MANAGEMENT PROJECTS - Syllabus

Details of the discipline

Level of higher education First (undergraduate)
Discipline 12 Information technologies
Specialty 126 Information systems and technologies
Educational program Integrated information systems
Discipline status Normative
Form of education full-time/correspondence/distance
Year of training, semester 4th year, spring semester
Scope of the discipline 3 ECTS credits/90 hours (18 hours – Lectures, 18 hours – Laboratory, 54 hours – SRS)
Semester control/ control measures Test
Class schedule http://rozklad.kpi.ua/Schedules/ScheduleGroupSelection.aspx
Language of teaching Ukrainian
Information about the course leader / teachers

Lecturer: Dr. Sc., Prof. Bogdan Yaroslavovych Korniyenko,

b.korniyenko@kpi.ua,

Laboratory: Valery Mykolayovych Kolesnik,

v.kolesnik@kpi.ua,
Placement of the course https://campus.kpi.ua

Program of educational discipline

Description of the educational discipline, its purpose, subject of study and learning outcomes

Description of the discipline. According to the standard of higher education in the specialty 126 Information systems and technologies of the field of knowledge 12 Information technologies for the first (bachelor) level of higher education and the educational and professional program of the first (bachelor) level of higher education of the discipline "Project management» forms (KZ7)ability to develop and manage projects, (KZ8)the ability to evaluate and ensure the quality of the work performed, (KS9)ability to develop business solutions and evaluate new technology offerings, (KS14)the ability to form new competitive ideas and implement them in projects (startups),(CS18)the ability to solve the problems of integration processes of information systems in the sphere of production and management using methods of analysis and synthesis of means of transmission, storage and processing of information, the basics of a service-oriented approach to servicing users of information systems, basic and applied information technologies and IT infrastructure toolsand (PRN8) withapply the rules for the design of project materials of information systems and technologies, know the composition and sequence of project work, taking into account the requirements of the relevant regulatory and legal documents for implementation in professional activities,(PRN11)to demonstrate the ability to develop a technical and economic rationale for the development of information systems and technologies and to be able to evaluate the economic efficiency of their implementation.

The relevance and necessity of studying the discipline of "Project Management" is due both to the processes of Ukraine's integration into global society and the need for further development of the information society. Among professional personnel, there is an acute lack of skills in formalization, preparation and project management. The practical orientation of the educational discipline is determined by the urgent need to master the world experience of development, analysis, implementation and management of projects, especially in the field of information systems and software development. This course introduces students to modern views on the main theoretical, methodological and organizational foundations of project management; project management methods at all phases of the project life cycle; features, principles and tasks of project management in the field of informatization; with the capabilities of the most common project management software tools in Ukraine; creation of a project management information system in the MS Project environment; organization, planning, control and regulation of IT project management processes. Students must learn to apply the acquired knowledge of project management in the implementation of projects of informatization of socio-economic objects, reengineering of business processes, consulting projects related to the implementation of information technologies, etc.

**The subject of the academic discipline:**project management processes and tools used by the project manager for effective management, project management methodology.

**Interdisciplinary connections.**DisciplineManagementprojectsbased on the disciplines: Software Development Technologies, Systems Theory and System Analysis, Computer networks,Databases, Theory of algorithms.

**The purpose of the educational discipline.**The purpose of the discipline is to thoroughly acquaint students with the theoretical foundations of the methodology of preparation and implementation, methods and means of building projects, attracting resources for the implementation of these projects and their management mechanisms for various subject areas.

The main tasks of the academic discipline

Knowledge:

  • system approaches and methods of project management;

  • critical factors of project success;

  • the concept of risk management, methods and means of their identification, as well as assessment and minimization of negative consequences;

  • project personnel management in the project management system;

  • methods of forcing project costs.

Skills:

  • identify and classify projects and project management tasks within the organization;

  • form an organizational structure for project management;

  • determine the organizational, economic, technical and operational feasibility of the project

  • design and model business processes of the system

  • use existing project management standards;

  • choose software for project management tasks.

Pre-requisites and post-requisites of the discipline (place in the structural and logical scheme of training according to the relevant educational program)

**Prerequisites:**the ability to apply knowledge in practical situations, skills in the use of information and communication technologies, the ability to search, process and analyze information from various sources, the ability to apply knowledge about the basic principles and methods of building algorithms and determining the main technological parameters.

**Post-requisites:**know the concept of a project and its life cycle patterns, methodology, basic concepts and definitions of project management; structure of the project (sub-goals, main stages of the work to be performed) to justify it; classification of projects and hierarchy of project goals; composition of project participants and their role; laws of communication and methods of analyzing interpersonal relations; determine the necessary volumes and sources of financing; select performers, in particular, through tender procedures; prepare and conclude contracts; determine the terms of project implementation, schedule its implementation, calculate the necessary resources; principles of project development management; principles of construction, types and sequence of development of the organizational structure of project management; principles of project planning, control and regulation; principles of building an automated project management information system.

After completing the discipline, students will be able to apply project management methods and tools in everyday activities, define the project concept and its strategic and tactical tasks, build an organizational structure of project management and design a project office using modern methods and tools of organizational modeling of projects, carry out project work planning and carry out project expertise, apply the analysis of interpersonal relations and the laws of communication to manage the project team, implement automated project management information systems.

Content of the academic discipline

Lecture classes

Chapter 1. Basics of organization and project management

Chapter 2. Implementation and control of the software development project**.**

Laboratory classes

  1. Strategic analysis and IT project planning.

  2. IT project integration management.

  3. Management of the content of the IT project.

  4. Management of labor resources of the IT project.

  5. IT project time management.

Educational materials and resources

Basic literature

  1. Andrienko O. Project management in business associations of small and medium-sized enterprises: manual Kyiv: 2017. - 77 p.

  2. Yu. I. Burimenko, L. V. Galan, I. Yu. Lebedeva, and others. Project management: training. manual /under the editorship Yu. I. Burimenko. Odesa: ONAZ named after O. S. Popova, 2017. - 208 p.

  3. Gontareva I. V. Project management: a textbook Kharkiv Khnei University, 2011. - 444p.

  4. Kozik V.V., Tymchyshyn I.E. Workshop on project management: training. manual. Lviv: Publishing House of Lviv Polytechnic, 2012. – 180 p.

  5. Matviyishyn E.H. Planning of project actions: training. manual Kyiv: Hi-Tech Press, 2008. - 216 p.

  6. Mitsura O.O., Olefirenko O.M. Management of innovative projects: lecture notes. Sumy: Sumy State University, 2012. - 92 p.

  7. Nozdrina L.V., Yashchuk V.I., Polotai O.I. Project management: a textbook. Kyiv: Center for Educational Literature, 2010. – 432 p.

  8. Petrovych Y.M., Novakivskyi I.I. Project management: textbook Lviv: Publishing House of Lviv Polytechnic, 2018. - 396 p.

  9. Veretennikov V. I. Project management: Education. manual / V. I. Veretennikov, L. M. Tarasenko, G. I. Hevlych. — K.: Center of Educational Literature, 2006. — 280 p.

  10. Tian R.B., Kholod B.I., Tkachenko V.A. Project management: textbook. - K. Center of educational literature, 2003. - 224 p.

  11. Kornienko B.Ya. Workshop on project management: Training. Manual. - K. KPI named after Igor Sikorskyi, 2023. – 70 p.

Supporting literature

  1. Strokovych G. V. Project management: a textbook for students of economic specialties Kharkiv: Publishing House of the National Academy of Sciences, 2013. - 220 p.

  2. Tarasyuk H.M. Project management: education. manual for students higher education institutions - 2nd type. Kyiv: Karavela, 2006. - 320 p

  3. Project management: training. manual / edited by O.V Ulyanchenko and P.F. Tsigikala Kharkiv: HNAU named after V.V. Dokuchaeva, 2010. - 522 p.

  4. Feshtur R.V., Kichor V.P., Yakymov A.I., and others. Making project decisions: a study guide. Lviv: Publishing House of Lviv Polytechnic, 2013. - 220 p.

  5. Chumachenko I.V., Morozov V.V., Dotsenko N.V., Cherednychenko A.M. Project management: processes of planning project actions: a textbook / Kyiv: KROC, 2014. - 673 p.

Educational content

Methods of mastering an educational discipline (educational component)

Lecture classes

No. z/p The name of the topic of the lecture and a list of the main questions (a list of didactic tools, references to the literature and tasks on the SRS)
1

Topic 1.1. Structure and content of the course. RSO

Topic 1.2. General information. The concept of project management.

Lecture 1. Project management system: goals, functions, structure elements. Project management systems, their goals and functions. Types of projects and features of their management. Objective necessity of project management. A systematic approach to project management. Composition of system elements and their relationship. Basic conditions of project management.

Main and local goals and functions of project management. The main direction and goals of the project. Goal setting at various stages of project preparation and implementation. Hierarchy of project goals and their composition. Project management functions. Project management functions. Project management model, combination of main functions and tools for their implementation.

Literature: [1, pp. 5-31; 3, pp. 3-10; 4, pp. 10-42.]

Tasks on SRS.Basic elements of project management knowledge. Project-oriented management. System approach and integration of projects.
2

Topic 1.3. Organization of project management.

Lecture 2. External organizational structures of the project.

Types of organizational systems. The main types of organizational management structures. Organization design technology in the project management system.

Designing the organizational structure of project management. Basic elements of the organizational structure of the project. Functional and target approaches, their advantages and disadvantages. The essence and main forms of external and internal organizational structures.

Principles of construction. Types of external organizational structures of traditional, matrix, hybrid, modular communication, their characteristics, conditions of use. Matrix organizational structure. The main types (functional, balance, design). Basic conditions of creation and use. Advantages and problems of matrix structures.

Internal organizational structures. Internal functional structure of the project. Internal matrix structure, divisional, federal, mixed structures. Conditions and features of the use of internal organizational structures.

Literature: [1, pp. 37-49; 3, p. 17-28; 4, pp. 50-72.]

Tasks on SRSDefine the organizational structure, roles and system of responsibility in the software development project.
3

Topic 1.4. Planning the content of the project.

Lecture 3. Project structuring.

Purpose and functions of project planning. Characteristics of project planning works. Requirements for the sequence of work on project planning. Methodological approaches to project planning. Traditional approach, systematic, multi-stage and multi-level planning. Methodology "cost-time-resources" (CTR). Project integration. Formation of the project management information system (PMIS).

Components of project structuring. Structuring methodology, its characteristics and significance. Work structure subsystems (end results, sub-projects, work modules, work elements), their characteristics. The main features of the work package. Cost structuring. Development of a responsibility matrix.

Combination of project structures. Creation of a bi-directional structure of the project. Formation of a three-directional structure of the project based on a combination of working, organizational and cost structures. Coding of the project and its components. CTR is a dictionary for medium and large projects.

Literature: [1, pp. 50-71; 3, p. 30-54; 4, p. 80-97.]

Tasks on SRS.Describe the methods of development and control of the calendar plan of the project.
4

Lecture 4. Project planning in time. Calendar planning of the project.

The main principles of construction and differences of arrow graphs (ADM' and forward graphs (PDM). PERT system. Project grid diagram. The main goal and task of developing network graphs. Types of communication in network graphs. Methodology for calculating network graph parameters (early and late terms (starting and ending, critical and non-critical work) determination of project duration, optimistic and pessimistic work duration estimation, work duration modeling. Reduction of the duration of the project due to the optimization of the network schedule.

The essence, tasks and types of calendar plans. Principles and methods of planning projects in time. Methodology of calendar planning of projects, Gantt chart (order of construction, main parameters and characteristics).

Literature: [1, p. 75-91; 3, p. 59-80; 4, p. 100-123.]

Tasks on SRS.Analysis of project scenarios. The essence of simulation modeling.
5

Topic 2.1. Project implementation control.

Lecture 5. Methods of project implementation control. System for monitoring compliance with project parameters. The main elements of the control cycle. Toolkit of project control. Control of execution of calendar plans and budgets of divisions, Reporting in the control system (tasks, construction principles, submission forms).

Literature: [1, p. 110-126; 3, p. 82-95; 4, p. 128-140; 6, pp. 219-234.]

Tasks on SRS.Describe Deming's quality assurance philosophy. Statistical methods of quality assessment.
6

Topic 2.2. Project risk management.

Lecture 6. The essence and classification of project risks.

Production risk. Financial (credit) risk. Investment risk, dynamic and static risks. Factors influencing the dynamics of risks. Risks of project unsustainability. Tax risk. Risk of non-payment of debt, Risk of non-completion of construction and failure to reach the design capacity. Qualitative and quantitative analysis of project risks. Statistical methods of risk analysis. Cost feasibility analysis. Method of expert evaluations, Analytical method. The method of using analogues.

Ways to reduce project risks. Distribution of risks between project participants. Qualitative risk distribution. Risk insurance. Reserving funds to cover unforeseen expenses. Formation of reaction to risk.

Literature: [2, pp. 52-87; 4, p. 150-170.]

Tasks for SRS.Analysis of existing design approaches.
7

Topic 2.3. Project quality management.

Lecture 7. Project quality control.

Modern concepts of quality management and their use in project management. The essence of project quality management. ISO 9000, ISO14000 standards system. Total quality management (TQM). Continuous improvement, Project quality assurance planning. Quality assurance policy for project solutions. Norms and rules of quality assurance. Project quality management plan. Profit-cost analysis. Comparison with the sample. Flow charts. Ishikawa diagram. Design of experiments. Quality assurance costs. Plan for testing and acceptance of project components. Inspection of the project stage. Control charts. Checklists. Pareto charts, statistical modeling. Analysis of trends.

Literature: [ 7, p. 38-55. ]

Tasks for SRS. Project audit. Correction of design documents.
8

Lecture 8. Automation of project management processes.

Automation of project management processes. The objective necessity of using computer technology in project management processes. Special project management functions are still subject to automation. Requirements for setting tasks for project management automation. Packages of application programs for project management. Complex software packages for investment, commercial and production activities. Highly specialized computer programs for project management. Features of the combination of software elements of different directions and levels of integration. Export-import of data from various software packages. Universal automated tables and graphs.

Literature: [3, pp. 118-135; 4, pp. 182-194]

Tasks for SRS. Documentation management. Capability Maturity Model (CMM).
9

Lecture 9. Modular control work

All preliminary material, including the basic concepts of project management technology, is presented for the control work.

Tasks include theoretical and practical parts, as well as an additional task, in case of timely completion of the main questions.

Tasks for SRS. Repeat the material of 1-8 lectures.

**
**

Laboratory classes

No The name of the laboratory work Number of aud. hours
1

Laboratory work 1. Strategic analysis and planning of an IT project.

Get an overview ofstrategic management and acquisition of practical skills of strategic planning and strategic analysis of IT projects using SWOT and PEST analysis methods.

Literature: [11, p. 10]

 4
2

Laboratory work 2. IT project integration management.

Get acquainted withissues of managing the integration of IT projects at the current stage through the development of the project charter, the registry of project stakeholders, analysis and classification of the potential impact of stakeholders on the project.

Literature: [11, p. 18]

 4
3

Laboratory work 3. Management of the content of the IT project.

Conduct an analysis of IT project content management issues by developing a project content management plan, a description of the project content, a dictionary of the hierarchical structure of works.

Literature: [11, p. 27]

 4
4

Laboratory work 4. Management of labor resources of the IT project.

Familiarize yourself with the issues of labor management of IT projects by developing a matrix for the distribution of responsibility for the performance of work in the project and a project personnel management plan.

Literature: [11, p. 36]

 4
5

Laboratory work 5. IT project time management.

Familiarize yourself with key IT project time management issues by developing a schedule management plan, a list of project operations, and a list of control events.

Literature: [11, p. 42]

 2

Independent work of a student/graduate student

No. z/p

 The name of the topic submitted for independent processing Number of hours of SRS
1 Basic elements of project management knowledge. Project-oriented management. System approach and integration of projects. 6
2 Define the organizational structure, roles and system of responsibility in the software development project. 6
3 Describe the methods of development and control of the calendar plan of the project. 6
4 Analysis of project scenarios. The essence of simulation modeling. 6
5 Describe Deming's quality assurance philosophy. Statistical methods of quality assessment. 6
6 Analysis of existing design approaches. 6
7 Project audit. Correction of design documents. 6
8 Documentation management. Capability Maturity Model (CMM). 6
9 Preparation for the assessment on the entire material of the module. 6

Policy and control

Policy of academic discipline (educational component)

The system of requirements for the student:

  • rules for attending classes: it is forbidden to evaluate the presence or absence of the winner in the classroom class, including the awarding of incentive or penalty points. According to the RSO of this discipline, points are awarded for the corresponding types of educational activity in lectures and laboratory classes;

  • module tests are performed without the use of auxiliary information from the Internet, a distance course on the Sikorsky platform, notes; incentive points are awarded for educational activity in lectures. The number of encouraged points is no more than 10;

  • academic integrity policy: Code of Honor of the National Technical University of Ukraine "Ihor Sikorsky Kyiv Polytechnic Institute"https://kpi.ua/files/honorcode.pdf establishes general moral principles, rules of ethical behavior of individuals and provides a policy of academic integrity for persons working and studying at the university, which they should be guided by in their activities, including when studying and preparing control measures for the discipline "Project management".

Types of control and rating system for evaluating learning outcomes (RSO)

The student's rating in the discipline consists of the points he receives for:

  1. performance and protection of 5 laboratory works;

  2. execution of 1 modular control work (MKR).

System of rating points and evaluation criteria

Laboratory works:

"perfectly", a complete answer to the questions during the defense (at least 90% of the required information) and a properly prepared protocol for laboratory work - 10 points;

"good", a sufficiently complete answer to the questions during the defense (at least 75% of the required information) and a properly prepared protocol for laboratory work - 8 points;

"satisfactory", incomplete answer to the questions during the defense (at least 60% of the required information), minor errors and a properly prepared protocol for laboratory work - 6 points;

"unsatisfactory", an unsatisfactory answer and/or an improperly prepared protocol for laboratory work - 0 points.

Modular control works:

"perfectly", complete answer (at least 90% of the required information) – 50 points;

"good", a sufficiently complete answer (at least 75% of the required information), or a complete answer with minor errors - 40 points;

"satisfactorily", an incomplete answer (but not less than 60% of the required information) and minor errors - 30 points;

"unsatisfactorily", unsatisfactory answer (incorrect problem solution), requires mandatory rewriting at the end of the semester - 0 points.

Incentive points

for active work at lectures1 point

Intersessional certification

According to the results of educational work for the first 7 weeks, the maximum possible number of points is 20 points. At the first certification (8th week), the student receives "credited" if his current rating is not less than 10 points.

According to the results of 13 weeks of training, the maximum possible number of points is 32 points. At the second certification (14th week), the student receives "credited" if his current rating is not less than 16 points.

Maximum amountweight points of control measures during the semester is:

R=5*rlab+rmkr=5*10+50=100.

Students who at the end of the semester have a rating of less than 60 points, as well as those who want to improve their rating, complete a credit test.

The test consists of 4 questions. Each is evaluated with 25 points.

The sum of points for each of the four questions () is translated into a passing grade according to the table:

Points

R=

ECTS assessment

Traditional assessment

95 - 100

perfectly

Enrolled

85 - 94

very well

75 - 84

good

65 - 74

satisfactorily

60 - 64

enough

R < 60

Not satisfactory

Not counted

The plan was not executed

not allowed

Test:

The sum of the starting points and the points for the modular control work is converted into a final grade according to the table:

Points Rating
95-100 perfectly
85-94 very well
75-84 good
65-74 satisfactorily
60-64 enough
Less than 60 unsatisfactorily
Failure to complete seven laboratory works and completion of the MCR for the grade "unsatisfactory" not allowed

Additional information on the discipline (educational component)

  • the list of theoretical questions submitted for semester control is given in Appendix 1;

  • at the beginning of the semester, the teacher analyzes the existing courses on the topic of the discipline and offers students to take the corresponding free courses. After the student receives a certificate of completion of remote or online courses on the relevant topic, the teacher closes the relevant part of the course (laboratory or lectures) by prior agreement with the group.

Working program of the academic discipline (Syllabus):

Folded Professor, Doctor of Technical Sciences, Bogdan Yaroslavovych Korniyenko

Approved Department of ICT (protocol No. 16 dated 12.06.2024)

Agreed Methodical commission of the faculty[1](protocol No. 10 dated June 21, 2024)

Appendix 1

List of theoretical questions for credit

1. Organizational toolkit of project management (network matrices, matrix of division of administrative management tasks, information technology model).

2. General principles of building organizational structures of project management.

3. Characteristics of automated project management systems.

4. Establishment and development prospects of project management in Ukraine as necessary conditions for economic growth.

5. Project management at the enterprise.

6. The place and importance of projects in the investment strategy of the enterprise.

7. Types of projects and peculiarities of their management.

8. Choosing an effective project management organizational structure.

9. The concept of a multi-level system of planning and control of the project management process.

10. Methods of reducing the duration of project implementation.

11. Methods of estimating project costs.

12. Monitoring the execution of project decisions in space and time.

13. Determination, assessment, reduction and control of risk in the project.

14. Modification of the project portfolio according to the level of minimal risks.

15. formation of the project quality assurance program.

16. Harmonization of quality and cost parameters of the project.

17. Formation and development of the project team.

18. Automation of project management processes.

19. Features of the combination of software of different direction and level of integration.

20. Possibilities of using the MS Excel package in planning and monitoring project implementation.

21. Possibilities of using the MS Project package in planning and monitoring project implementation.

22. Comparative characteristics of project management software.

23. Means of automated development of projects.

24. Management of business projects.

25. The place and role of project management in national programs.

26. The essence and content of communications management in the project.

27. Project documents, their form, classification, requirements for them.

28. Planning information communication in the project.

29. Reporting on project implementation.

30. Administrative closure of the project.

31. Forms of labor productivity control.

32. Methods of project cost control.

33. Characteristics of the factors of compromise decisions.

34. Methodology of making a compromise decision.

35. Reference (base) plan of the project.

36. Performance indicators.

[1] Methodical council of the university - for general university disciplines.