The following publications are possibly variants of this publication:
- Automatic Control of Cycling Induced by Functional Electrical Stimulation With Electric Motor AssistanceMatthew J. Bellman, Ryan J. Downey, Anup Parikh, Warren E. Dixon. tase, 14(2):1225-1234, 2017. [doi]
- Torque and cadence tracking in functional electrical stimulation induced cycling using passivity-based spatial repetitive learning controlVictor H. Duenas, Christian A. Cousin, Vahideh Ghanbari, Emily J. Fox, Warren E. Dixon. automatica, 115:108852, 2020. [doi]
- Passivity-Based Learning Control for Torque and Cadence Tracking in Functional Electrical Stimulation (FES) Induced CyclingVictor H. Duenas, Christian A. Cousin, Vahideh Ghanbari, Warren E. Dixon. amcc 2018: 3726-3731 [doi]
- Functional electrical stimulation induced cycling using repetitive learning controlVictor H. Duenas, Christian A. Cousin, Anup Parikh, Warren E. Dixon. cdc 2016: 2190-2195 [doi]
- Cadence control of stationary cycling induced by switched functional electrical stimulation controlMatthew J. Bellman, Teng-Hu Cheng, Ryan Downey, Warren E. Dixon. cdc 2014: 6260-6265 [doi]
- Stationary cycling induced by switched functional electrical stimulation controlMatthew J. Bellman, Teng-Hu Cheng, Ryan J. Downey, Warren E. Dixon. amcc 2014: 4802-4809 [doi]
- Motorized and Functional Electrical Stimulation Induced Cycling via Switched Repetitive Learning ControlVictor H. Duenas, Christian A. Cousin, Anup Parikh, Paul Freeborn, Emily J. Fox, Warren E. Dixon. tcst, 27(4):1468-1479, 2019. [doi]