701: INDUSTRIAL ORGANIZATION AND MANAGEMENT

Module 1

Organisation: Introduction, definition of organization, system approach applied to organization, necessity of organization, elements of organization, process of organization, principles of organization, formal and informal organization, organization structure, types of organization structure .Forms of business organization: Concept of ownership organization, types of ownership.Individual ownership, partnership, joint stock Company, private and public limited company, co-operative organizations, state ownership, public corporation

Module 2

Basic concept of management: Introduction, definitions of management, characteristics of management, levels of management, management skills Management theory: Scientific management, contribution of Gilbreth. Gantt, Neoclassical theory, modern management theories Functions of management: Planning, forecasting, organizing, staffing, directing,motivating, controlling, co-coordinating, communicating, decision making.

Module 3

Personnel management: Introduction, definition, objectives, characteristics, functions,principles and organization of personnel management Markets and marketing: Introduction, the market, marketing information, market segmentation, consumer and indusial markets, pricing, sales, physical distribution, consumer behaviour and advertisement.Financial management: the basics , financial accounts, inflation, profitability, budgets and controls, cost accounting, valuation of stock, allocation of overheads, standard costing ,marginal costing

Module 4

Productivity and production: Measurement of productivity, productivity index productivity improvement procedure Materials management and purchasing: Objectives, functions, importance of materials management. Stores and storekeeping Inventory control: Classification, functions, inventory models, inventory costs, EOQ,Materials requirement planning


EE 702 DESIGN ESTIMATION & COSTING

Module 1

Role of national electrical code in the design of electrical installation – electrical symbols and diagrams – design considerations of electrical installations – electric supply systems – protection and protective devices for electric installation against overload –short circuit and earth fault – electric services in building – service connections – service mains – reception and distribution of main supply – sub- circuits – neutral and earth wire– earth bus – guideline for installation of fittings – design and selection of bus bars and bus bar chambers –design, selection, layout, drawing and location of distribution boards and panel boards – control and switch gears – criteria for selection of HT and LT underground cables.

Module 2

Design of illumination schemes – various types of light sources – different types of lighting arrangement – energy efficiency in lamps and illumination – design considerations of good lighting schemes – design of lighting schemes for various purposes – lighting calculations – design of flood lighting and street lighting – electrical aspects and considerations for lifts, escalator services and standby generators – design and safety aspects of electrical installations for residential buildings, hospitals, hotels,recreational and assembly buildings and cinema theatre.

Module 3

Electrical installations of high rise buildings – design – schematic diagram – layout –estimation and testing of rising main – main supply board and distribution boards for high rise buildings including air conditioners and lift with provision for standby generators and its protection – lighting protection – electrical system design – estimation and costing of commercial buildings – design considerations of electrical installations in Industries – design, estimating and costing of electrical installations for small industries.

Module 4

Selection of EHV and HV power and distribution transformers and switchgears – case studies – design – layout – schematic diagram –estimation and costing – (a) 16MVA –110/11KV outdoor substation having one or two incoming and 8 or less outgoing – (b) 11KV/415V outdoor substations upto 630KVA – (c) 11KV/415V indoor substation upto 630KVA – (d) bus bar trunking above 630KVA – design of earthing system – earthmat design – design of plate and pipe earthing – shielding of electrical system.


EE 703 POWER SYSTEMS-II

Module 1

Representation of power system – one line diagrams – impedance and reactance diagrams – per unit and percent quantities – primitive and interconnected networks and their performance equations – y-bus and z- bus matrices and their formulation – effect of off nominal transformer on y-bus – load flow studies – problem formulation –classification of buses – gauss-seidal method – Newton Raphson method and fast decoupled load flow method – line loss computation – voltage dependency consideration in load modeling.

Module 2

Economic load dispatch – system constraints – economic dispatch of thermal plants neglecting line losses – optimum load dispatch including transmission line losses – exact transmission loss formula – automatic load dispatching – optimal load flow solution –speed governing mechanism – speed governing of turbo generator – load sharing and governor characteristics – transfer function model – load frequency – control of single and multi area systems – static analysis – automatic voltage regulation – IEEE type I excitation system transfer function model.

Module 3

Short circuit studies – faults on power systems – three phase to ground faults – SLGF –DLGF – LLF faults – sequence impedance and sequence network – symmetrical component methods of analysis of symmetrical and unsymmetrical faults at the terminals of an unloaded generator – fault analysis using z-bus phase shift in star – delta transformer banks – faults through impedance – short circuit capacity of a bus and circuit breaker rating.

Module 4

Power system stability studies – steady stage dynamic and transient stability – electrical stiffness – swing equation – inertia constant – equal area criterion applied to the case of a sudden change in mechanical power input – multi machine stability analysis using forward euler method – basic assumptions and algorithms – factors affecting stability –voltage stability problem – causes and mitigation methods – introduction to HVDC and flexible ac transmission (FACTS) systems.


EE 704 CONTROL SYSTEMS II

Module 1

Non-linear systems Characteristics Phase plane analysis liberalization and stability of equilibrium points. Isocline and delta method. Limits cycles of phase plane- stability of limit cycles. Bendixson’s criteria.

Module 2

Describing function methods and stability of non-linear systems, Harmonic linearisation,describing function method, filter hypothesis- describing function for single valued and double valued non – linear elements- Limit cycles amplitude and frequency- Stability of non-linear systems. Lyapunov’s method for non-linear systems. Popov’s criterion.

Module 3

Discrete time systems, sampling theorem, hold circuits and data reconstruction- z transforms, inverse z transforms, pulse transfer- state variables description of discrete time systems- time domain analysis, stability using Jury’s test and Lyapunov’s method.

Module 4

Elements of stochastic control- stochastic processes- autocorrelation and cross correlation, power spectral density, ergodicity – Gauss, Markov processes- Wiener filter,introduction to Kalman filter and state estimation.


EE 705(A) COMPUTER COMMUNICATIONS

Module 1

Introduction to computer networks – Types of Networks - Layered architecture- OSI reference model, TCP/IP reference model –Internet Protocol Stack – Network Entities in Layers- Connection oriented and Connection less services. Transmission media -description and characteristics - base band and broad band transmission - synchronous and asynchronous transmission - full duplex and half-duplex links. MODEMS serial communication standards - X-21 digital interface.X.25 Networks.

Module 2

Need for data link layer - Error detection and correction Techniques- Elementary data link layer protocols-sliding window protocols - Multiple Access protocols -Random Access protocols: ALOHA-CSMA and CSMA/CD. Terminal handling - polling,multiplexing and concentration. Local area Network: LAN addresses- Address Resolution Protocol-Reverse Address Resolution Protocol. Ethernet: Ethernet Technologies-IEEE standards- Hubs-Bridges and Switches.

Module 3

Network Layer: Virtual circuits and data grams -Datagram and Virtual circuit service-Routing - different types of congestion control – IP protocol – Subnets – Multicasting -Network layer in ATM.Transport layer – Transport layer services - design issues – Elements of transport Layer– Internet Transport Protocols (TCP and UDP).

Module 4

Session layer - design issue - data exchange – dialogue management - synchronisation -remote procedure call - client server model.Application layer - network security and privacy - cryptography – Domain Name System (DNS)- SMTP – SNMP - virtual terminal and file transfer protocols - electronic mail -WWW and HTTP.


EE 705(B) HIGH VOLTAGE DC TRANSMISSION

Module 1

DC power transmission – comparison of AC and DC transmission – Economics of Power transmission – Technical performance – Advantages and disadvantages of DC transmission – Reliability – Application of DC transmission. Types of DC links.Converter Station – Converter Units. Planning for HVDC transmission – Choice of voltage level –Modern trends in DC transmission.Thyristor valve – valve firing – valve design consideration – Grading and damper circuit design – valve protection. Valve tests – Dielectrical and operational tests.

Module 2

HVDC Converters – Analysis, Pulse number. Choice of Converter configurati– valve rating – transformer rating .Graetz circuits (simplified analysis only) - with and without overlap. Analysis of 2&3 valve conduction mode and 3 &4 valve conduction mode . Converter bridge characteristics – Rectifier and Inverter characteristics of a 6 pulse and 12 pulse converter.

Module 3

Principles of DC link control. Converter control characteristics – modification of control characteristics – system control hierarchy- firing angle control- individual phase control – equidistant pulse control. Current and extinction angle control. Starting and stopping of Dc link – power control. Stabilization of AC ties. Converter faults and protection – Converter faults, protection against over current and voltages in a converter station – Surge arrestor- protection against over voltage.

Module 4

Smoothing reactors – DC lines – DC line insulators – DC breakers – basic concept, characteristics, types and applications. Sources of reactive power- static VAR systems- Thyristor controlled reactor – Types of AC filters (Basic concept only)- DC filters – Carrier frequency and RI noise. Multiterminal DC system –Potential.Application and type. Modeling of DC network.


EE 705(C) NEURAL NETWORK AND FUZZY LOGIC

Module 1

Introduction to artificial neural networks – biological neurons – Mc Culloch and Pitts modals of neuron – types of activation function – network architectures – knowledge representation learning process – error-correction learning – supervised learning –unsupervised learning – single unit mappings and the perceptron – perceptron convergence theorem (with out proof) – method of steepest descent – least mean square algorithms – adaline/medaline units – multilayer perceptrons – derivation of the backpropagation algorithm.

Module 2

Radial basis and recurrent neutral networks – RBF network structure – covers theorem and the separability of patterns – RBF learning strategies – K-means and LMS algorithms – comparison of RBF and MLP networks – recurrent networks – Hopfield networks – energy function spurious states – error performance – simulated annealing –the Boltzman machine – Boltzman learning rule – the mean field theory machine – MFT learning algorithm – applications of neutral network – the XOR problem - traveling salesman problem – image compression using MLPs – character retrieval using Hopfield networks.

Module 3

Fuzzy logic – fuzzy sets – properties – operations on fuzzy sets – fuzzy relations –operations on fuzzy relations – the extension principle – fuzzy measures – membership functions – fuzzification and defuzzification methods – fuzzy controllers – Mumdani and Sugeno types – design parameters – choice of membership functions – fuzzification and defuzzification methods – applications.

Module 4

Introduction to genetic algorithm and hybrid systems – genetic algorithms – natural evolution – properties – classification – GA features – coding – selection – reproduction– cross over and mutation operators basic GA and structure Introduction to Hybrid systems – concept of neuro-fuzzy and neuro-genetic systems.


Module 1

Introduction, optimal control problem, formulation, performance measures for optimal control problems.

Module 2

Calculus of variations- fundamental concepts, functional of single function, Eulerlanguage equation. Transversality conditions, vector case with various boundary conditions, Piecewise, smooth extremals, constrained extremisation of functional.

Module 3

Variational approach to optimal control problems. Necessary conditions for optimal control with different boundary conditions. Linear regulator problem, Tracking problems, pontryagin minimum principle, state in equality constrains, minimum time problems, minimum control effort problems.

Module 4

Dynamic programming, principle of optimality, application to multistage decision making, optimal control example, Recurrence relation of dynamic programming, curse of dimensionality, discrete linear regulator problem, Heamilton-Jacobi Bellman equation, continuous linear regulator problems.