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    The Impact of Human Capital on Labour Productivity in Manufacturing Sectors of Iran

    , M.Sc. Thesis Sharif University of Technology Narimani, Meysam (Author) ; Sepahvand, Mehrdad (Supervisor)
    Abstract
    This research has been surveyed the impact of intermediate skilled and high skilled human labor force on the productivity of manufacturing sectors by the Nelson & Phelps and also Lucas approaches. first model is related to the level of productivity and the second model is related to the growth of it. We has been prepared the needed statistics from the raw figures of iran statistics center. regression analysis has been done on the basis of panel data model by the use of stata software. the results show that not good efficiency to optimize technology factor of Cobb-Douglas model although it shows higher marginal labor productivity of high skilled human labor force. we has proposed some... 

    Development of a wearable measuring system for respiratory plethysmography

    , Article Proceedings of the 8th IASTED International Conference on Biomedical Engineering, Biomed 2011, 16 February 2011 through 18 February 2011 ; February , 2011 , Pages 295-299 ; 9780889868663 (ISBN) Mokhlespour, M. I ; Ramezanzadeh, M ; Narimani, R
    2011
    Abstract
    Assessment of respiratory volume is widely used in clinical application in order to assess the case of respiratory illness, and the progression of the respiratory syndrome. Respiratory plethysmography is used to determine the changes of chest volume to monitor the breathing. A wearable respiration measuring system has been introduced for detection of volume variations of chest. The system consists of a flexible sensor, stretchable cloth and electrical board. The flexible sensor, whose electrical voltage is produced by body movements, is installed inside the shirt and closely contacts the chest. The low frequency components of body movements recorded by the sensor are mainly generated by... 

    A survey and improvement on Protein Sequence Alignment using Evolutionary Algorithms

    , M.Sc. Thesis Sharif University of Technology Narimani, Zahra (Author) ; Abolhassani, Hassan (Supervisor)
    Abstract
    Protein multiple sequence alignment is one of important problems in biology which no polynomial time algorithms is known for it yet. Due to importance of this problem, several methods have been developed to find an approximate solution for it. Approximation algorithms, Evolutionary algorithms and Probabilistic methods are some of these methods. According to evolutionary nature of this problem, evolutionary algorithms and specifically genetic algorithms can be a potential good solution method for this problem. In this project we have a survey on using genetic algorithms for this problem and after mentioning benefits and draw backs of existing methods, we develop a method for improving one of... 

    Aeroelastic Modeling and Stability Analysis of a Flapping Wing with Unsteady Aerodynamic Approach

    , M.Sc. Thesis Sharif University of Technology Narimani, Mehrdad (Author) ; Pourtakdoost, Hossein (Supervisor)
    Abstract
    At this project we proceed to aero elastic modelling of a flapping wing using unsteady aerodynamic approach. Solving this model according to aerodynamic and structure coupling needs to simultaneously solve of aerodynamic and wing structure. Left side and right side of wing, each on divided into 18 elements. each element is interacting with sides element in terms of structural force and moment. In this modeling aerodynamic was modeling with unsteady aerodynamic approach (using modify theodersen function), also structure is flexible in to direction, bending and twisting. In the following it is proved that with change in flapping pattern better performance can be achieved. the effect of change... 

    Scientific and Philosophical Challenges of Theory of Evolution

    , M.Sc. Thesis Sharif University of Technology Narimani, Nima (Author) ; Azadegan, Ebrahim (Supervisor)
    Abstract
    This dissertation consists of three chapters. In the first chapter, a description of formation of Darwin's theory of Evolution is expressed. After that, the process of formation of modern theory of Evolution, along with an explanation of the theory of evolution and the evidence for it was mentioned. In the second season, which is responsible for the scientific study of the theory, at some point the evidence of this theory has been reviewed. After that, some of the challenges raised against this theory have been studied. The major scientific challenges described in this chapter is based on recent advances made in biology, based on that, the mechanism of theory can’t explain the complex... 

    Three-dimensional primary and coupled range of motions and movement coordination of the pelvis, lumbar and thoracic spine in standing posture using inertial tracking device

    , Article Journal of Biomechanics ; Volume 69 , March , 2018 , Pages 169-174 ; 00219290 (ISSN) Narimani, M ; Arjmand, N ; Sharif University of Technology
    Elsevier Ltd  2018
    Abstract
    Evaluation of spinal range of motions (RoMs) and movement coordination between its segments (thorax, lumbar, and pelvis) has clinical and biomechanical implications. Previous studies have not recorded three-dimensional primary/coupled motions of all spinal segments simultaneously. Moreover, magnitude/direction of the coupled motions of the thorax/pelvis in standing posture and lumbopelvic rhythms in the frontal/transverse planes have not been investigated. This study, hence, used an inertial tracking device to measure T1, T5, T12, total (T1-T12) thoracic, lower (T5-T12) and upper (T1-T5) thoracic, lumbar (T12-S1), and pelvis primary and coupled RoMs as well as their movement coordination in... 

    A new genetic algorithm for multiple sequence alignment

    , Article International Journal of Computational Intelligence and Applications ; Volume 11, Issue 4 , December , 2012 ; 14690268 (ISSN) Narimani, Z ; Beigy, H ; Abolhassani, H ; Sharif University of Technology
    2012
    Abstract
    Multiple sequence alignment (MSA) is one of the basic and important problems in molecular biology. MSA can be used for different purposes including finding the conserved motifs and structurally important regions in protein sequences and determine evolutionary distance between sequences. Aligning several sequences cannot be done in polynomial time and therefore heuristic methods such as genetic algorithms can be used to find approximate solutions of MSA problems. Several algorithms based on genetic algorithms have been developed for this problem in recent years. Most of these algorithms use very complicated, problem specific and time consuming mutation operators. In this paper, we propose a... 

    A comprehensive analysis on the resilience of adiabatic logic families against transient faults

    , Article Integration ; Volume 72 , May , 2020 , Pages 183-193 Narimani, R ; Safaei, B ; Ejlali, A ; Sharif University of Technology
    Elsevier B.V  2020
    Abstract
    With the emergence of various battery operated technologies in different computing domains and the challenge of heating in such technologies, the issue of energy dissipation has become more critical than ever before. In such systems, energy constraints in one hand, and heat generation, on the other hand, necessitates the employment of energy efficient technologies in the fabrication of digital circuits. One possible solution for mitigating the energy dissipation in digital circuits is the use of adiabatic families in the process of designing computing devices. Adiabatic circuits are designed mainly based on the principles of thermodynamics and provide a paradigm shift in the design of... 

    A low-waste reliable adiabatic platform

    , Article Computers and Electrical Engineering ; Volume 89 , 2021 ; 00457906 (ISSN) Narimani, R ; Safaei, B ; Ejlali, A ; Sharif University of Technology
    Elsevier Ltd  2021
    Abstract
    Given the importance of reducing energy consumption and the challenge of heat generation in classic CMOS circuits, adiabatic circuits are believed as an appropriate alternative. Most of the adiabatic circuit families come with a dual-rail structure, which provides them with an inherent hardware redundancy. Although this redundancy could be used for improving their reliability, no studies have been previously conducted to exploit this feature. In this regard, in this paper, we show that by exploiting the inherent hardware redundancy in adiabatic circuits, their reliability could be improved, while imposing a relatively low amount of energy overhead. Subsequently, with utilizing the outcome... 

    Preliminary Investigation of Active Control of a Flared Folding Wingtip using Model Predictive Control

    , M.Sc. Thesis Sharif University of Technology Narimani, Mohammad Hossein (Author) ; Pourtakdoust, Hossein (Supervisor)
    Abstract
    One of the ways to optimize fuel consumption and improve aircraft performance can be realized by reducing drag, and a major part of this force is the lift-induced drag, which is reduced by increasing the wing span. On the other hand, increasing the wingspan has physical limitations on the allowed dimensions of the aircraft, increasing the weight and reducing the maneuverability of the aircraft, especially in the roll maneuver. Therefore, in order to benefit from the advantages of increasing the wing span and not facing the mentioned limitations, the idea of using a Folding Wing-Tip (FWT) has been proposed by aircraft manufacturing companies and experts. In this way, in normal flight such as... 

    Flight envelope expansion in landing phase using classic, intelligent and adaptive controllers [electronic resource]

    , Article Journal of aircraft ; 2006, Vol. 43, No. 1 Malaek .S. M. B ; Izadi, Hojjat Allah ; Pakme, Mehrdad
    Abstract
    An expanding flight envelope in the landing phase of a typical jet transport aircraft in presence of strong wind shears using a learning capable control system (LCCS) is investigated. The idea stems fromhuman beings functional architecture that gives them the ability to do more as they age and gain more experience. With the knowledge that classical controllers lack sufficient generality to cope with nonlinear as well as uncertain phenomenon such as turbulent air, the focuse is on different types of intelligent controllers due to their learning and nonlinear generalization capabilities as candidates for the landing flight phase. It is shown that the latter class of controllers could be used... 

    Optimal Design of the Heliostat Field in the Solar Central Receiver Systems

    , M.Sc. Thesis Sharif University of Technology Piroozmand, Pasha (Author) ; Boroushaki, Mehrdad (Supervisor)
    Abstract
    In a solar central system plant about 40% of energy losses occurs in the heliostat field. Furtheremore, half of the investment costs for construction of the plant is related to the heliostat field. Therefore, an optimal design of the heliostat field is necessary for reduction of levelized cost of energy in solar tower power plants. In this study, in order to optimally design the heliostat field, first energy performance of the helistat field in one year is simulated. Solar power and sun’s position at each moment of the day is determined by mathematical relations. Then, loss factors in the field are modelled and heliostat field layout is designed by an algorithm. Finally, by using PSO... 

    Modeling and Optimal Design of a Solar Chimney Power Plant

    , M.Sc. Thesis Sharif University of Technology Gharagozlou, Ali (Author) ; Boroushaki, Mehrdad (Supervisor)
    Abstract
    The power generation system of this type of power plants operates on the air flowing through the power plant’s chimney and colliding with the turbine blades within the chimney. When the solar collector warms the nearby air and thus expands the air by absorbing the sunlight, a difference is created in the density. Then, this difference in the density creates the phenomenon of buoyancy, making the air pass to the top of the chimney through the collector.This study simulated and optimized a solar chimney power plant. The simulation and optimization were performed based on the information of Manzanares Solar Chimney Power Plant in Spain (located in 150 km from the south of Madrid). It was... 

    An efficient graphyne membrane for water desalination

    , Article Polymer ; Volume 175 , 2019 , Pages 310-319 ; 00323861 (ISSN) Mehrdad, M ; Moosavi, A ; Sharif University of Technology
    Elsevier Ltd  2019
    Abstract
    Desalination of sea saline water seems a successful solution to supply clean water. For desalination, novel nanoporous membranes have been proposed as a substitute for the classic reverse osmosis (RO) membranes. The one-atom-thick graphyne membrane has shown great potential in water desalination. By applying functional groups (FGs) into the pores of the monolayer graphyne membranes, the water permeability and the ion rejection were passively increased. The effects of applying various FGs such as Hydrogen, Fluorine, Carboxyl and Amine, effect of the salt concentration, the applied pressure, and the effective diameter of the graphyne pores were determined by molecular dynamics (MD)... 

    Intelligent Control of Hybrid Vehicles based on the Simultaneous Optimization of Fuel Consumption and Pollution Emission

    , M.Sc. Thesis Sharif University of Technology Mamouri, Ali (Author) ; Boroushaki, Mehrdad (Supervisor)
    Abstract
    The issue under discussion in this paper is to optimize the fuel consumption of the Toyota Prius hybrid car. In order to solve this problem, the ADVISOR design model used by NREL in the Matlab / Simulink environment has been used. Various parts of this model are described. The optimization performed on this issue is based on the emotional controller. This controller works by simulating learning in animals based on encouraging and punishing them. With the introduction of the controller, the model and its inclusion in the fuel consumption control and its implementation have achieved good results. In the initial state and the controller in the model, the fuel consumption was 4.9 liters per 100... 

    Simulation and Multi-Objective Optimization of a Solar Micro CCHP Using Intelligent Techniques

    , M.Sc. Thesis Sharif University of Technology Younesi, Ali (Author) ; Boroushaki, Mehrdad (Supervisor)
    Abstract
    Today, due to the scarcity of fossil energy resources, security of energy supply, and increasing environmental concerns, we need to develop new technologies to promote energy-saving and reduce greenhouse gas emissions. One of the suitable options for this purpose is to use the simultaneous production of electric power, cooling, and heating. Meanwhile, trigeneration systems that provide part of their energy needs from the sun, due to the free solar energy source and low environmental impact, can be an ideal technology for clean and safe scattered production. The present study has suggested a trigeneration system of cooling, heating, and power generation based on the organic Rankin cycle and... 

    Optimal Design of Induction MHD Generator for Electrical Power Generation from Exhaust of the Gas Turbine Power Plants

    , M.Sc. Thesis Sharif University of Technology Barzegar, Iran (Author) ; Boroushaki, Mehrdad (Supervisor)
    Abstract
    Today, due to increasing electricity consumption and demand, the use of conventional systems such as thermal, hydro and nuclear power plants is not enough to convert energy. Over the past century, scientists have sought to discover new technologies for exploiting different forms of energy and converting them into high-efficiency electrical energy. One of these ways is to use the phenomenon of magnetohydrodynamics (magnetic fluid dynamics) to convert thermal energy directly into electrical energy. Magnetohydrodynamics is a theoretical field that studies the dynamics of fluids with electrical conductivity. Induction magneto-hydrodynamic generators use ionized hot plasma (a quasi-neutral gas of... 

    Active Control of Drag Force in Automobile in Order to Reduce Fuel Consumption

    , M.Sc. Thesis Sharif University of Technology Mehrafsar, Moein (Author) ; Boroushaki, Mehrdad (Supervisor)
    Abstract
    In this thesis, an attempt has been made to provide a smart and innovative system to optimize fuel consumption in cars by using the combination of engineering sciences, aerospace, and machine learning. Considering the current challenges of societies, the economic importance of saving fuel, as well as recent developments in the fields of machine learning and reinforcement learning, this research tries to improve the performance of cars in order to minimize the air resistance force of car bodies. In this regard, deep neural networks have been used to learn the dynamics of aerodynamic forces and reinforcement learning algorithms, especially DDPG (Deep Deterministic Policy Gradient), have been... 

    Analysis of Creep Behavior and Stability of Underground Fuel Storage in Rock Salt

    , M.Sc. Thesis Sharif University of Technology Narimani, Mohammad Ali (Author) ; Sadaghiani, Mohammadhosein (Supervisor)
    Abstract
    The purpose of this study is to analyze the stability and creeping behavior of rock salt in underground gas and oil reservoirs. Preparation of natural salt caverns and operating them can manipulate the initial state of previously existed stress and to produce deviatoric stresses around the cavern. New state of stress and with creeping behavior of rock salt, causes a significant decrease in cavern’s volume and damages the surrounding area. Reduction of internal minimum pressure of cavern, increases the intensity of mentioned problems. Geometrical characteristics of cavern can also be significantly effective in the magnitude of damages around the reservoir. For instance, Deflection of cavern... 

    Vibration measurment and analysis using image processing method

    , Article Proceedings of the 7th Biennial Conference on Engineering Systems Design and Analysis - 2004, Manchester, 19 July 2004 through 22 July 2004 ; Volume 2 , 2004 , Pages 513-518 ; 0791841731 (ISBN); 9780791841730 (ISBN) Narimani, R ; Abadpour, A ; Hoviattalab, M ; Yadolahi, A ; Sharif University of Technology
    2004
    Abstract
    A large number of people are exposed to whole body vibration in their occupational life. Measuring vibration is an important tool in rehabilitation and biomechanical fields of research. We have proposed image processing as a new method to record and determine the frequency response of human body. The arranged set up for forced vibration consisted of an AC motor, a variable speed drive unit and a shaking table for producing one directional sinusoidal vibration. Volunteers were asked to stand on the shaking table at a relaxed posture. Two digital camcorders were used to capture the motion of colored pencil-dot markers on the skin of human body (forehead) and on the edge of the shaking table....