Data wydruku: 18.11.2016 17:09 Strona 1 z 2 Subject name Subject

Data wydruku: 18.11.2016 17:09 Strona 1 z 2 Subject name Subject

Subject name
Subject code
L:32247W0
Faculty
Department of Highway Engineering
Course name
Transport
Learning area
technical sciences
Learning profile
general academic profile
Study year
2
Type of subject
Obligatory
Study semester
3
Study level
postgraduate studies
ECTS
5.0
Number of ECTS
credits
Learning activity of student
ch
Participation in didactic classes included in study plan
60
Participation in consultation hours
sh
7
Self-study hours
58
Sum
Name of lecturer
67
58
Total number of study hours
125
Number of ECTS credits
5.0
dr inż. Jacek Oskarbski (Main teacher)
Teachers:
mgr inż. Karol Żarski
dr inż. Jacek Oskarbski
mgr inż. Marcin Zawisza
Subject objectives
Obtaining knowledge of planning, design, modeling, implementation, operation and evaluation of the
effectiveness of the Intelligent Transport Systems or their components
Learning outcomes
Mode of delivery
Course outcome
Subject outcome
Method of veryfication
[K_U20] .
Student develops abality to plan,
design, modelling and estimate of
ITS functions and efectiveness.
[SU1] Assessment of task
fulfilment
[K_W13] .
Student develops knowledge to
plan, design, modelling and
estimate of ITS functions and
efectiveness.
[SW1] Assessment of factual
knowledge
at the university
Prerequisites
Knowledge on subjects: Traffic engineering. Transport systems control. Traffic control. Transport process
modelling.
Recommended
components
Subject contents
LECTURE Definitions, history and development of ITS. Aims of ITS. ITS arcitecture. Functional structure
taking road, railway, air and water transport under consideration. Equipment structure. Logic structure
taking links between institutions and transport elements. Technological structure. Navigation systems in
ITS. Regional and local public transport management. Public transport management. Freight management
systems. Information systems. Decision making support and safety systems in vehicles. Transport safety
systems supporting. ITS planning, designing and modelling. Efectiveness estimation of existing and future
ITS systems. EXERCISES ITS overview. Analysies and effectiveness estimation of ITS. Develompent of
architecture. LABORATORY ITS simulations.
Data wydruku:
08.03.2017 12:36
Strona
1 z 2
Recommended
and required
reading
Required reading
1. Jamroz K. i inni.: Systemy sterowania ruchem ulicznym. WKŁ, 1984 r. 2. Krystek R. i inni: Komputerowe
systemy sterowania ruchem ulicznym i drogowym. Przykłady zastosowań. WKŁ 1984 3. Leśko M., Guzik J.:
Sterowanie ruchem drogowym. WPŚ, 2000. 4. Gaca S., Suchorzewski W., Tracz M.: Inżynieria Ruchu
Drogowego WKŁ 2008 5. Malarski M.: Inżynieria Ruchu Lotniczego OWPW, 2005 6. Krystek R i inni: Węzły
drogowe i autostradowe. WKŁ 2008 7. System nawigacyjny Galileo. Aspekty strategiczne, naukowe i
techniczne. WKŁ Warszawa 2006. 8. Januszewski J.: Systemy satelitarne GPS Galilei i inne. PWN Warszawa
2006.
Recommeded reading
1. Periodics: Transport Miejski i Regionalny, Traffic Engineering & Control, Przegląd ITS, Autostrady 2.
Strony www.
Lesson type and
method of
instruction
Lesson type
Number of study hours
Lecture
Tutorial
Laboratory
Project
Seminar
30.0
15.0
15.0
0.0
0.0
Total number of study hours per semester
included in study plan
60
e-learning hours included: 0.0
Assesment
methods and
criteria
Subject passing criteria
Passing threshold
Percentage of the
final grade
60.0
60.0
laboratory
100.0
20.0
exercises
100.0
20.0
Exam
Example issues / example questions / tasks being completed
Development of ITS architecture. Modelling of ITS components.
Language of
instructions
Polish
Work placement
Not applicable
Data wydruku:
08.03.2017 12:36
Strona
2 z 2