Publications

2015
Hamdiken N, Addaci R, FORTAKI T, Strungaru R, Ungureanu M. Fast Accurate Analysis And Modeling Of Multi-Antenna Systems In The [1.75-3.65 Ghz] Frequency Band. UNIVERSITY POLITEHNICA OF BUCHAREST SCIENTIFIC BULLETIN SERIES C-ELECTRICAL ENGINEERING AND COMPUTER SCIENCEUNIVERSITY POLITEHNICA OF BUCHAREST SCIENTIFIC BULLETIN SERIES C-ELECTRICAL ENGINEERING AND COMPUTER SCIENCE. 2015;77 :305-312.
Hamdiken N, Addaci R, FORTAKI T, Strungaru R, Ungureanu M. Fast Accurate Analysis And Modeling Of Multi-Antenna Systems In The [1.75-3.65 Ghz] Frequency Band. UNIVERSITY POLITEHNICA OF BUCHAREST SCIENTIFIC BULLETIN SERIES C-ELECTRICAL ENGINEERING AND COMPUTER SCIENCEUNIVERSITY POLITEHNICA OF BUCHAREST SCIENTIFIC BULLETIN SERIES C-ELECTRICAL ENGINEERING AND COMPUTER SCIENCE. 2015;77 :305-312.
Hamdiken N, Addaci R, FORTAKI T, Strungaru R, Ungureanu M. Fast Accurate Analysis And Modeling Of Multi-Antenna Systems In The [1.75-3.65 Ghz] Frequency Band. UNIVERSITY POLITEHNICA OF BUCHAREST SCIENTIFIC BULLETIN SERIES C-ELECTRICAL ENGINEERING AND COMPUTER SCIENCEUNIVERSITY POLITEHNICA OF BUCHAREST SCIENTIFIC BULLETIN SERIES C-ELECTRICAL ENGINEERING AND COMPUTER SCIENCE. 2015;77 :305-312.
Hamdiken N, Addaci R, FORTAKI T, Strungaru R, Ungureanu M. Fast Accurate Analysis And Modeling Of Multi-Antenna Systems In The [1.75-3.65 Ghz] Frequency Band. UNIVERSITY POLITEHNICA OF BUCHAREST SCIENTIFIC BULLETIN SERIES C-ELECTRICAL ENGINEERING AND COMPUTER SCIENCEUNIVERSITY POLITEHNICA OF BUCHAREST SCIENTIFIC BULLETIN SERIES C-ELECTRICAL ENGINEERING AND COMPUTER SCIENCE. 2015;77 :305-312.
Hamdiken N, Addaci R, FORTAKI T, Strungaru R, Ungureanu M. Fast Accurate Analysis And Modeling Of Multi-Antenna Systems In The [1.75-3.65 Ghz] Frequency Band. UNIVERSITY POLITEHNICA OF BUCHAREST SCIENTIFIC BULLETIN SERIES C-ELECTRICAL ENGINEERING AND COMPUTER SCIENCEUNIVERSITY POLITEHNICA OF BUCHAREST SCIENTIFIC BULLETIN SERIES C-ELECTRICAL ENGINEERING AND COMPUTER SCIENCE. 2015;77 :305-312.
Zellagui M, Hassan HA, Chaghi A. Fault Location Effect on Short-Circuit Calculations of a TCVR Compensated Line in Algeria. International Journal of Electrical and Computer Engineering (IJECE)International Journal of Electrical and Computer Engineering (IJECE). 2015;5, No. 1 :1-12.
Zellagui M, Hassan HA, Chaghi A. Fault Location Effect on Short-Circuit Calculations of a TCVR Compensated Line in Algeria. International Journal of Electrical and Computer Engineering (IJECE)International Journal of Electrical and Computer Engineering (IJECE). 2015;5, No. 1 :1-12.
Zellagui M, Hassan HA, Chaghi A. Fault Location Effect on Short-Circuit Calculations of a TCVR Compensated Line in Algeria. International Journal of Electrical and Computer Engineering (IJECE)International Journal of Electrical and Computer Engineering (IJECE). 2015;5, No. 1 :1-12.
Ouazraoui N, Bourareche M, Nait-Said R. Fuzzy modelling of uncertain data in the layers of protection analysis. 2015 International Conference on Industrial Engineering and Operations Management (IEOM). 2015 :1-6.
Ouazraoui N, Bourareche M, Nait-Said R. Fuzzy modelling of uncertain data in the layers of protection analysis. 2015 International Conference on Industrial Engineering and Operations Management (IEOM). 2015 :1-6.
Ouazraoui N, Bourareche M, Nait-Said R. Fuzzy modelling of uncertain data in the layers of protection analysis. 2015 International Conference on Industrial Engineering and Operations Management (IEOM). 2015 :1-6.
MCHEBILA, INNAL F. Generalized analytical expressions for safety instrumented systems&⋕39; performance measures: PFDavg and PFH”. Journal of Loss Prevention in the Process IndustriesJournal of Loss Prevention in the Process Industries. 2015;34 :167-176.Abstract
Safety Instrumented Systems (SIS) constitute an indispensable element in the process of risk reduction for almost all of nowadays’ industrial facilities. The main purpose of this paper is to develop a set of generalized and simplified analytical expressions for two commonly employed metrics to assess the performance of SIS in terms of safety integrity, namely: the Average Probability of Failure on Demand (PFDavg) and the Probability of Dangerous Failure per Hour (PFH). In addition to the capability to treat any K-out-of-N architecture, the proposed formulas can smoothly take into account the contributions of Partial Stroke Testing (PST) and Common Cause Failures (CCF). The validity of the suggested analytical expressions is ensured through various comparisons that are carried out at different stages of their construction.
MCHEBILA, INNAL F. Generalized analytical expressions for safety instrumented systems&⋕39; performance measures: PFDavg and PFH”. Journal of Loss Prevention in the Process IndustriesJournal of Loss Prevention in the Process Industries. 2015;34 :167-176.Abstract
Safety Instrumented Systems (SIS) constitute an indispensable element in the process of risk reduction for almost all of nowadays’ industrial facilities. The main purpose of this paper is to develop a set of generalized and simplified analytical expressions for two commonly employed metrics to assess the performance of SIS in terms of safety integrity, namely: the Average Probability of Failure on Demand (PFDavg) and the Probability of Dangerous Failure per Hour (PFH). In addition to the capability to treat any K-out-of-N architecture, the proposed formulas can smoothly take into account the contributions of Partial Stroke Testing (PST) and Common Cause Failures (CCF). The validity of the suggested analytical expressions is ensured through various comparisons that are carried out at different stages of their construction.
BEDRA S, FORTAKI T. Hankel transform domain analysis of covered circular microstrip patch printed on an anisotropic dielectric layer. Journal of Computational ElectronicsJournal of Computational Electronics. 2015;14 :747-753.
BEDRA S, FORTAKI T. Hankel transform domain analysis of covered circular microstrip patch printed on an anisotropic dielectric layer. Journal of Computational ElectronicsJournal of Computational Electronics. 2015;14 :747-753.
Mébarki G, RAHAL S. Heat transfer coefficient characterization at the solar collector wall-fluid interface. 2015.
Mébarki G, RAHAL S. Heat transfer coefficient characterization at the solar collector wall-fluid interface. 2015.
Mebarki G, RAHAL S, H. Madani. Heat transfert Coefficient Characterization At the Solar Wall-Fluid Interface.; 2015.
Mebarki G, RAHAL S, H. Madani. Heat transfert Coefficient Characterization At the Solar Wall-Fluid Interface.; 2015.
Mebarki G, RAHAL S, H. Madani. Heat transfert Coefficient Characterization At the Solar Wall-Fluid Interface.; 2015.

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