Eyad Almasri scite author profile

Eyad Almasri

4Publications

3Citation Statements Received

162Citation Statements Given

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162

Affiliations

Eastern Mediterranean University

Publications

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Modeling and Trajectory Planning Optimization for the Symmetrical Multiwheeled Omnidirectional Mobile Robot

Almasri

Uyguroğlu

2021

Symmetry

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Trajectory optimization is the series of actions that are taken into consideration in order to produce the best path such that it improves the overall performances of physical properties or reduces the consumption of the resources where the restriction system remains maintained. In this paper, first, a compact mathematical model for a symmetrical annular-shaped omnidirectional wheeled mobile robot (SAOWMR) is derived and verified. This general mathematical model provides an opportunity to conduct research, experiments, and comparisons on these omnidirectional mobile robots that have two, three, four, six, or even more omnidirectional wheels without the need to switch models or derive a new model. Then, a new computationally efficient method is proposed to achieve improvements in the trajectory planning optimization (TPO) for a SAOWMR. Moreover, the proposed method has been tested in collision-free navigation by incorporation of the path constraints. Numerical tests and simulations are presented aiming to ensure the efficiency and effectiveness of the proposed method.

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Trajectory Optimization in Robotic Applications, Survey of Recent Developments

Almasri¹,

Mk²

2021

Preprint

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Trajectory Optimization (TO) is the sequence of processes that are considered in order to produce the best path that mends the overall performance or reduces the consumption of the resources where the restriction system remains maintained. In this survey, an inclusive review of the latest advancements in modeling and optimization of trajectory generation in robotic applications will be discussed broadly. In recent times, numerous studies have employed optimal control techniques involving direct and indirect methods in order to convert the authentic Trajectory Optimization problem into a constrained parameter optimization problem. Moreover, a huge variety of optimization algorithms such as Genetic Algorithms (GA), Simulated Annealing (SA), Sequential Quadratic Programming (SQP), and Particle Swarm Optimization (PSO) are used aiming to find the optimal solutions for trajectory planning. It is observable that, minimizing the jerk, energy consumption, and execution time among the most widely used design objectives, on the other hand, the robot’s joints configurations and the motor torques are the most used design variables. This paper aims to review the fundamental techniques and their coincident robotic applications in the field of trajectory optimization aiming to afford some steering for related researchers.

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Trajectory Planning Optimization for the Autonomous Three-Wheeled Omnidirectional Mobile Robot

Almasri

Uyguroğlu

2021

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Modeling and Optimal Motion Planning for the Omnidirectional Mobile Robot with Three Orthogonal Wheels

Almasri

Uyguroğlu

2021

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Eyad Almasri

Modeling and Trajectory Planning Optimization for the Symmetrical Multiwheeled Omnidirectional Mobile Robot

Trajectory Optimization in Robotic Applications, Survey of Recent Developments

Trajectory Planning Optimization for the Autonomous Three-Wheeled Omnidirectional Mobile Robot

Modeling and Optimal Motion Planning for the Omnidirectional Mobile Robot with Three Orthogonal Wheels

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