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Compulsory
Course Section 1MST01 - Advanced Mathematics Review of fundamental concepts Ordinary differential equations Linear differential equations Laplace transforms Vector analysis Multiple, line and surface integrals and integral theorems Fourier series Fourier integrals Gamma, Beta and other special functions Bessel functions Legendre functions and other orthogonal functions Complex variables and conformal mapping Complex inversion formula for Laplace transforms Matrices Calculus of variations 1MLM01 - Advanced Strength and Applied Stress Analysis Basic concepts of force, stress, strain and displacement Stress and strain, Transformations, equilibrium and compatibility Review of the fundamental formulations of stress, strain and deflection Concepts from the theory of elasticity Topics from advanced mechanics Energy techniques in stress analysis Strength, failure modes and design considerations Experimental stress analysis Introduction to the finite element method Finite element modeling techniques References 1MLM04 - Probability and Statistics for Engineers Data analysis Probability theory Discrete random variables and their distribution functions Continuous random variables and their distribution functions Multivariable probability distributions Sampling distribution theory Point and interval estimation Inference about population means Inference about population proportions Linear regression and correlation Multiple linear regression Single-factor experiments - analysis of variance Design and analysis of multifactor experiments Statistical quality control. 2. Optional Course Section 1 Select one course from - 1MST91 - Fundamental Principles of Systems Analysis and Decision Making The systems approach The principles of linear programming Linear and network models Capital investment analysis Risk System performance Variability Model calibration References 1MST92 - Construction planning For Engineers Introduction to program planning The planning process Decision making Introduction to project planning Critical path methods Stochastic networks Resource analysis Introduction to activity planning Planning for equipment-driven activities Planning for labor-driven activities References 1MST93 - Professional Construction Management Management in the engineering and construction industry Development and organization of projects Applications and requirements for management organizations Introduction to an example project Pre-construction site investigation, planning, scheduling, estimating and design Bidding and award Construction Application of controls Selecting a construction manager Concepts of project planning and control Estimating and control of operations and resources Cost engineering Procurement Value engineering Quality assurance Safety and health in construction Risk management, insurance, bonding, liens and licensing Industrial relations Current state of art of professional construction management. 3. Optional Course Section 2 Select one course from - 1MCT01- Hydraulic Structure Design Introduction Dam engineering Elements of dam engineering Embankment dam engineering Dam outlet works Concrete dam engineering Dam outlet works Energy dissipation Gates and valves Dam safety Other hydraulic structures River engineering Diversion works Cross-drainage and drop structures Inland waterways Hydroelectric power development Pumping stations Waves and offshore engineering Coastal engineering Models in hydraulic engineering References and tables 1MCT02 - Design of Modern Steel Bridges Types and history of steel bridges Types and properties of steel Loads on bridges Aims of design Rolled beam and plate girder design Stiffened compression flanges of box and plate girders Cable-stayed bridges References 1MST94 - Transportation Planning and Design The transport system Administrative structure and finance Operational and vehicular characteristics Human factors in transportation An introduction to transportation planning Transportation modeling Development and evaluation of transportation planning options Design roadways, railways and guide-way systems - location and route layout Airport planning and layout The airport passenger terminal area Introduction to water transportation Planning and design of harbors References 4. Optional Course Section 3 Select one course from - 1MLM10 Engineering Economy Foundations of engineering economy Factors - how time and interest affect money Combining factors Present worth analysis Annual worth analysis Rate of return analysis - single alternative Rate of return analysis - multiple alternatives Benefit/cot analysis and public sector economics Making choices - the method, MARR and multiple attributes Making decisions on real-world projects Selection from independent projects under budget limitation Breakeven analysis Effects of inflation Cost estimation and indirect cost allocation depreciation methods After-tax economic analysis Formalized sensitivity analysis and expected value decisions More on variation and decision making under risk References 1MCT04 - Earth Quake Engineering and Protection Single-degree of freedom systems: Equations of motion, problem statement and solution methods Free vibration Response to harmonic and periodic excitation Multi-degrees of freedom Systems: Equations of motion, problem Free vibrations Earthquake response of linearly elastic buildings Earthquake response of inelastic buildings Earthquake response of base-isolated buildings Structural dynamics in building codes References 1MCT05 - Civil Structural Reliability Analysis Introduction Random variables Functions of random variables Simulation techniques Structural safety analysis Design codes Structural load models Models of resistance System reliability Human Error-models |
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