Salah BM.
New nanotechnology structures CNTFET GaAs. 8th International Conference on Renewable Energy Research and Applications (ICRERA) [Internet]. 2019.
Publisher's Version Abderazak S, Farid N.
A New robust adaptive fuzzy synergetic control for nonlinear systems with an application to an inverted pendulum, ISSN / e-ISSN 1746-6172 / 1746-6180. International Journal of Modelling Identification and Control [Internet]. 2019;volume 33 (N°2).
Publisher's VersionAbstractThis paper deals with a nonlinear adaptive control design based on synergetic control, which also uses fuzzy systems to approximate the dynamics of nonlinear systems. The stability of the closed-loop system is ensured by the Lyapunov synthesis in the sense that all the signals are bounded, and the controller parameters adjusted by adaptation laws. The proposed algorithm is applied to an inverted pendulum to track a sinusoidal reference trajectory. Simulations and discussion are presented to illustrate the new robust adaptive fuzzy synergetic control described in this work.
Abderazak S, Farid N.
Speed Control of a doubly fed induction Machine Based on Fuzzy Adaptive, ISSN / e-ISSN 1758-3657 / 1758-8723. International Journal Intelligent Engineering Informatics [Internet]. 2019;volume 7 (N°1 ) :pp.61 - 76.
Publisher's VersionAbstractIn this paper, we are interested in the adaptive fuzzy control a technique has been studied and applied, namely adaptive fuzzy control based on theory of Lyapunov. The system based on the stability theory is used to approximate the gains ke and kdce to ensure the stability of the control in particular time, simulations results obtained by using MATLAB environment gives that the fuzzy adaptive control more robust, also it has superior dynamics performances. The results and test of robustness will be presented.
Oussama M, Rachid A, Said BENAGGOUNE.
Super twisting sliding mode control for brushless doubly fed induction generator based on WECS, ISSN 0975-6809. International Journal of System Assurance Engineering and Management [Internet]. 2019;volume 10 :pp. 1145–1157.
Publisher's VersionAbstractThis paper deals with the robust power control of a grid-connected brushless doubly-fed induction generator (BDFIG) driven by the variable speed wind turbine. With the using of a super twisting algorithm which is a high-order sliding mode controller (HOSMC). This approach guarantees both the dynamic performance and the same robustness as traditional first order (SMC) algorithm and reduces the chattering phenomenon, which is the biggest disadvantage in the implementation of this technique. The developed algorithm relies on the decoupling control by implementing the strategy of oriented grid flux vector control. In order to enhance the desired performances, an attempt is made by controlling the generated stator active and reactive powers in a linear and decoupled manner to ensure the global asymptotical stability, HOSMC approach is implemented. Therefore, an optimal operation of the BDFIG in sub-synchronous operation is used in addition to the stator power flows where the stator power factor is kept in a unity. The suggested method is examined with the Matlab/Simulink software. The performances and the feasibility of the designed control are illustrated by simulation results.
Ameddah H, Mazouz H.
3D Printing Analysis by Powder Bed Printer (PBP) of a Thoracic Aorta Under Simufact Additive. In: Additive Manufacturing Technologies From an Optimization Perspective. ; 2019.
AbstractIn recent decades, vascular surgery has seen the arrival of endovascular techniques for the treatment of vascular diseases such as aortic diseases (aneurysms, dissections, and atherosclerosis). The 3D printing process by addition of material gives an effector of choice to the digital chain, opening the way to the manufacture of shapes and complex geometries, impossible to achieve before with conventional methods. This chapter focuses on the bio-design study of the thoracic aorta in adults. A bio-design protocol was established based on medical imaging, extraction of the shape, and finally, the 3D modeling of the aorta; secondly, a bio-printing method based on 3D printing that could serve as regenerative medicine has been proposed. A simulation of the bio-printing process was carried out under the software Simufact Additive whose purpose is to predict the distortion and residual stress of the printed model. The binder injection printing technique in a Powder Bed Printer (PBP) bed is used. The results obtained are very acceptable compared with the results of the error elements found.
Mansouri K, Brioua M, Djebaili H, Ghelani L, Chitour M.
Effect of Broken Fiber on Stress Transfer of Short Fiber Reinforced Thermoplastic Matrix Composite. Journal of Nano-and Electronic Physics [Internet]. 2019;11 (4).
Publisher's Version Mebrek H, Ameddah H, Mansouri S.
The effect of the cutting conditions parameters on temperature by the Taguchi optimization method. The 7th International Conference on Advances in Mechanical Engineering and Mechanics ICAMEM 2019 Hammamet - December 16-18,. 2019.
Mebrek H, Amaddah H, Mansouri S.
The effect of the cutting conditions parameters on the temperature by the Taguchi optimization method. The 7eme International Conference on Advances in Mechanical Engineering and Mechanics ICAMEM 2019, December 16-18. 2019.
Ameddah H, Bettine F, Mazouz H.
Electromechanical Analysis (MEMS) of a Capacitive Pressure Sensor of a Neuromate Robot Probe. The First International Conference on Innovation in Biomechanics and Biomaterials (ICIBAB 2019), April 10-11,. 2019.
Ameddah H, Lounansa S, AMADJI M, Mazouz H.
Etude Numérique du Comportement des Endoprothèses Cardiovasculaires (Cas de Stent Biodégradable). The First International Conference on Innovation in Biomechanics and Biomaterials (ICIBAB 2019), April 10-11. 2019.
Rebiai C.
Finite element analysis of 2-D structures by new strain based triangular element. Journal of Mechanics [Internet]. 2019;35 (3).
Publisher's VersionAbstractIn this investigation, a new simple triangular strain based membrane element with drilling rotation for 2-D structures analysis is proposed. This new numerical model can be used for linear and dynamic analysis. The triangular element is named SBTE and it has three nodes with three degrees of freedom at each node. The displacements field of this element is based on the assumed functions for the various strains satisfying the compatibility equations. This developed element passed both patch and benchmark tests in the case of bending and shear problems. For the dynamic analysis, lumped mass with implicit/explicit time integration are employed. The obtained numerical results using the developed element converge toward the analytical and numerical solutions in both analyses.
Ameddah H, Lounansa S, Mazouz H.
Finite element analysis of fatigue behavior of the biodegradable stent. The 7th International Conference on Advances in Mechanical Engineering and Mechanics ICAMEM 2019 Hammamet - 16-18,. 2019.
Mezach F, Ameddah H, Mazouz H.
Minimisation des contraintes dans les prothèses totales de genou. The First International Conference on Innovation in Biomechanics and Biomaterials (ICIBAB 2019) , April 10-11. 2019.