was divided into two independent models based on the assistance phase for compensating the nonlinear stiffness more accurately. In method C, the real-time optimization method for the stiffness feedforward model with an adaptive moment estimation method optimizer was proposed. To validate these methods’ effectiveness, we designed three new controllers, gradually combined the proposed methods with the basic controller, and compared their performances. We found that controller III, combining all three methods with the basic controller, showed the best performance. By applying controller III in the same exosuit, the root-mean-square error of the assistive force decreased from 39.84 N to 13.72 N, reducing the error by 65.56% compared with the basic controller. Moreover, the time delay for force generation in the gait cycle percentage decreased from 9.99% to 3.41%, reducing the delay by 65.87% compared with the basic controller.

Funding Information
* The Korea Medical Device Development Fund grant funded by the Korea government (the Ministry of Science and ICT, the Ministry of Trade, Industry, and Energy, the Ministry of Health & Welfare, the Ministry of Food and Drug Safety) (RS-2022-00140621)
* The Industrial Strategic Technology Development Program (No. 20007058), funded by the Ministry of Trade, Industry, & Energy (MOTIE, Korea)
* The Institute of Civil-Military Technology Cooperation funded by the Defense Acquisition Program Administration and Ministry of Trade, Industry and Energy of Korean government under grant (No. 9991008623, 23-SF-RO-10)
* The Technology development Program (RS-2023-00302411) funded by the Ministry of SMEs and Startups (MSS, Korea).