Modern Aspects of the Organization of Construction Production

Goltsev Anatoliy Grigoryevich

The instructor profile

Description: The discipline forms students' readiness to acquire skills in organizing construction production in the field of industrial and civil construction. Summary: fundamentals of organization and planning in construction production; development of technical documentation; control over technological and labor discipline for the purposes of construction production.

Amount of credits: 5

Пререквизиты:

  • Building Constructions

Course Workload:

Types of classes hours
Lectures 15
Practical works 30
Laboratory works
SAWTG (Student Autonomous Work under Teacher Guidance) 30
SAW (Student autonomous work) 75
Course Paper
Form of final control Exam
Final assessment method Written exam

Component: University component

Cycle: Profiling disciplines

Goal
  • The purpose of teaching the discipline is the formation of professional knowledge and necessary practical skills of bachelors in the organization and performance of general construction works.
Objective
  • Providing, in accordance with the qualification characteristics of the bachelor, the knowledge and skills necessary for the successful performance in the future of the relevant functional responsibilities in all positions in all departments related to the field of activity of the builder.
Learning outcome: knowledge and understanding
  • Demonstrate understanding and importance of modern methods of organization and planning of construction processes, information processing using modern technical means.
Learning outcome: applying knowledge and understanding
  • The ability to independently use methods of planning construction works and methods of performing calculations in the development of construction plans and calendar plans in order to apply their knowledge in production
Learning outcome: formation of judgments
  • Demonstrate knowledge of the technical aspects of complex engineering activities and awareness of the organization of construction production, methods and methods of calculating construction documentation in production.
Learning outcome: communicative abilities
  • The ability to work effectively individually and as a team member, demonstrating the skills of organizing the design of construction processes, including in the development of work projects, to be able to show personal responsibility, commitment to professional ethics and standards of professional activity.
Learning outcome: learning skills or learning abilities
  • To carry out communications among builders, analyze existing and independently develop technical documentation on the design of construction processes, clearly state and protect the results of their activities at the enterprises of the construction and installation complex and in branch scientific organizations, improve their knowledge during long-distance studies
Teaching methods

Traditional technologies are provided for teaching: classroom classes and independent work of students The lecture course is presented in multimedia form. When presenting the lecture material at the beginning and at the end of the lecture, motivational speech is used. Text, audio and video information, graphs, tables, etc. are used in lectures, presentations and practical classes.

Assessment of the student's knowledge

Teacher oversees various tasks related to ongoing assessment and determines students' current performance twice during each academic period. Ratings 1 and 2 are formulated based on the outcomes of this ongoing assessment. The student's learning achievements are assessed using a 100-point scale, and the final grades P1 and P2 are calculated as the average of their ongoing performance evaluations. The teacher evaluates the student's work throughout the academic period in alignment with the assignment submission schedule for the discipline. The assessment system may incorporate a mix of written and oral, group and individual formats.

Period Type of task Total
1  rating Determination of the need for labor resources. Rationing of labor costs. 0-100
Determination of the need for mechanization tools, building materials and products.
Preparatory work in the design of the calendar plan.
The choice of methods of production of works, machines and mechanisms.
Development of a calendar schedule.
2  rating Design of construction master plans. 0-100
Calculation of the need for temporary buildings and structures.
Calculation of the need for water and energy resources.
Graphic design of the construction plan.
Total control Exam, Course Paper 0-100
The evaluating policy of learning outcomes by work type
Type of task 90-100 70-89 50-69 0-49
Excellent Good Satisfactory Unsatisfactory
Evaluation form

The student's final grade in the course is calculated on a 100 point grading scale, it includes:

  • 40% of the examination result;
  • 60% of current control result.

The final grade is calculated by the formula:

FG = 0,6 MT1+MT2 +0,4E
2

 

Where Midterm 1, Midterm 2are digital equivalents of the grades of Midterm 1 and 2;

E is a digital equivalent of the exam grade.

Final alphabetical grade and its equivalent in points:

The letter grading system for students' academic achievements, corresponding to the numerical equivalent on a four-point scale:

Alphabetical grade Numerical value Points (%) Traditional grade
A 4.0 95-100 Excellent
A- 3.67 90-94
B+ 3.33 85-89 Good
B 3.0 80-84
B- 2.67 75-79
C+ 2.33 70-74
C 2.0 65-69 Satisfactory
C- 1.67 60-64
D+ 1.33 55-59
D 1.0 50-54
FX 0.5 25-49 Unsatisfactory
F 0 0-24
Topics of lectures
  • Fundamentals of the organization of construction production
  • Engineering surveys, design and construction preparation
  • Fundamentals of the flow organization of construction production
  • Preparation of construction production
  • Calendar planning
  • Design of the construction master plan
  • Organization of transport in construction
  • Organization of construction quality control and author supervision
  • Organization of acceptance of buildings and structures into operation
  • Organization of the creation of temporary buildings and structures on construction sites
  • Temporary engineering communications
  • Design of engineering networks on the construction site
  • Fundamentals of labor organization
  • The system of norms and standards in construction
  • Design of warehouse premises
Key reading
  • 1. Lebedev V.M. Fundamentals of production in construction. Study guide. Moscow, Infa-Engineering, 2021 2. Oleinik P.P., Kazaryan R.R., Bushuev N.I. Methods of organization of construction and production of construction and installation works. Educational electronic manual. FGBOU VO "NIK MGSU", 2020 3. Dikman L.G. Organization of construction production. Textbook. *Ed.: DIA, 2017, 588 p. 4. Borilova L.N. Organization and technology of construction stone works. - Ed.: Akademkniga, 2015, 176 p. 5. Sychev S.U. Promising technologies of construction and reconstruction of buildings. - Ed.: Lan, 2017, 292 p. 6. Mikhailov A.Yu. Technology and organization of construction. The workshop. Educational and methodical manual. - Ed.: Infra-engineering, 2017, 196 p. 7. Collections of SN RK 8.02-05-2002 8. Collections of ENiR RK
Further reading
  • 1 Gaevoy A.F. Usyk S.A. Course and diploma design. Industrial and civil buildings. Stroyizdat, 1987, 264str. 2 Technology of construction production. Textbook. Edited by G.M. Badin, A.V. Meshcheryakova - M.: Stroyizdat, 1987. 3 Technology of construction production. Textbook. Ataev S.S., Danilov N.N., Prykin V.V. et al. – M.: Stroyizdat, 1984. 4 Technology of construction production. Textbook. Edited by Danilova N.N. – M.: Stroyizdat, 1988. 5 Technology of construction production. Textbook. Edited by Litvinov O.O. and Belyakova Yu.I. – Kiev: Higher School, 1985. 6 Vilman Yu.A. Fundamentals of robotics in construction. Study guide. – Moscow: Higher School, 1989. 7 Isakhanov G.V. Fundamentals of scientific research in construction. Study guide. – Kiev: Higher School, 1985. 8 Onishchenko A.G. Finishing works in construction. Study guide. – Moscow: Higher School, 1989. 9 Technology of construction production in winter conditions. Textbook. – L.: Stroyizdat, 1984. 10 Khamzin S.S.