Course code 06 07 1912 00
Number of ECTS points 3
Course title in the language of instruction 
Rysunek planistyczny
Course title in Polish Rysunek planistyczny
Course title in English 
Urban Planning Drawing
Language of instruction Polish
Form of classes
Lecture Tutorials Laboratory Project Seminar Other Total of teaching hours during semester
Contact hours 30 0 30
E-learning No No No No No No
Assessment criteria (weightage) 1.00 0.00
Unit running the course Instytut Architektury i Urbanistyki
Course coordinator dr inż. Agata Glinkowska-Musiałek
Course instructors dr inż. Maria Agajew, dr inż. Agata Glinkowska-Musiałek, mgr inż. Tomasz Kroc, dr hab. inż. Anetta Kępczyńska-Walczak, mgr inż. Wiktor Wróblewski
Prerequisites 
Technical Drawing
Course learning outcomes
  1. Po zakończeniu kursu student potrafi wyjaśniać pojęcia z zakresu komputerowego wspomagania planowania przestrzennego
  2. Po zakończeniu kursu student potrafi czytać i tworzyć rysunki wspomagające planowanie przestrzenne, stosując odpowiednią symbolikę, normy, standardy
  3. Po zakończeniu kursu student potrafi obsługiwać wybrany program typu GIS (Geographic Information Systems) w stopniu podstawowym
  4. Po zakończeniu kursu student potrafi wskazywać, oceniać przydatność i wykorzystywać zasoby internetowe dotyczące danych przestrzennych
Programme learning outcomes
  1. Knows and understands – extensively – the selected facts, objects and phenomena as well as methods concerning them and theories explaining the complex relations between them – constituting basic knowledge of civil engineering and urban studies as well as architecture, that makes up theoretical bases and selected notions of specific knowledge – typical of the programme of spatial planning studies
  2. Is able to identify, formulate and solve engineering problems by applying the rules of engineering, science and mathematics
  3. Is ready to critically evaluate your knowledge and content and recognize the importance of knowledge in solving cognitive and practical problems, as well as to consult experts in the event of difficulties in solving the problem yourself
Programme content 1. Essentials of computer-aided urban planning and design 2. Drawing standards in urban planning 3. Types of urban planning drawings 4. Creation of urban planning drawings using GIS tools
Assessment methods 
Learning outcome 1 - presentation of given topics, active participation in classes
Learning outcome 2 - homework, class exercises, final test
Learning outcome 3 - homework, class exercises, final test
Learning outcome 4 - presentation of given topics, class exercises, active participation in classes
Grading policies Required are: - positive mark for the presentation of given topics - positive marks for homework - positive marks for class exercises - positive mark for the final test - active participation in classes Final mark is based on: 10 % - presentations of given topics 20 % - homework 20 % - class exercises 40 % - final test 10 % - active participation in classes
Course content LABORATORY 1. Essentials of computer-aided urban planning and design: - definitions, - formal databases for spatial information infrastructure, - spatial data - types, structure, source, metadata, - services - searching, sharing, analysing, presenting of spatial data. 2. Comparing engineering with planning graphics: - content, scale, graphic symbols 3. Workspace management of GIS environment: - thematic layers, - symbolization of objects and layers, - linking the detail of the drawing to the view scale, - attribute tables. 4. Work methods and exercises in a selected GIS application: - basics of program operation: menus, tools, views, settings - acquiring, combining data of various types and from various sources, - entering, creating, editing spatial data of various types, - accuracy, precision of drawing, - visualization techniques, spatial data presentation. 5. Problems of spatial data: - errors, inconsistencies of graphic data and their attributes, - search and correction methods of potential errors, - ways to assess the relevance and reliability of the acquired data.
Basic reference materials 
  1. GIS. Teoria i praktyka (Tytuł oryginalny: Geographic Information System and Science). Paul A. Longley, Michael F. Goodchild, David J. Maguire, David W. Rhind. Redakcja naukowa: Artur Magnuszewski. Tłumaczenie: Maciej Lenartowicz, Artur Magnuszewski, Piotr Werner, Dariusz Woronko. Wydawnictwo PWN. 2008 (dodruk). ISBN: 978-83-01-14904-8
  2. Systemy Informacji Geograficznej. Zarządzanie danymi przestrzennymi w GIS, SIP, SIT, LIS. Grzegorz Myrda, Leszek Litwin. Wydawnictwo Helion. Wydanie I. Warszawa 2005. ISBN: 83-7361-846-5
  3. Obowiązujące normy, ustawy, rozporządzenia
Other reference materials 
  1. Czasopisma specjalistyczne, np. GEODETA - Magazyn Geoinformacyjny (miesięcznik)
  2. Aktualne podręczniki do wykorzystywanych programów komputerowych , m. in. Quantum GIS. Tworzenie i analiza map. Bartłomiej Iwańczak. Wydawnictwo Helion. Gliwice 2013. ISBN: 978-83-246-8511-0
  3. Źródła internetowe
Average student workload outside classroom 
57
Comments 

                    

                    

                        Updated on 
                        2023-02-26 19:12:53
                    

                    

                        Archival course yes/no
                        no