Position Control of Pneumatic Actuators Using Three-Mode Discrete-Valued Model Predictive Control

Qi, Haitao; Bone, Gary M.; Zhang, Yile

doi:10.3390/act8030056

Cited by 21 publications

(19 citation statements)

References 18 publications

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“…The V 1 , V 2 , V 3 and V 4 are the solenoid valves shown in Figure 4. We used the connection diagram mentioned in Qi H, et al, 2019, 14 for finalizing the solenoid connections. The control parameters defined in the algorithm are described as follows.…”

Section: Control Algorithmmentioning

confidence: 99%

Design of active ankle foot orthotics for gait assistance and fall prevention

Redkar

Olson

Ray³

et al. 2020

IRATJ

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An active ankle-foot orthosis (AAFO) was developed with the intent of providing propulsive ground reaction force to individuals at risk of experiencing fall. The device makes use of one double-acting cylinder per leg, and a lever arm system to transfer propulsive force to the ground, and potentially assist in fall prevention and rehabilitation. Preliminary tests have been shown to improve ground reaction forces in walking. In this paper, the design and construction of the device is included as well as the control algorithm used and testing procedure. This research may be used to advance the field of gait assistance and fall prevention through use of active foot orthotics.

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Section: Control Algorithmmentioning

confidence: 99%

Design of active ankle foot orthotics for gait assistance and fall prevention

Redkar

Olson

Ray³

et al. 2020

IRATJ

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“…Adopting the approach of physical network modeling technique followed by many researches [11][12][13][14][15] , the dynamic equations for the pneumatic system in this research have been modeled and simulated using Matlab® Simscape toolboxes and discussed in details in [1] . The model has been validated by comparing the predicted dynamic behaviour of the system to the experimentally measured one.…”

Section: Modeling Of the Pneumatic Systemmentioning

confidence: 99%

Position control of a pneumatic cylinder actuator using modified PWM algorithm

Youssry¹,

Elmayyah

Mabrouk

2020

Eng. Sci. and Milit. Techno.

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Pneumatic cylinders are used as actuators for modern automated systems in many industries applications for their numerous advantages. Basically, those applications are implemented using components such as proportional and servo pneumatic control valves that are relatively expensive because of their high accuracy even in applications that do not require such high accuracy. Recently, binary (on/off) solenoid directional control valves (DCVs) have been used to replace many of the expensive components and consequently reduce the system cost with achieving acceptable accuracy. This paper presents a control

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“…Sliding mode control (SMC) represents a robust controller, which is widely used in many applications such as robotics, motor, actuator control, and photovoltaic energy field [25][26][27]. Its high performance and simplicity of implementation promote researchers to focus more on this controller and prove its efficiency with real time experimental validation.…”

Section: Introductionmentioning

confidence: 99%

A Novel Two Stage Controller for a DC-DC Boost Converter to Harvest Maximum Energy from the PV Power Generation

et al. 2020

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In this article, an efficient and fast two-stage approach for controlling DC-DC boost converter using non linear sliding mode controller for a PV power plant is proposed. The control approach is based on two online methods instead of using the conventional combination of online and offline methods to harvest maximum energy and deliver an output PV voltage with reduced ripples. The proposed two-stage maximum power point tracking (MPPT) control can be integrated into many applications such as hybrid electric vehicles. Simulation results compared with the standard approaches P&O prove the tracking efficiency of the proposed method under fast changing atmospheric conditions of an average 99.87% and a reduced average ripple of 0.06. The two-stage MPPT control was implemented involving the embedded dSPACE DSP in comparison to the classical P&O to prove the efficiency and the validity of the control scheme. The experimental set-up system was carried out on boost converter and programmable DC electronic resistive load to highlights the robustness of the proposed controller against atmospheric changes and parametric variation.

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Position Control of Pneumatic Actuators Using Three-Mode Discrete-Valued Model Predictive Control

Cited by 21 publications

References 18 publications

Design of active ankle foot orthotics for gait assistance and fall prevention

Design of active ankle foot orthotics for gait assistance and fall prevention

Position control of a pneumatic cylinder actuator using modified PWM algorithm

A Novel Two Stage Controller for a DC-DC Boost Converter to Harvest Maximum Energy from the PV Power Generation

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