Course code 06 65 2034 01
ECTS credits 3
Course name in language of instruction 
Information Technology II - BIM with Elements of Algorithmics
Course name in Polish Information Technology II - BIM with Elements of Algorithmics (Technologie informatyczne II - BIM z elementami algorytmiki)
Course name in English 
Information Technology II - BIM with Elements of Algorithmics
Language of instruction English
Type of classes
Teaching hours per semester
Lecture Tutorials Laboratory Project Seminar Other E-learn.
Contact hours 30 15
Distance learning No No No No No No No
Weighted grades 0.75 0.25
Unit running the course Instytut Architektury i Urbanistyki
Course coordinator dr hab. inż. Anetta Kępczyńska-Walczak
Course instructors --- Karolina Dróżdż, mgr inż. Tomasz Kroc, dr hab. inż. Anetta Kępczyńska-Walczak
Prerequisites 
Completion of the course: Principles of BIM
Course learning outcomes
  1. On successful completion of the course student will be able to explain the concept and workflow of the building information modeling (BIM) process
  2. On successful completion of the course student will be able to explain the concept of algorithmics in relation to BIM processes
  3. On successful completion of the course student will be able to build information models of architectural objects on intermediate complexity level in BIM software
  4. On successful completion of the course student will be able to build simple BIM library objects
  5. On successful completion of the course student will be able to apply selected AI functions in the BIM model.
  6. On successful completion of the course student will be able to present his/her design solutions using BIM tools
Assessment methods Learning outcome 1 - active participation in classes, observation Learning outcome 2 - active participation in classes, observation Learning outcome 3 - final work, tasks, final presentation Learning outcome 4 - final work, tasks, final presentation Learning outcome 5 - final work, tasks, final presentation Learning outcome 6 - active participation in classes, observation, final presentation
Programme learning outcomes
  1. Knows and understands structural, construction and engineering problems related to building design
  2. Knows and understands the problems of physics, technology and functions of buildings to the extent that ensures the comfort of use and protection against weathering
  3. Knows and understands the principles, solutions, structure and building materials used to perform simple engineering tasks in the field of architectural and urban design
  4. Can use the experience gained during studies to make a critical analysis of the conditions and formulate conclusions for design in an interdisciplinary context
  5. Can prepare a graphic, written and oral presentation of his/her design concepts in the field of architecture and urban planning, meeting the requirements of a professional record appropriate for architectural and urban design
  6. Is ready to learn throughout life, including the application for the second-cycle and post-graduate studies or participating in other forms of education
Grading policies Assessment requirements: - active participation in classes - positive grades for all tasks - a positive grade for the final work - a positive grade for the final presentation The final grade is based on: 40 % - tasks 40 % - final work 10 % - final presentation 10 % - active participation in classes, observation
Course content This course is certified by the New European Bauhaus Academy, and it focuses on Information Technology for Sustainable Design - BIM. The course consists of: 1. Module 1 (e-learning): a. The concept and workflow of the building information modeling (BIM); b. Introduction to the concept of algorithmics concerning BIM processes; c. Exploring simulation tools for low-energy building design in BIM. 2. Module 2 (laboratory): a. Designing elements of information models of architectural objects in BIM software; b. Building elements interactive schedules; c. Analytical data, sun-study analysis, building performance. 3. Module 3 (final task): a. Building an information model of a low-energy architectural object on the intermediate complexity level in BIM software; b. Presenting design solutions using BIM tools and AI; c. Evaluation of the final results in the context of sustainable design.
Basic reference materials 
  1. A. Tomana. BIM. Innowacyjna technologia w budownictwie. Podstawy, standardy, narzędzia. Builder, Wydanie specjalne, Kraków 2015
  2. D. Kasznia, J. Magiera, P. Wierzowiecki. BIM w praktyce. Standardy, wdrożenie, case study. Wydawnictwo Naukowe PWN SA, Warszawa 2017
  3. C. Eastman, P. Teicholz, R. Sacks, K. Liston: BIM handbook: a guide to building information modeling for owners, managers, designers, engineers and contractors. John Wiley & Sons, 2011
  4. Ch. Panteli, A. Kylili, P.A. Fokaides: Building information modelling applications in smart buildings: From design to commissioning and beyond: A critical review, Journal of Cleaner Production 265 (2020) 121766, Elsevier
Other reference materials 
  1. www.graphisoft.com
  2. www.archicad.pl
  3. https://www.decarbonizedesign.com/
  4. A. Sandak, J. Sandak, M. Brzezicki, A. Kutnar: Bio-based Building Skin, Springer Open, 2019
Course workload
Type of classes Teaching hours
Laboratory 30
E-Learning 15
Preparation of the final work 18
Preparation of the final presentation 3
Series of exercices to be done after classes 20
SUM : 86
Comments 
 This course is certified by the New European Bauhaus Academy.
Updated on 2025-02-17 15:23:53