Search

Your search keyword '"Hedjar, Ramdane"' showing total 103 results
Start Over Author "Hedjar, Ramdane"
103 results on '"Hedjar, Ramdane"'

1. Dense Visual Odometry Using Genetic Algorithm

Author

Djema, Slimane, Benselama, Zoubir Abdeslem, Hedjar, Ramdane, and Abdallah, Krabi

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, I.2.9 Robotics, I.2.10 Vision and Scene Understanding (I.4.8, I.5)
Abstract

Our work aims to estimate the camera motion mounted on the head of a mobile robot or a moving object from RGB-D images in a static scene. The problem of motion estimation is transformed into a nonlinear least squares function. Methods for solving such problems are iterative. Various classic methods gave an iterative solution by linearizing this function. We can also use the metaheuristic optimization method to solve this problem and improve results. In this paper, a new algorithm is developed for visual odometry using a sequence of RGB-D images. This algorithm is based on a genetic algorithm. The proposed iterative genetic algorithm searches using particles to estimate the optimal motion and then compares it to the traditional methods. To evaluate our method, we use the root mean square error to compare it with the based energy method and another metaheuristic method. We prove the efficiency of our innovative algorithm on a large set of images., Comment: 9 pages, 9 figures

Published
2023

6. An Automatic Collision Avoidance Algorithm for Multiple Marine Surface Vehicles

Author

Hedjar Ramdane and Bounkhel Messaoud

Subjects
unmanned surface vehicles, obstacle avoidance, control allocation, constrained convex optimization, Mathematics, QA1-939, Electronic computers. Computer science, QA75.5-76.95
Abstract

In recent years, unmanned surface vehicles have been widely used in various applications from military to civil domains. Seaports are crowded and ship accidents have increased. Thus, collision accidents occur frequently mainly due to human errors even though international regulations for preventing collisions at seas (COLREGs) have been established. In this paper, we propose a real-time obstacle avoidance algorithm for multiple autonomous surface vehicles based on constrained convex optimization. The proposed method is simple and fast in its implementation, and the solution converges to the optimal decision. The algorithm is combined with the PD-feedback linearization controller to track the generated path and to reach the target safely. Forces and azimuth angles are efficiently distributed using a control allocation technique. To show the effectiveness of the proposed collision-free path-planning algorithm, numerical simulations are performed.

Published
2019
Full Text
View/download PDF

8. Entropy maximization for the busy period of a single server queue.

Author

Bounkhel, Messaoud, Tadj, Lotfi, and Hedjar, Ramdane

Subjects
PROBABILITY density function, SETUP time, MAXIMUM entropy method
Abstract

This article applies the maximum entropy principle to determine the probability density function of the delayed busy period in an M/G/1 type queueing system with setup time, two phases of service, Bernoulli vacation, N-policy, and server breakdowns. Numerical illustrations show that the accuracy of the estimated probability density function depends on the type of information fed to the method. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

9. Formation control of nonholonomic wheeled mobile robots using adaptive distributed fractional order fast terminal sliding mode control.

Author

DAMANI, Allaeddine Yahia, BENSELAMA, Zoubir Abdeslem, and HEDJAR, Ramdane

Subjects
MOBILE robots, NONHOLONOMIC dynamical systems, SLIDING mode control, LYAPUNOV stability, PERFORMANCE evaluation
Abstract

In this paper, an adaptive distributed formation controller for wheeled nonholonomic mobile robots is developed. The dynamical model of the robots is first derived by employing the Euler-Lagrange equation while taking into consideration the presence of disturbances and uncertainties in practical applications. Then, by incorporating fractional calculus in conjunction with fast terminal sliding mode control and consensus protocol, a robust distributed formation controller is designed to assure a fast and finite-time convergence of the robots towards the required formation pattern. Additionally, an adaptive mechanism is integrated to effectively counteract the effects of disturbances and uncertain dynamics. Moreover, the suggested control scheme's stability is theoretically proven through the Lyapunov theorem. Finally, simulation outcomes are given in order to show the enhanced performance and efficiency of the suggested control technique. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

20. A predictive sliding mode control for quadrotor's tracking trajectory subject to wind gusts and uncertainties.

Author

Meradi, Dounia, Benselama, Zoubir Abdeslem, and Hedjar, Ramdane

Subjects
SLIDING mode control, CONSTRAINT satisfaction, MOBILE robots, ADAPTIVE control systems, WINDSTORMS
Abstract

In this paper, a predictive sliding mode control (PSMC) strategy for the quadrotors tracking trajectory problem is proposed. This strategy aims to combine the advantages of sliding mode control (SMC) and non-linear model predictive control (NMPC) to improve the tracking control performance for quadrotors in terms of optimality, inputs/states constraints satisfaction, and strong robustness against disturbances. A comparative study of three popular controllers: the SMC, NMPC, and the integral backstepping control (IBC) is performed with different criteria. Accordingly, IBC and SMC show less computational time and strong robustness, while NMPC has minimum control effort. The discrete Dryden turbulence model is used as a benchmark model to represent the wind effect on the trajectory tracking accuracy. The effectiveness of the proposed method PSMC has been proven and compared with discrete-time sliding mode control (DSMC) and NMPC in several scenarios. Simulation results show that under both wind turbulence and time-variant uncertainties, the PSMC outperforms the other controllers by providing simultaneously disturbance rejection and guarantee that the control inputs are within bounded constraints. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

21. Trajectory Tracking Performance with two Nonlinear Controllers of Quadrotor under Wind Effect

Author

Hedjar Ramdane, Meradi Dounia, and Benselama Zoubir Abdeslem

Subjects
Vehicle dynamics, Nonlinear system, Control theory, Computer science, Robustness (computer science), Backstepping, Trajectory, Aerodynamics, Sliding mode control, Wind speed
Abstract

The quadrotor often flies in an environment where external disturbances can occur and decrease its tracking performances. Hence, the robustness and effectiveness of nonlinear controllers are required to reject the external disturbance. The aim of this article is to design and verify an integral backstepping and sliding mode control techniques to track the desired trajectory for the quadrotor. The performance and effectiveness of the nonlinear controllers are illustrated through representative simulations showing the tracking of several reference trajectories with disturbances, model uncertainties, and wind gusts effect. To this end, the Dryden turbulence model for wind velocity fluctuations was used as a benchmark wind model to better represent the impact of the accuracy of the wind field model on the trajectory tracking performance. The tracking performances of these approaches are discussed using the root mean square error (RMSE).

Published
2020
Full Text
View/download PDF

22. Mobile Robot Localization Using Extended Kalman Filter

Author

Alhamdi Eman and Hedjar Ramdane

Subjects
Computer science, business.industry, Mobile robot, Filter (signal processing), Computer Science::Robotics, symbols.namesake, Noise, Extended Kalman filter, Software, Gaussian noise, Component (UML), symbols, Computer vision, Artificial intelligence, MATLAB, business, computer, computer.programming_language
Abstract

Localizing the mobile robot in an indoor environment is one of the problems encountered repeatedly. Achieving the target precisely in any environment is not an easy task since there are noises and obstacles in the surrounding environment. Therefore, filtering the signals to reduce noises is essential for more accurate and precise motion. In this paper, we selected the extended Kalman filter, which is used for non-linear models’ signals to predict the coordinates of a wheeled mobile robot. We tested the efficiency of this filter under three noise cases: no noise, Gaussian noise and non-Gaussian noise using MATLAB software.

Published
2020
Full Text
View/download PDF

24. Mobile Robot Intelligence Based SLAM Features Learning and Navigation

Author

Ebrahim Mattar, Hedjar Ramdane, Khalid Al Mutib, and Mansour Al Sulaiman

Subjects
0209 industrial biotechnology, Visual perception, Computer Networks and Communications, Computer science, Mobile robot, 02 engineering and technology, Computer Graphics and Computer-Aided Design, Human-Computer Interaction, 020901 industrial engineering & automation, Artificial Intelligence, Human–computer interaction, Management of Technology and Innovation, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Information Systems
Published
2018
Full Text
View/download PDF

28. KSU-IMR Mobile Robot Navigation Maps Building and Learning

Author

Mansour Alsulaiman, Hedjar Ramdane, K. Al Mutib, and Ebrahim Mattar

Subjects
Computer science, business.industry, Dimensionality reduction, Robot, Mobile robot, General Medicine, Artificial intelligence, Behavior-based robotics, business, Robot learning, Mobile robot navigation
Abstract

It is essential to learn a robot navigation environment. We describe research outcomes for KSU-IMR mapping and intelligence. This is for navigating and robot behavior learning. The mobile maps learning and intelligence was based on hybrid paradigms and AI functionaries. Intelligence was based on ANN-PCA for dimensionality reduction, and Neuro-Fuzzy architecture.

Published
2015
Full Text
View/download PDF

29. Comparative study of soft computing techniques for mobile robot navigation in an unknown environment

Author

Mansour Alsulaiman, Hedjar Ramdane, Mohammed Algabri, and Hassan Mathkour

Subjects
Soft computing, Adaptive neuro fuzzy inference system, Neuro-fuzzy, business.industry, Computer science, Control engineering, Fuzzy control system, Fuzzy logic, Mobile robot navigation, Human-Computer Interaction, Fuzzy electronics, ComputingMethodologies_PATTERNRECOGNITION, Arts and Humanities (miscellaneous), ComputingMethodologies_GENERAL, Artificial intelligence, business, General Psychology, Membership function
Abstract

Robot navigation and obstacle avoidance using fuzzy logic controller is presented.Soft computing techniques are used to optimize the performance of fuzzy logic.The automatic tuning was done by using three soft computing techniques: GA, PSO, and NN.The best performance in terms of travelling time and speed is based on GA-Fuzzy.The PSO-Fuzzy and Neuro-Fuzzy methods have better performance in terms of distance travelled. An autonomous mobile robot operating in an unstructured environment must be able to deal with dynamic changes of the environment. Navigation and control of a mobile robot in an unstructured environment are one of the most challenging problems. Fuzzy logic control is a useful tool in the field of navigation of mobile robot. In this research, fuzzy logic controller is optimized by integrating fuzzy logic with other soft computing techniques like genetic algorithm, neural networks, and Particle Swarm Optimization (PSO). Soft computing techniques are used in this work to tune the membership function parameters of fuzzy logic controller to improve the navigation performance. Four methods have been designed and implemented: manually constructed fuzzy logic (M-Fuzzy), fuzzy logic with genetic algorithm (GA-Fuzzy), fuzzy logic with neural network (Neuro-Fuzzy), and fuzzy logic with PSO (PSO-Fuzzy). The performances of these approaches are compared through computer simulations and experiment number of scenarios using Khepera III mobile robot platform. Hybrid fuzzy logic controls with soft computing techniques are found to be most efficient for mobile robot navigation. The GA-Fuzzy technique is found to perform better than the other techniques in most of the test scenarios in terms of travelling time and average speed. The performances of both PSO-Fuzzy and Neuro-Fuzzy are found to be better than the other methods in terms of distance travelled. In terms of bending energy, the PSO-Fuzzy and Neuro-Fuzzy are found to be better in simulation results. Although, the M-Fuzzy is found to be better using real experimental results. Hence, the most important system parameter will dictate which of the four methods to use.

Published
2015
Full Text
View/download PDF

30. Mobile Robot Neuro-Fuzzy Navigation Based VSLAM Features Learning

Author

Mansour Alsulaiman, Ebrahim Mattar, Khalid Al-Mutib, and Hedjar Ramdane

Subjects
Robot kinematics, Stereopsis, Neuro-fuzzy, business.industry, Computer science, Inference, Robot, Mobile robot, Computer vision, Artificial intelligence, business, Mobile robot navigation, Visualization
Abstract

The presented approach was focused around building intelligence for mobile robot navigation. That was achieved by creating navigation intelligence capabilities while the robot is in motion. The adopted learning paradigm was a five layers Neuro-Fuzzy (NF) learning architecture, due to ability to create and inference for enhanced navigation. To meet such visual data gathering, the mobile robot platform have fully computer-interfaced stereo vision, and reliable 3D perception. Mobile robot intelligence (NF), hence learns navigation (SLAM) maps visual features, as it travels within spaces. Blinding intelligence with visual maps has resulted in better navigation capabilities.

Published
2017
Full Text
View/download PDF

31. Mobile Robot Navigation and Obstacle-avoidance using ANFIS in Unknown Environment

Author

Mohammed Algabri, Hedjar Ramdane, and Hassan Mathkour

Subjects
Hybrid neural network, Adaptive neuro fuzzy inference system, Artificial neural network, Computer science, business.industry, Obstacle avoidance, Artificial intelligence, business, Fuzzy logic, Mobile robot navigation
Abstract

Navigation and obstacle avoidance in an unknown environment is proposed in this paper using hybrid neural network with fuzzy logic controller. The overall system is termed as Adaptive Neuro Fuzzy Inference System (ANFIS). ANFIS combines the benefits of fuzzy logic and neural networks for the purpose of achieving robotic navigation task. Simulation results are presented using Khepera Simulator (KiKs) within MATLAB environment. Moreover, experimental results are obtained using Khepera III platform.

Published
2014
Full Text
View/download PDF

32. Optimization of Fuzzy Logic Controller Using PSO for Mobile Robot Navigation in an Unknown Environment

Author

Hedjar Ramdane, Mohammed Algabri, Khalid Al-Mutib, Mansour Alsulaiman, and Hassan Mathkour

Subjects
Engineering, Neuro-fuzzy, business.industry, Process (computing), Particle swarm optimization, Control engineering, Mobile robot, General Medicine, Fuzzy logic, Mobile robot navigation, Control theory, Obstacle avoidance, business, Membership function
Abstract

The control of autonomous mobile robot in an unknown environments include many challenge. Fuzzy logic controller is one of the useful tool in this field. Performance of fuzzy logic controlling depends on the membership function, so the membership function adjusting is a time consuming process. In this paper, we optimized a fuzzy logic controller (Fuzzy) by automatic adjusting the membership function using a particle swarm optimization (PSO). The proposed method (PSO-Fuzzy) is implemented and compared with Fuzzy using Khepera simulator. Moreover, the performance of these approaches compared through experiments using a real Khepera III platform.

Published
2014
Full Text
View/download PDF

34. Stereo vision SLAM based indoor autonomous mobile robot navigation

Author

Hedjar Ramdane, Mansour Alsulaiman, Ebrahim Mattar, and Khalid Al-Mutib

Subjects
Stereo cameras, Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Mobile robot, Simultaneous localization and mapping, Mobile robot navigation, Software, Stereopsis, Obstacle, Computer vision, Artificial intelligence, business, Coding (social sciences)
Abstract

This manuscript presents an autonomous navigation of a mobile robot using SLAM, while relying on an active stereo vision. We show a framework of low-level software coding which is necessary when the vision is used for multiple purposes such as obstacle discovery. The built system incorporated a number of SLAM based routines while replying on stereo vision mechanism. The system was implemented and tested on a mobile robot platform, and perform an experiment of autonomous navigation in an indoor environment.

Published
2014
Full Text
View/download PDF

37. Active Stereo Vision for Mobile Robot Localization and Mapping Path Planning

Author

Khalid Al Mutib, Muhammad Emaduddin, Ebrahim Mattar, M. Al Sulaiman, and Hedjar Ramdane

Subjects
Occupancy grid mapping, Stereo cameras, Computer science, business.industry, Epipolar geometry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Mobile robot, Robotics, Mobile robot navigation, Computer vision, Motion planning, Artificial intelligence, business, Computer stereo vision
Abstract

This manuscript looks into details into the hardware implementations of an active stereo vision path planning navigation for a mobile robotics system. This mobile robotics system has been designated as the (KSU-IMR), as it a test-bed for research within the area of mobile robotics system navigation through the use of an active stereo vision for planning a path within an unstructured environment at King Saud University in KSA. The system is making use of fast image processing tools, as in addition to fast algorithms for processing the dynamic images. The approach followed here is to employ the Epipolar Geometry to compute the 3-D details of the environment where the mobile is moving. The algorithm mixes stereo vision, occupancy grid mapping, and potential field path planning procedures to form a robu

Published
2012
Full Text
View/download PDF

38. D* Lite Based Real-Time Multi-Agent Path Planning in Dynamic Environments

Author

Muhammad Emaduddin, Hedjar Ramdane, Khalid Nasser Almutib, Mansour Alsulaiman, and Ebrahim Mattar

Subjects
Robot kinematics, Computer science, Distributed computing, Path (graph theory), Robot, Mobile robot, Algorithm design, Motion planning, Mobile robot navigation, Robot control
Abstract

D* based navigation algorithms provide robust and realtime means of achieving path planning in dynamic environments. Author of this paper introduces a notion of predictable time-based obstacles. The algorithm proposed in the paper defines a centralized obstacle-map that is shared among multiple agents (robots) performing path planning. Each robot plans its path individually on an obstacle-map using a slightly modified version of D* Lite and then shares an updated version of the map, which includes its planned path as a new obstacle, with its peers. The planned paths appear as temporary time-based obstacles to peer robots. Planned paths are divided into discrete temporal sections so as to help peer robots optimize paths temporally. The proposed algorithm also presents a priority measure which helps us decide the optimized sequence of individual pathplanning order followed by cooperating robots. Since the implemented algorithm is tested in simulation using Mobile robot Programming Toolkit, the Real–time performance analysis is done to confirm the real-time execution time of the proposed algorithm. Keywordsrobotics; path-planning; D*; navigation; multi

Published
2011
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results