Your search keyword '"Ghodrat Sepidnam"' showing total 5 results

1. Assessments Sqli and Xss vulnerability in several organizational websites of North khorasan in Iran and offer solutions to fix these vulnerabilities

Author

Fatemeh Talebzadeh Pirvadlu and Ghodrat Sepidnam

Subjects

Government, Engineering, business.industry, Private organization, Cross-site scripting, Internet privacy, Vulnerability, Web application, business, Computer security, computer.software_genre, User input, computer

Abstract

Vulnerabilities in web applications are due to various factors. Failure to properly validated user input is one of the factors that led to run unauthorized code in these programs. Sqli and Xss are two common vulnerabilities in web applications, That is due to lack of proper input validation. Therefore, in this paper we study how to protect organizational websites of north khorasan in iran against Sqli and Xss vulnerabilities. We have analyzed eleven websites. Ten of which related to government organizations and one of them is from private organization. These Web sites have been tested with licenses taken from the relevant organizations.

Published

2017

2. A REVIEW OF ARTIFICIAL FISH SWARM OPTIMIZATION METHODS AND APPLICATIONS

Author

Adel Najaran Toosi, Mehdi Sargolzaei, Mehdi Neshat, Ghodrat Sepidnam, Ali Adeli, Neshat, Mehdi, Adeli, Ali, Sepidnam, Ghodrat, Sargolzaei, Mehdi, and Toosi, Adel Najaran

Subjects

Optimization problem, swarm optimization, business.industry, Natural computing, Computer science, lcsh:T, Intelligent decision support system, natural computing, Swarm behaviour, Natural Computing, Swarm intelligence, lcsh:Technology, Control and Systems Engineering, Swarm Optimization, lcsh:Technology (General), Optimization methods, artificial fish swarm optimization, Social animal, lcsh:T1-995, En masse Movement, Artificial intelligence, Electrical and Electronic Engineering, Artificial Fish Swarm Optimization, business

Abstract

The Swarm Intelligence is a new and modern method employed in optimization problems. The Swarm Intelligence method is based on the en masse movement of living animals like birds, fishes, ants and other social animals. Migration, seeking for food and fighting with enemies are social behaviors of animals. Optimization principle is seen in these animals. The Artificial Fish Swarm Optimization (AFSA) method is one of the Swarm Intelligence approaches that works based on the population and stochastic search. Fishes show very intelligently social behaviors. This algorithm is one of the best approaches of the Swarm Intelligence method with considerable advantages like high convergence speed, flexibility, error tolerance and high accuracy. this paper review the AFSA algorithm, its evolution stages from the start point up to now, improvements and applications in various fields like optimization, control, image processing, data mining, improving neural networks, networks, scheduling, and signal processing and so on. Also, various methods combining the AFSA with other optimization methods like PSO, Fuzzy Logic, Cellular Learning Automata or intelligent search methods like Tabu search, Simulated Annealing, Chaos Search and etc.

Published

2012

3. Comparative study on fuzzy inference systems for prediction of concrete compressive strength

Author

Mehdi Neshat, Ali Adeli, Ghodrat Sepidnam, and Mehdi Sargolzaei

Subjects

Fuzzy inference, Aggregate (composite), business.industry, Fuzzy set, General Physics and Astronomy, Centroid, Structural engineering, Defuzzification, Field (computer science), Electronic, Optical and Magnetic Materials, Slump, Compressive strength, Statistics, business, Mathematics

Abstract

The aim of this comparative study is to evaluate the effects of different methods, used for ''aggregation'' and ''defuzzification'', on the output. To reach this goal, six fuzzy inference systems (FIS-1, FIS-2, FIS-3, FIS-4, FIS-5 and FIS-6) have been designed (with the same rule bases) with different methods used for aggregation, defuzzification, and overlapping between the fuzzy sets. The idea of this system is based on the UCI dataset. To design the systems, some of the input fields of UCI dataset have been replaced with other important fields that made system more applicable and suitable. All of these designed systems have the same input fields such as: Water/cement ratio, slump, maximum size of aggregate, coarse aggregate, fine aggregate and age (day). The output field of all systems measures the compressive strength of concrete. These three differences in 401 laboratory samples have caused the average error of predicted compressive strength, that is, 6.43% FIS-1, 6.64% FIS-2, 6.48% FIS-3, 5.56% FIS-4, 4.73% FIS-5 and 5.07% FIS-6. The experimental results reveal that the methods of "sum" and "Centroid" (used in the FIS-5) show the best results (among other methods) for the "aggregation" and the "defuzzification", respectively. Key words: Aggregation step, defuzzification step, concrete compressive strength (CCS), fuzzy inference system (FIS), W/C ratio, slump, maximum size of aggregate, coarse aggregate, fine aggregate, age.

Published

2012

4. Predication of concrete mix design using adaptive neural fuzzy inference systems and fuzzy inference systems

Author

Ghodrat Sepidnam, Mehdi Neshat, Mehdi Sargolzaei, Ali Adeli, Neshat, Mehdi, Adeli, Ali, Sepidnam, Ghodrat, and Sargolzaei, Mehdi

Subjects

Engineering, Adaptive neuro fuzzy inference system, Aggregate (composite), Fineness modulus, business.industry, Mechanical Engineering, Inference, Structural engineering, Fuzzy logic, Industrial and Manufacturing Engineering, Field (computer science), Computer Science Applications, Slump, Control and Systems Engineering, Layer (object-oriented design), business, Algorithm, concrete mix design, ANFIS, fuzzy expert system, fuzzy logic, water, cement, slump, fineness modulus (FM), CA, F.A, Software

Abstract

The aim of this study is to design adaptive neural-fuzzy inference system (ANFIS) model and fuzzy expert system for determination of concrete mix designs and finally compare their results. Idea of these systems based on two surveys: first, ACI structures and principles, second a concrete mix designs dataset that collected via Prof. I-Cheng Yeh. Datasets that loaded in to ANFIS has 552 mix designs and based on ACI mix designs. Moreover, in this study, we have designed fuzzy expert system. Input fields of fuzzy expert system are Slump, Maximum Size of Aggregate (D max), Concrete Compressive Strength (CCS), and Fineness Modulus. Output fields are quantities of water, cement, fine aggregate (F.A.) and coarse aggregate (C.A.). In the ANFIS model, we have four layers (four ANFIS models): the first layer takes values of D max and Slump and then determines the quantity of Water, the second layer takes values of Water (computed in the past layer) and CCS then measures the value of Cement, the third layer takes values of D max and Slump to compute C.A. and the fourth layer takes values of Water, Cement, and C.A. (determined in past layers) and then measures the value of F.A. When these systems were designed and tested, comparison between two systems (FIS and ANFIS) results showed that results of ANFIS model are better than fuzzy expert system's results. In the ANFIS model, for Water output field, training and average testing errors are 0.86 and 0.8. For cement field, training error and average testing error are in the orders of 0.21 and 0.22. Training and average testing error of C.A. are in the orders of 0.0001 and 0.0004 and finally, training and average testing errors of F.A. are in the orders of 0.0049 and 0.0063. Results of fuzzy expert system in comparison to ACI results follow average errors: average error of Water, Cement, C.A., and F.A. are in the orders of 9.5%, 27.6%, 96.5%, and 49%.

Published

2012

5. Utility Proportional Optimization Flow Control for Overlay Multicast

Author

Ghodrat Sepidnam, Baharan Mirzasoleiman, H. Shafiei, and Ali Jafari

Subjects

Flow control (data), Overlay multicast, Correctness, Deniable encryption, Deniable authentication, Third party, business.industry, Computer science, Iterative method, Electronic voting, business, Computer network

Abstract

A deniable authentication allows the receiver to identify the source of the received messages but cannot prove it to any third party. However, the deniability of the content, which is called restricted deniability in this paper, is concerned in electronic voting and some other similar application. At present, most non-interactive deniable authentication protocols cannot resist weaken key-compromise impersonation (W-KCI) attack. To settle this problem, a non-interactive identity-based restricted deniable authentication protocol is proposed. It not only can resist W-KCI attack but also has the properties of communication flexibility. It meets the security requirements such as correctness, restricted deniability as well. Therefore, this protocol can be applied in electronic voting.

Published

2009