2022
DOI: 10.1109/tsmc.2021.3064898
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Trajectory Tracking for a Dual-Arm Free-Floating Space Robot With a Class of General Nonsingular Predefined-Time Terminal Sliding Mode

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Cited by 41 publications
(16 citation statements)
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“…[31]) occurs for u → ∞ if x 1 → 0 and x 2 = 0. In order to overcome this problem, a sliding mode surface based on the mathematical idea of parameter switching in (32) is considered to design a nonsingular fixed-time terminal sliding mode controller. This switching strategy does not need to design multiple complex switch controllers (only switch parameters), and it can switch a singular sliding mode surface to the nonsingular one when x 1 = 0 and s = 0.…”
Section: Low-chattering Controller Designmentioning
confidence: 99%
See 3 more Smart Citations
“…[31]) occurs for u → ∞ if x 1 → 0 and x 2 = 0. In order to overcome this problem, a sliding mode surface based on the mathematical idea of parameter switching in (32) is considered to design a nonsingular fixed-time terminal sliding mode controller. This switching strategy does not need to design multiple complex switch controllers (only switch parameters), and it can switch a singular sliding mode surface to the nonsingular one when x 1 = 0 and s = 0.…”
Section: Low-chattering Controller Designmentioning
confidence: 99%
“…Result 1. For system (16), if the controller is given by ( 34) and Assumption 1 is fulfilled, the sliding mode function (32) can converge to a boundary layer: s j (x j ) ≤ δ k dis within a fixed time T 2 . After the system reaches this boundary layer, the system state can be stabilized within a fixed-time T 3 at a small neighborhood of zero: B = {x j ;…”
Section: Low-chattering Controller Designmentioning
confidence: 99%
See 2 more Smart Citations
“…To solve these problems, some scholars have studied scheduled time stabilization. The trajectory planning and control of a two-armed free-floating space robot based on predefined time stabilization is implemented in [22]. The problem of predefined-time attitude stabilization of a receptive vehicle with uncertain inertia and unknown external disturbances is implemented in [23].…”
Section: Introductionmentioning
confidence: 99%