Course detail

CAD in Transportation Structures

FAST-VNC002Acad. year: 2020/2021

Introduction into the problems. 2-D programming systems, basic characteristics of programming products from firms Intergraph, Bentley and AutoDesk. 3-D programming systems, basic characteristics of programming products from firms Intergraph, Bentley and AutoDesk.
Scanning and filtration of data. Vectorisation of mapping data. Digital model of terrain, input, formation, depiction.
Design of a horizontal alignment, stationing, significant points, description, free alignment of the line, equalisation. Longitudinal profile, vertical alignment. Methods of terrain equalisation, characteristic cross sections and slopes.
Pitching and super elevation – methods. Methods of line structure design, cubage, records, imports and exports,
Definition of a route, modeller, depiction, crossing design, design and layout of turnouts. CAD software InRoad/InRail, MxRoad/MxRail.
Introduction into modelling problems of constructions. Basic characteristics of programming products for calculations of FEM, basic phases of a model design. Basic types of tasks.

Language of instruction

Czech

Number of ECTS credits

2

Department

Institute of Railway Structures and Constructions (ZEL)

Learning outcomes of the course unit

A student acquires skills in design of transport structures in CAD software, modelling of structures.

Prerequisites

Basic work in CAD​​, the average knowledge of information technology. The basic design elements of line structures.

Co-requisites

Not applicable.

Planned learning activities and teaching methods

Not applicable.

Assesment methods and criteria linked to learning outcomes

Not applicable.

Course curriculum

1. Introduction into the problems. 2-D programming systems.
2. Basic characteristics of programming products from firms Intergraph, Bentley and AutoDesk. 3-D programming systems.
3. Basic characteristics of programming products from firms Intergraph, Bentley and AutoDesk.
4. Scanning and filtration of data. Vectorisation of mapping data.
5. Digital model of terrain, input, formation, depiction.
6. Design of a horizontal alignment, stationing, significant points, description, free alignment of the line, equalisation.
7. Longitudinal profile, vertical alignment.
8. Methods of terrain equalisation, characteristic cross sections and slopes.
9. Pitching and super elevation – methods.
10. Methods of line structure design, cubage, records, imports and exports,
11. Definition of a route, modeller, depiction, crossing design, design and layout of turnouts. CAD software InRoad/InRail, MxRoad/MxRail.
12. Introduction into modelling problems of constructions.
13. Basic characteristics of programming products for calculations of FEM, basic phases of a model design. Basic types of tasks.

Work placements

Not applicable.

Aims

The objective of the subject is to introduce students to the problems of design of transport structures in CAD software, modelling of structures and to practise acquires knowledge and skills.

Specification of controlled education, way of implementation and compensation for absences

Extent and forms are specified by guarantor’s regulation updated for every academic year.

Recommended optional programme components

Not applicable.

Prerequisites and corequisites

Not applicable.

Basic literature

Not applicable.

Recommended reading

Not applicable.

Type of course unit

 

Lecture

13 hours, optionally

Teacher / Lecturer

Syllabus

1. Introduction into the problems. 2-D programming systems. 2. Basic characteristics of programming products from firms Intergraph, Bentley and AutoDesk. 3-D programming systems. 3. Basic characteristics of programming products from firms Intergraph, Bentley and AutoDesk. 4. Scanning and filtration of data. Vectorisation of mapping data. 5. Digital model of terrain, input, formation, depiction. 6. Design of a horizontal alignment, stationing, significant points, description, free alignment of the line, equalisation. 7. Longitudinal profile, vertical alignment. 8. Methods of terrain equalisation, characteristic cross sections and slopes. 9. Pitching and super elevation – methods. 10. Methods of line structure design, cubage, records, imports and exports, 11. Definition of a route, modeller, depiction, crossing design, design and layout of turnouts. CAD software InRoad/InRail, MxRoad/MxRail. 12. Introduction into modelling problems of constructions. 13. Basic characteristics of programming products for calculations of FEM, basic phases of a model design. Basic types of tasks.

Exercise

26 hours, compulsory

Teacher / Lecturer

Syllabus

The following exercises are practiced teaching tasks: 1. Digital model of terrain, input, formation, depiction. 2. Design of a horizontal alignment, stationing, significant points, description, free alignment of the line, equalisation. 3. Longitudinal profile, vertical alignment. 4. Methods of terrain equalisation, characteristic cross sections and slopes. 5. Pitching and super elevation – methods. 6. Methods of line structure design, cubage, records, imports and exports, 7. Definition of way, modeler of the way, view. 8. Expanding of the way, climbing lanes. 9. Location of switches. 10. Settlement (regression) direction and height points, curvature diagram. 11. Creating excavation, landfill, etc. in a digital model. 12. Solving basic geodetic tasks (methods of alignment)