Amirmasoud Ghasemi Toudeshki scite author profile

Amirmasoud Ghasemi Toudeshki

5Publications

34Citation Statements Received

67Citation Statements Given

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Affiliations

Simon Fraser University, University of Tehran

Publications

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Observer-based sensor fault estimation in nonlinear systems

Valibeygi

Toudeshki

Vijayaraghavan

2016

Proceedings of the Institution of Mechanical Engineers, Part I:

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Sensor bias faults and sensor gain faults are two important types of faults in sensor. Simultaneous estimation of these sensor faults in nonlinear systems in the presence of input disturbance and measurement noise is challenging and has not been adequately addressed in literature. Hence, this article develops an observer-based sensor fault estimation method for generalized sector-bounded nonlinear systems in the presence of input disturbance and measurement noise. A generalized sector-bounded nonlinearity was chosen because it encompasses a wide range of nonlinearities including Lipschitz, positive real, and dissipative. This article presents necessary and sufficient conditions to achieve a suboptimal cost for a cost function consisting of the sum of the square integrals of the estimation errors to the square integrals of the disturbances in the form of linear matrix inequality. The linear matrix inequality can be solved offline to explicitly calculate observer gain, and the resulting observer simultaneously estimates the system states as well as both bias and gain faults in the sensors. Compared to previous literature, the proposed methodology is designed to work in the presence of both input disturbance and measurement noise. Additionally, this article considers a generalized sector-bounded nonlinearity which encompasses a variety of different physical nonlinearities. Furthermore, the observer does not require the online solution of the Riccati equation and is thus computationally less intensive compared with the methods of extended Kalman filtering. The observer design procedure is demonstrated through two illustrative examples consisting of a fourth-order double spring–mass system and a third-order wind turbine power transmission mechanism.

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Design and fabrication of a 3DoF upper limb exoskeleton

Mahdavian

Toudeshki

Yousefi‐Koma

2015

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Robust UAV Visual Teach and Repeat Using Only Sparse Semantic Object Features

Toudeshki

Shamshirdar

2018

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We demonstrate the use of semantic object detections as robust features for Visual Teach and Repeat (VTR). Recent CNN-based object detectors are able to reliably detect objects of tens or hundreds of categories in video at frame rates. We show that such detections are repeatable enough to use as landmarks for VTR, without any low-level image features. Since object detections are highly invariant to lighting and surface appearance changes, our VTR can cope with global lighting changes and local movements of the landmark objects. In the teaching phase we build a series of compact scene descriptors: a list of detected object labels and their image-plane locations. In the repeating phase, we use Seq-SLAM-like relocalization to identify the most similar learned scene, then use a motion control algorithm based on the funnel lane theory to navigate the robot along the previously piloted trajectory.We evaluate the method on a commodity UAV, examining the robustness of the algorithm to new viewpoints, lighting conditions, and movements of landmark objects. The results suggest that semantic object features could be useful due to their invariance to superficial appearance changes compared to low-level image features.

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ZMP trajectory control of a humanoid robot using different controllers based on an offline trajectory generation

Aghbali

Yousefi‐Koma

Toudeshki

et al. 2013

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UAV Visual Teach and Repeat Using Only Semantic Object Features

Toudeshki¹,

Shamshirdar²

2018

Preprint

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