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AZƏRBAYCAN RESPUBLİKASI TƏSİL NAZİRLİYİ
AZƏRBAYCAN TEXNİKİ UNIVERSİTETİ
«İnformasiya texnologiyaları və proqramlaşdırma»
kafedrası
Course Descriptions for a Undergraduate program in Systems Engineering
050655-Sistem mühəndisliyi ixtisası üzrə bakalavriat proqramına aid fənlərin
DİDAKTİKA VAHİDLƏRİ
Bakı-2016
Course Descriptions for a Undergraduate proqram in Systems Engineering
Azerbaijan Technical University (Department: “Information technologies and programming”)
Mündəricat Content Humanitar fənnlər bölümü Humanities and Social Sciences
HF – B01 Azərbaycan tarixi History of Azerbaijan
HF – B02 Xarici dil Foreign language
HF – B03 Azərbaycan dili və nitq mədəniyyəti Technical & Professional Communication
HF – B04 Seçmə fənnlər: General Elective
HF – B04 .1 Fəlsəfə Philosophy (Leadership Models & Practices)
HF – B04.2 İqtisadiyyat Engineering Economics
İxtisas-peşə hazirliği fənnləri Major Core Courses
İPF – B01 Riyaziyyat Mathematics
İPF – B02 Fizika General Physics
İPF – B03 Ehtimal və statistika Statistics and Probability
İPF – B04 Qərar qəbuletmə modelləri Decision Models
İPF – B05 Elektrotexnikanın əsasları Fundamentals of Electrical Engineering
İPF – B06 Elektronikanın əsasları Fundamentals of Electronic
İPF – B07 İnformasiya texnologiyaları Information Technology
İPF – B08 Proqramlaş-dırmaya giriş Introduction to Computer Programming
İPF – B09 Proqram təminatının işlənməsi metodları Software Development Methods
İPF – B010 Sistem mühəndisliyi konsepsiyası Systems Engineering Concepts
İPF – B011 Mühəndis sistemlərinin informasiya təhlükəsizliyi Information Secure of Engineering System
İPF – B012 Verilənlər və informasiya mühəndisliyi Data and Information Engineering
İPF – B013 İdarəetmə sistemləri Control Systems
İPF – B014 Sistemli analiz Systems Analysis
İPF – B015 Sistemlərin modelləşdirilməsi Modeling Systems
İPF – B016 Bilik mühəndisliyi Knowledge Engineering
İPF – B017 Kompüter şəbəkələrinin əsasları Fundamentals of Computer Networks
İPF – B018 İnsan-maşın interfeysləri Human Machine Interface
İPF – B019 Mühəndis layihələndirmə sistemləri Systems Engineering Design
İPF – B020 Layihələrin idarə olunması Project Management
İPF – B021 Strateji menecment Management Strategies
İPF – B022 Həyat fəaliyyətinin təhlükəsizliyi Life Safety
İPF – B023 Mülki müdafiə Civil defense
Seçmə fənlər(peşə hazırlığı üzrə) Major Elective Courses
IPFS – B01.1Kompüter qrafikası və multimedia Computer graphics& multimedia
IPFS – B01.2 Mühəndis qrafikası Introductory Engineering Graphics
IPFS – B02.1 Kompüterlərin arxitekturu və təşkili Computer Architecture & Organization
IPFS – B02.2 Diskret siqnallar və sistemlər Discrete signals and systems
IPFS – B03.1 Korporativ informasiya sistemləri Enterprise Information Systems
IPFS – B03.2 Layihə-yönlü proqramlaşdırmanın əsasları Fundamentals of Project Oriented
Programming
IPFS – B04.1 Mühəndislik tələbləri Requirement Engineering.
IPFS – B04.2 İstehsalınplanlaşdırılması Production Planning
IPFS – B05.1 Mühəndis risklərin təhlili Engineering Risk Analysis
IPFS – B05.2 Keyfiyyətin təmin olunması Quality Assurance
IPFS – B06.1 Sistemlərin qiymətləndirilməsi System Evaluation
IPFS – B06.2 Sistemlərin etibarlığı Reliability of Systems
IPFS – B07.1Mühəndis,Etika və Professional məsuliyyət The Engineer, Ethics, and Professional
Responsibility
IPFS – B07.2 Mühəndis, Texnologiya və Cəmiyyət Engineering, Technology, and Society
TE-B01 Təcrübələr Industrial training
TE-B02Yekun dövlət attestasiyası Final year project
Course Descriptions for a Undergraduate proqram in Systems Engineering
Azerbaijan Technical University (Department: “Information technologies and programming”)
Fənlərin bölümü
kodu və adı DİDAKTİKA VAHİDLƏRİ
Course Descriptions Humanitar fənnlər Humanities and Social Sciences
HF – B01
Azərbaycan tarixi History of Azerbaijan
This course will cover Azerbaijan’s history from ancient to modern times using a non-
conventional approach to learn history through case-study analysis. It will focus on the
study of political, economic, social, and cultural aspects of Azerbaijani history and their
interrelation. Though we will mainly study issues and patterns in history of Azerbaijan,
we will also look at the global context of these topics. By learning about the historical
and contemporary processes in Azerbaijan, we will explore the practices employed by
different Azerbaijani states in history, as well as those employed by empires under which
Azerbaijan was included until its independence. A particular focus will be on how these
empires influenced various social, economic, political, cultural, and linguistic aspects of
Azerbaijan. After completing the course, students will be able to conduct historical
analysis and critically approach various issues of historical discourse.
HF – B02 Xarici dil
HF – B02.1
Xarici dil I
HF – B02.2
Xarici dil II
Foreign language
Focuses on developing written and oral communication skills; emphasizes writing
expository and research essays; preparing oral reports; drafting, revising, editing;
evaluation and proper documentation of source material; using rhetorical strategies such
as narration and argument
HF – B03
Azərbaycan
dili və nitq
mədəniyyəti
Technical & Professional Communication
Training in a systematic method for producing effective technical communication,
written reports, letters, and memos as well as oral presentations. This course is a single-
session timed essay exam that tests proficiency in written in azerbaijani.
Seçmə fənnlər: General Elective
HF – B04.1
Fəlsəfə Philosophy (Leadership Models & Practices)
Introduce philosophical, historical, and theoretical frameworks for different leadership
concepts and practical approaches in personal, professional, and organizational settings.
Develop personal leadership philosophy by linking skills with experience, written self-
reflection, and self- and peer assessment of teamwork and problem-solving. This course
is reading- and writing intensive
HF – B04.2
İqtisadiyyat Engineering Economics
The objective is to help engineering students recognize and understand the importance of
cost factors that are inherent in all engineering decisions. Development of ability to
handle engineering problems that involve economic factors. The course includes
economic environment, selections in present economy, value analysis, critical path
economy, interest and money-time relationships, depreciation and valuation, capital
financing and budgeting, basic methods for undertaking economic studies, risk,
uncertainty and sensitivity, selections between alternatives, fixed, increment, and sunk
costs, the effects of income taxes in economic studies, replacement studies, minimum
cost formulas, economic studies of public projects, economic studies in public utilities.
İxtisas-peşə
hazirliği fənnləri
Courses Supporting & Pre-Technology &Technical Core
İPF – B01
Riyaziyyat Mathematics
İPF – B01.1
Riyaziyyat I
(Xətti cəbr)
Linear Algebra
Vectors, Vector Spaces, Matirces & Determinants, Linear Transformations, Operations
on matrices, Inner products, Eigenvalues & Eigenvectors. Applications to Systems of
Equations and to Geometry
İPF – B01.2
Riyaziyyat II
(Adi differensial
tənliklər)
Ordinary Differential Equations First order differential equations, second order and higher order linear differential
equations, reduction of order, undetermined coefficients, variation of parameters, series
solutions, Laplace transforms, linear systems of first order differential equations and the
associated matrix theory, numerical methods.
Course Descriptions for a Undergraduate proqram in Systems Engineering
Azerbaijan Technical University (Department: “Information technologies and programming”)
İPF – B01.3
Riyaziyyat III
(Çoxdəyişənli
hesablama)
Single Variable Calculus
Includes the concepts of differential and integral calculus and applications to problems in
geometry and elementary physics, including inverse functions, indeterminate forms,
techniques of integration, parametric equations, polar coordinates, infinite series,
including Taylor and Maclaurin series. Applications.
İPF – B02
Fizika General Physics
Classical mechanics, including vector algebra, particle kinematics and dynamics, energy
and momentum, conservation laws, rotational dynamics, oscillatory motion, gravitation,
thermodynamics, and kinetic theory of gases.Electrostatics, including conductors and
insulators; DC circuits; magnetic forces and fields; magnetic effects of moving charges
and currents; electromagnetic induction; Maxwell’s equations; electromagnetic
oscillations and waves. Introduces geometrical and physical optics. Three lecture hours.
İPF – B03
Ehtimal və
statistika
Statistics and Probability
Introduction to Statistics, Descriptive Statistics, Statistics in decision making, Graphical
representation of Data Stem-and Lead plot, Box-Cox plots, Histograms and Ogive,
measures of central tendencies, dispersion for grouped and ungrouped Data, Moments of
frequency distribution; examples with real life, use of Elementary statistical packages for
explanatory Data analysis. Counting techniques, definition of probability with classical
and relative frequency and subjective approaches, sample space, events, laws of
probability. Conditional probability and Bayes theorem with application to Random
variable (Discrete and continuous) Binomial, Poisson, Geometric, Negative Binomial
Distributions; Exponential Gamma and Normal distributions.
İPF – B04
Qərar qəbuletmə
modelləri
Decision Models
Introduction to mathematical modeling of forecasts and decisions under uncertainty
using principles of statistical decision theory; judgmental and Bayesian techniques for
probabilistic forecasting; forecast verification methods; static and sequential decision
models for quality control, inventory control, queue management, hazard warnings; and
economic, investment, and weather-sensitive decisions.
İPF – B05
Elektrotexnikanın
əsasları
Fundamentals of Electrical Engineering
This unit of study aims to develop knowledge of the fundamental concepts and building
blocks of electrical circuits. This is a foundation unit in circuit theory. Circuit theory is
the electrical engineer’s fundamental tool. The concepts learnt in this unit will be made
use of heavily in many units of study (in later years) in the areas of electronics,
instrumentation, electrical machines, power systems, communication systems, and signal
processing. Topics: a) Basic electrical circuit concepts: Circuits, circuit elements, circuit
laws, node and mesh analysis, circuit theorems, energy storage, capacitors and inductors,
circuits with switches, transient response, sine waves and complex analysis, phasors,
impedance, ac power.; b) Project management, teamwork, ethics; c) Safety issues
İPF – B06
Elektronikanın
əsasları
Fundamentals of Electronic
This subject develops and applies the fundamentals of electronic technology in order to
deepen the understanding of electronic devices that are part of the technologies that
surround us. In order to pass the subject, the student should meet the following
requirements: Identify the applications and functions of electronics in Engineering;
recognise basic electronic components and devices used for different electronic
functions; be able to use basic techniques for analysing analogue and digital electronic
circuits; be able to design analogue and digital electronic circuits at block level; be able
to manage the tools in a basic electronics laboratory and use electronic simulation tool.
İPF – B07
İnformasiya
texnologiyaları
Information Technology
A study of the computing fundamentals needed for the understanding and use of
information technology,which is essential to information professionals. Focus is on
examining computer systems in concept and practice. Topics include how computers
represent, process, store and retrieve information; how operating systems control these
processes, interpret commands, present the user interface, and run applications; how
databases are designed and created; and how a general understanding of programming
processes and productivity software skills is important in a variety of professional
contexts. Activities include work with the Office suite.
Course Descriptions for a Undergraduate proqram in Systems Engineering
Azerbaijan Technical University (Department: “Information technologies and programming”)
İPF – B08
Proqramlaş-
dırmaya giriş
Introduction to Computer Programming
Introduction to Computer Programming is the first course in our series introducing
students to computer science. Programming and problem analysis. Development of basic
algorithms. Translation of algorithms into programs. Standard Data Types. Basic control
structures. Functions. Structured data types; Arrays, Structures, Pointers and Files.
Debugging and testing programmes. In this class you will learn the fundamentals of
computer programming , with emphasis on applications in science and engineering. You
will also learn about the broader field of computer science and algorithmic thinking, the
fundamental approach that computer scientists take to solving problems.
Introduces problem solving with a state-of-the-art programming language. Expressions,
statements, basic control flow and methods. Data, data aggregation and usage. Uses a
structured personal software development process to implement solutions representative
of common computing applications. Students create several small programs.
İPF – B09
Proqram
təminatının
işlənməsi metodları
Software Development Methods
An introduction to the software development life cycle and processes. Topics include
requirements analysis, specification, design, implementation, and verification.
Emphasizes the role of the individual programmer in large software development
projects. Problem solving techniques and coding algorithms will be stressed. Students
will write programs for such tasks as engineering decision-making and numerical
computation. Material relevant to the Fundamentals of Engineering exam will be
covered.
İPF – B010
Sistem
mühəndisliyi
konsepsiyası
Systems Engineering Concepts
Three major dimensions of systems engineering will be covered, and their efficacy
demonstrated through case studies: (1) The history, philosophy, art, and science upon
which systems engineering is grounded; including guiding principles and steps in the
‘systems engineering approach’ to problem solving; (2) The basic tools of systems
engineering analysis, including; goal definition and system representation, requirements
analysis, system assessment and evaluation, mathematical modeling, and decision
analysis; (3) system and project planning and management.
İPF – B011
Mühəndis
sistemlərinin
informasiya
təhlükəsizliyi
Information Secure of Engineering Systems
Engineering secure systems requires a well-balanced synthesis of policy and security
requirements definition and implementation of security technology. This course is
intended to help students gain fundamental and comprehensive understanding of
information security. Students will learn how to backup information systems data and
about data recovery protocols in case the data is destroyed or stolen. Introduces a wide
range of topics in the field of information security and assurance including: information
threats/vulnerabilities and attacks, legal and ethical issues related to risk assessment,
security planning, communications systems, information security technologies,
cryptography, physical security, security implementation and maintenance and security
personnel. This course covers foundational models for information security, policies,
authentication, access control, database security, assurance, auditing, and intrusion
detection. This course is designed to introduce the student to the investigation of
computer-based crimes. Students analyze methods criminals use on the Internet to
commit crimes. The course material will review the history of computer crime,
associated terminology, and the types of crimes committed in cyberspace. A study of the
processes and technologies used to implement and manage enterprise IT security
operations. The goal is to apply and integrate cybersecurity concepts and best practices
with the principles of IT operations and management.
İPF – B012
Verilənlər və
informasiya
mühəndisliyi
Data and Information Engineering
Provides students with the background necessary to model, store, manipulate, and
exchange information throughout an information system to support decision-making.
Incorporates both conceptual bases and corresponding technology standards, including
Unified Modeling Language (UML), SQL, and XML. Covers the development of
conceptual (semantic) models for describing data and their relationships; relational
models; effective use of SQL for data definition and manipulation; web-based
technologies for disseminating information; and the major components of modern
Course Descriptions for a Undergraduate proqram in Systems Engineering
Azerbaijan Technical University (Department: “Information technologies and programming”)
information systems. Emphasizes application of these technologies through the analysis,
design, and implementation of web-enabled database systems.
İPF – B013
İdarəetmə
sistemləri
Control Systems
Introduction to control system design; system modelling principles for electrical &
mechanical systems; the Laplace transform; block diagram modelling; open & closed
loop control; role of feedback; transient & steady state performance; root locus;
frequency response analysis; compensator design, practical issues in the implementation
of control systems. This course provides an introduction to the analysis of systems
transient response, stability, steady-state errors, root locus techniques, students study the
applications of Proportional, Integral, & Derivative (PID) controllers in the process
control industry.
İPF – B014
Sistemli analiz Systems Analysis
Developing an information system from concept to implementation. Various system
development methodology techniques and introduction to the system development life
cycle. Special emphasis on developing good communication skills between users,
clients, team members and others that are associated with the project.Topics for this
course include systems analysis, computer system engineering, problem identification,
system development methodologies, feasibility studies, software project planning, and
requirements analysis and documents. This course is a study of systems analysis and
design techniques applicable to the analysis and requirements phases of the life cycle,
including estimation, scheduling, diagramming and prototyping. The student will learn
the key points of planning, implementing, and managing a software system.
İPF – B015
Sistemlərin
modelləşdirilməsi
Modeling Systems
Modeling is one of the core techniques in Systems Engineering to facilitate amongst
others communication, discussion, exploration, and validation of system specification
and design. Modeling can be applied at all levels, from detailed design simulations to
high level context models. In practice we struggle with finding the appropriate models
and the appropriate level of abstractions.
This course shows how to use linear statistical models for analysis in engineering and
science. The course emphasizes the use of regression models for description, prediction,
and control in a variety of applications. Building on multiple regression, the course also
covers principal component analysis, analysis of variance and covariance, logistic
regression, time series methods, and clustering. Course lectures concentrate on the
theory and practice of model construction while laboratories provide a series of open-
ended problem solving situations that illustrate the applicability of the models.
İPF – B016
Bilik mühəndisliyi Knowledge Engineering
Introduction to the acquisition, representation, and application of knowledge in expert
systems. Topics include production systems, backward and forward chaining,
dependency-directed backtracking, reasoning with uncertainty, certainty factors, fuzzy
systems, knowledge representation (rules, frames, and semantic nets), inference engines,
and metaknowledge. Discussion includes current research issues in adaptive expert
systems. This course presents a study of artificial intelligence and expert systems. Topics
include search methods, knowledge acquisition, knowledge representation including
belief networks, knowledge validation, neural networks, expert system development
including uncertainty management methods such as statistical, symbolic, and fuzzy
logic, expert system shell, survey of current expert systems, and future trends.
İPF – B017
Kompüter
şəbəkələrinin
əsasları
Fundamentals of Computer Networks
Computer networking is a rapidly advancing field. The Internet is already an integral
part of society. It is therefore important for computer scientists and computer engineers
to be familiar with the fundamentals of computer networking. This course will
emphasize on the architecture, algorithms, and protocols of the Internet.
Topics include local area networking, routing, congestion control, network security, and
applications such as peer-to-peer and content distribution networks. This course will be
project-centric, and students will work in groups on hands-on projects to learn how to
build Internet applications as well as network protocols. The graduate version of this
course will have additional requirements for each of the homework and projects.
Course Descriptions for a Undergraduate proqram in Systems Engineering
Azerbaijan Technical University (Department: “Information technologies and programming”)
İPF – B018
İnsan-maşın
interfeysləri
Human Machine Interface
The field of human computer interaction deals with the study, design, and evaluation of
human-machine systems with an emphasis on human capabilities and limitations as they
impact system operation.
This course introduces the fundamentals for the analysis, design and evaluation of
human-centered systems. The goal is to promote productive interaction between people
and the systems they use. For example, decision support systems can be designed to
leverage the strengths of both humans and machines for control of semi-automated
processes. Course topics include analysis of human-systems interaction, interface design,
usability testing, experimental design, and human-centered lifecycle design. Topics also
include a focus on human cognitive and sensory abilities as they impact total system
design.
İPF – B019
Mühəndis
layihələndirmə
sistemləri
Systems Engineering Design
Focuses on the concepts of systems design, manufacturing systems design. Involves the
study of an actual open-ended situation, including problem formulation, data collection,
analysis and interpretation, model building for the purpose of evaluating design options,
model analysis, and generation of solutions. Develops a holistic view of and initial
competency in engineering design by conceiving, designing, manufacturing and testing a
system component such as a complex structural part. Activities include hand sketching,
CAD modeling, CAE analysis, CAM programming and operation of CNC machining
equipment. Requirements compliance is verified in the laboratory via structural testing.
The focus is on the design process itself as well as the complementary roles of human
creativity and computational methods and tools.
İPF – B020
Layihələrin
idarə olunması
Project Management
"Project is a temporary endeavor undertaken to create a unique product, service, or
result. Project management is ""the application of knowledge, skills, tools and
techniques to project activities to meet project requirements"". Breaking down a big
project into small, manageable and action-oriented steps adds value and benefits
organizations and to all the team members involved. Ability to manage time, organize
and prioritize is very important when leading teams. Project management is a growing
career path that is highly rewarding and most organizations receive real benefits from it.
Benefits include better control, better customer relations, increase in projects return on
investment, etc. This course provides the foundation for successful project initiation,
planning, executing, controlling, and terminating within the realm of practical
applications.
İPF – B021 Strateji
menecment Management Strategies This course examines the linkage of organizational strategy and electronic methods of
delivering products, services, and exchanges in inter-organizational, national, and global
environments. Information technology strategy and technological solutions for enabling
effective business processes within and between organizations in a global environment
are consider.
İPF – B022
Həyat fəaliyyətinin
təhlükəsizliyi
Life Safety
The course is designed to train and equip students in fire prevention and life safety
education. Topics include: a history of fire prevention education, learning styles,
methods for effective teaching, public relations, high-risk populations, professionalism,
developing life safety curricula, and evaluation & assessment.
İPF – B023 Mülki
müdafiə Civil defense
Civil defense, civil defence (see spelling differences) or civil protection is an effort to
protect the citizens of a state (generally non-combatants) from military attacks and
natural disasters. It uses the principles of emergency operations: prevention, mitigation,
preparation, response, or emergency evacuation and recovery.
Course Descriptions for a Undergraduate proqram in Systems Engineering
Azerbaijan Technical University (Department: “Information technologies and programming”)
##
İPFS-B00
Seçmə fənlər
(peşə hazırlığı
üzrə)
Major Elective Courses
IPFS – B01.1
Kompüter qrafikası
və multimedia
Computer graphics& multimedia
Overview of graphics hardware, basic drawing algorithms, 2-D transformations,
windowing and clipping, interactive input devices, curves and surfaces, 3-D
transformations and viewing, hidden-surface and hidden-line removal, shading and
colour models, modelling, illumination models, image synthesis, computer
animation.Current developments of technologies and techniques in multimedia will also
be covered. Applications of multimedia techniques are also highlighted through a
media production course project. Major topics include: what are media, audio, acoustics
and psychoacoustics, MIDI, basic compression techniques, video compression
techniques, standards, and current multimedia technologies.
IPFS – B01.2
Mühəndis qrafikası
Introductory Engineering Graphics
Course provides the undergraduate with a background in descriptive geometry,
orthographic projection, engineering drawing standards and annotation, and computer-
aided engineering graphics. Point line and plane relationships in projection; multi-view
engineering drawings; auxiliary and section views; basic dimensioning and annotation;
engineering applications.In this course students study solid modeling fundamentals,
geometric constructions, multi-view projections, section views, and dimensioning using
adequate CAD software.
IPFS – B02.1
Kompüterlərin
arxitekturu və
təşkili
Computer Architecture & Organization
Fundamental of Boolean Algebra. Minimization techniques: algebraic, K-maps, QM
methods, etc. Combinational logic circuits with MSI and LSI. Adders, Comparators,
Encoders and decoders, multiplexers and demultiplexers, ROM and PLA and PAL
implementation. Computer organization: Control unit design, Instruction execution and
sequencing of control signals. Hardwired and Micro programmed control. Arithmetic
logic unit implementation. Memory organization, memory hierarchy.Computer
organization: Control unit design, Instruction execution and sequencing of control
signals. Hardwired and Micro programmed control. Input-output – Programmed,
Interrupt driven and DMA I/O and interface design. Arithmetic logic unit
implementation, addition, subtraction, multiplication and division operations for Integer
and Floating point numbers. Memory organization, memory hierarchy, cache memories
- mapping functions and page replacement policies, memory management requirements
and virtual memory hardware support. Fundamentals of computer communications and
error control. Data and instruction representation. ASCII code Assembler directives
versus machine instructions. Keyboard input and screen output. Instruction formats and
types. Conversion between ASCII strings and binary numbers. Stack operations.
Debugging. Interrupts, Macros. Video output, Disk I/O.
IPFS – B02.2
Diskret siqnallar və
sistemlər
Discrete signals and systems
This course is about various classification of both continuous and discrete time signals
and systems.The spectral analysis of periodic & aperiodic signals using Fourier Series
and Fourier transform is discussed for both CT as well as for DT signals. Analysis and
characterization of the CT-LTI systems through Laplace Transform and Fourier
Transform and for LTI-DT systems through Z Transform and DTFT is also discussed.
Continuous-time and discrete-time signal analysis including Fourier series and discrete-
time and discrete Fourier transforms; sampling; discrete-time linear system analysis
with emphasis on FIR and IIR systems: impulse response, frequency response, and
system function .
IPFS – B03.1
Korporativ
informasiya
sistemləri
Enterprise Information Systems
This course is about Enterprise Resource Planning (ERP) systems and how enterprise
systems fit into business operations. ERP Systems are becoming common in medium to
large organisations as it removes the need to have a large number of individual
computer-based applications. An ERP system integrates the various applications into a
Course Descriptions for a Undergraduate proqram in Systems Engineering
Azerbaijan Technical University (Department: “Information technologies and programming”)
single package, increasing the efficiency of the organization in delivering goods or
services to customers. This course is therefore viewed as a combination of business
management practice and technology. This course focuses on the integration of
information systems in organizations, the process by which different computing
systems and software applications are linked together physically or functionally. It
examines the strategies and methods for blending a set of interdependent systems into a
functioning or unified whole, thereby enabling two or more applications to interact and
exchange data seamlessly. The course will explore tools and techniques for Enterprise
Integration as well as proven management practices for integration projects
IPFS – B03.2
Layihə-yönlü
proqramlaşdırmanın
əsasları
Fundamentals of Project Oriented Programming
This course is heavily project-oriented. Students need to have knowledge object-
oriented language, data structures, and fair sophistication with OOP - some experience
with designing interacting, cooperating classes that would come in an intermediate
discussion of software patterns. Software engineering is recommended but not required
like the background listed above. Students study each major topic in the context of a
substantial programming project. The reuse of existing class libraries and software
components is emphasized. Grading will be based upon the following components:
programming projects, quizzes. In-depth study of the features/advantages of object-
oriented approach to problem solving. Special emphasis on issues of object-oriented
analysis, design, implementation, and testing. Review of basic concepts of object-
oriented technology (abstraction, inheritance, and polymorphism). Object-oriented
programming languages, databases, and productivity tools.
IPFS – B04.1
Mühəndislik
tələbləri
Requirement Engineering
Provides an overview of the engineering profession and the disciplines and functions
within engineering. Introduces students to engineering design, and the role of creativity
in the solution of open-ended (design) problems. The conceptual understanding and
skills needed to apply the engineering method are integrated into a significant, hands-
on, case study project. This project, which is intended to be both fun and challenging,
focuses on a realistic problem, requiring a balance of engineering analysis and the
economic, cultural, political and other considerations needed to achieve a successful
solution.
The course will discuss concepts for systematically establishing, defining and
managing the requirements for a large, complex, changing and intensive systems, from
technical, organizational and management perspectives. The course will consider the
past, present and future paradigms and methodologies in requirements engineering. The
course will cover informal, semi-formal and formal approaches, while striking a
balance between theory and practice. The course will involve building models of both
requirement engineering process and requirements engineering product, concerning
both functional and non-functional goals/requirements/specifications, using a
systematic decision-making process.
IPFS – B04.2
İstehsalın
planlaşdırılması
Production Planning
Emphasizes basic principles of enterprise operations management, including
productivity, strategic management, global environment, forecasting, capacity planning,
new technologies, location and layout strategies, supply-chain management, inventory
control and scheduling. Uses common decision-making issues and related qualitative
and quantitative techniques. Forecasting techniques, inventory analysis, master
production scheduling, material and capacity requirements, planning and scheduling
methods. This course introduces design, management and improvement of processes
and systems for creation and delivery of products and services. Topics include strategic
and operational views of supply chain, product development and capacity analysis. This
course introduces the concepts of demand forecasting, aggregate production planning,
inventory control, project planning, line balancing and job scheduling. Relationships
with demand-driven methods, enterprise resource planning, and supply chain
management are covered
Course Descriptions for a Undergraduate proqram in Systems Engineering
Azerbaijan Technical University (Department: “Information technologies and programming”)
IPFS – B05.1
Mühəndis
risklərin təhlili
Engineering Risk Analysis
The class is oriented toward project-level decisions where multiple variables and
complex risks are present. Successful engineering project management includes
estimation and proactive risk identification and development of mitigation techniques.
System uncertainty is reduced when project risks are identified, quantified, and
mitigation strategies implemented. Students learn the fundamental principles and
practical techniques of risk and decision analysis in this course. Tools, techniques, and
methodologies used by successful project managers will be examined. This course will
examine the way in which business and society make an assessment of, control and
transfer risk. It is designed for the student with no previous knowledge of risk
management.The goal of this course is to engage students in active discovery of risk
management principles. Students will be prepared to function in a business
environment, developing an awareness of the challenges, the tools, and the process of
designing and implementing a risk management program.This course focuses on the
ways in which businesses and society assess, control, and transfer risk. This process,
known as the risk management process, is becoming an increasingly important tool in
the management of business and personal financial health. An effective and efficient
corporate risk management program leads to knowledge and control of costs and an
improved bottom line.The risk management process involves identification of risks and
associated potential costs, analysis of the causes of risk of financial loss, determination
of various strategies to treat risk, selection of strategies appropriate to the goals and
objectives of the business, implementation of the selected strategies, management and
monitoring of results. Making adjustments, adapting to external and internal forces, and
crisis or disaster management are incorporated in the corporate risk management
process. An effective risk management program will reduce losses, and improve
financial performance and employee morale.
IPFS – B05.2
Keyfiyyətin
təmin olunması
Quality Assurance
This course introduces the concepts of quality control and assurance. Topics include
statistical control charts, attributes and variable sampling plans, quality philosophies,
process capability, quality function deployment,quality auditing. Applications in
service and production systems are emphasized.
Understanding the real scope of any project is vital to controlling the project. As a
project manager or business analyst, it is key to first document the initial scope of the
project and then direct, monitor and control the scope through Learning these
techniques provide the ability to more easily control the quality issues, costs, time and
risks associated with on-going scope creep associated with requirements changes. An
interdisciplinary approach to principles and practice in the applications of continuous
quality improvement (CQI) and Total Quality Management (TQM). Classroom work on
major applications, re-engineering processes; process mapping, personal effectiveness
and time management; technical presentations; CQI tools, statistical process control,
designed experimentation; management and planning tools, engineering economy, and
case studies; assignments and projects in team building, communication, and group
problem solving.
IPFS – B06.1
Sistemlərin
qiymətləndirilməsi
System Evaluation
Focuses on the evaluation of candidate system designs and design performance
measures. Includes identification of system goals; requirements and performance
measures; design of experiments for performance evaluation; techniques of decision
analysis for trade-studies (ranking of alternatives); presentation of system evaluation
and analysis results. Illustrates the concepts and processes of systems evaluations using
case studies.Statistical quality control methods for products and services; design of
quality control systems; control of quality control inputs.
IPFS – B06.2
Sistemlərin
etibarlığı
Reliability of Systems
Focuses on measuring, evaluating, improving and managing reliability.The course
focuses in modeling and analysis of systems reliability using probability models. The
primary reason for modeling reliability systems is to improve the reliability and
availability of a product or a system. The course covers three major aspects of
Course Descriptions for a Undergraduate proqram in Systems Engineering
Azerbaijan Technical University (Department: “Information technologies and programming”)
reliability: reliability models, analysis of failure and repair distributions, and finally
preventive maintenance and warranty models. The following topics are covered:
System reliability models; Design by reliability and probabilistic design; Reliability
estimation and measurement by testing for binomial, exponential, and Weibull
distributions etc. Upon completion of the course, students will be able to apply
reliability models for a product or system during its life-cycle: design, production, and
warranty.
IPFS – B07.1
Mühəndis,
Etika və
Professional
məsuliyyət
The Engineer, Ethics, and Professional Responsibility
This course focuses on ethical issues in engineering. The key theme is that ethics is
central to engineering practice. The professional responsibilities of engineers are
examined. Readings on, and discussions of, various kinds of values (social,
institutional, scientific, intellectual, and personal) characteristic of professional work in
engineering and applied science in modern technological society. Interaction between
engineers and society; impact of technologies on society; environmental and safety
issues; professional conduct and responsibility; contract law; law of tort; professional
negligence and intellectual property law. Professional conduct and social responsibility,
sustainability and safety issues, technology and environment, ethics at work; The
professional responsibilities of engineers are examined. Engineering organization and
project, management functions and managerial skills, decision making processes,
contingency and crisis management, leadership, corporate culture and philanthropy.
Contract, intellectual property, tort, professional negligence and related law issues.
IPFS – B07.2
Mühəndis,
Texnologiya və
Cəmiyyət
Engineering, Technology, and Society
Introduces the nature of engineering knowledge and practice; the influential role of
engineering in shaping the world; and the ways in which social institutions, practices,
and values influence engineers' work. A variety of readings explore these topics.
Framed as an introduction to the profession, the course promotes creative and critical
thinking as well as the skills needed for communications in engineering practice,
including oral presentations, written proposals, technical descriptions, memoranda, and
abstracts. Drawing on a range of sources, students also complete a substantial research
project that integrates course topics.Innovation and the dynamics of technological
change. The interactive and non-linear nature of innovation. Theory and practice of
processes of technology transfer (TT) and diffusion:Commercialization of technology;
intellectual property rights.
## TE-B01
Təcrübələr Industrial training
The participant will receive practical training and experience under the guidance of the staff
of a business or government organization and a faculty supervisor. Industrial Training
requires students to spend a minimum of four weeks employed, full-time, as IT interns or
trainees. During this period, they are engaged in work of direct relevance to their
programme of study. The training provides students with practical, real-world experience
and represents a valuable complement to their academic training.
TE-B02
Yekun dövlət
attestasiyası
Final year project
Student individuals or groups, during the final year of their studies, undertake full end-to-
end development of a substantial project, taking it from initial concept through to final
delivery. Topics range from applied software development to assignments on basic
research. In case of a team project, significant contribution is required from each member
and students are assessed individually, such that each student is given a separate project
title. Strict standards of quality will be enforced throughout the project development.
Course Descriptions for a Undergraduate proqram in Systems Engineering
Azerbaijan Technical University (Department: “Information technologies and programming”)