KFT07071 – Dimensioning and Assessing of Unsignalized Road Traffic Infrastructure

Modul

Dimensioning and Assessing of Unsignalized Road Traffic Infrastructure
Dimensioning and Assessing of Unsignalized Road Traffic Infrastructure

Modulnummer

KFT07071
Version: 1

Fakultät

Kraftfahrzeugtechnik

Niveau

Master

Dauer

1 Semester

Turnus

Wintersemester

Modulverantwortliche/-r

Prof. Dr.-Ing. Felix Rudolph
felix.rudolph(at)fh-zwickau.de

Dozent/-in(nen)

Prof. Dr.-Ing. Felix Rudolph
felix.rudolph(at)fh-zwickau.de

Lehrsprache(n)

Englisch
in "Dimensioning and Assessing of Unsignalized Road Traffic Infrastructure"

ECTS-Credits

6.00 Credits

Workload

180 Stunden

Lehrveranstaltungen

4.00 SWS (4.00 SWS Vorlesung mit integr. Übung / seminaristische Vorlesung)

Selbststudienzeit

120.00 Stunden
75.00 Stunden Selbststudium - Dimensioning and Assessing of Unsignalized Road Traffic Infrastructure
30.00 Stunden Vorbereitung Prüfung - Dimensioning and Assessing of Unsignalized Road Traffic Infrastructure
15.00 Stunden Beleg(e) - Dimensioning and Assessing of Unsignalized Road Traffic Infrastructure

Prüfungsvorleistung(en)

Keine

Prüfungsleistung(en)

schriftliche Prüfungsleistung
Modulprüfung | Prüfungsdauer: 90 min | Wichtung: 100%
in "Dimensioning and Assessing of Unsignalized Road Traffic Infrastructure"

Medienform

Keine Angabe

Lehrinhalte/Gliederung

Introduction
Framework conditions and solution strategies
Traffic measurement and statistical data preparation
Description of traffic flow on road sections (kinematics and dynamics ot he individual vehicle, distribution of characteristic values, state equation and fundamental diagram)
Regulations of the design and assessment of road traffic facilities
Assessments principles for sections and junctions without traffic lights (model and LOS determination, procedure adaption and capacity limits)
Parking Facilities: Parking Space in Urban Areas (basics and procedure); Parking Structures (check-in / check-out facilities and entire facility); Parking Guidance (basics, design procedure, control procedure, effects and trends)

Included: practical work

Qualifikationsziele

The student knows the fields of work of traffic engineering. They possess an understanding of traffic flow theory and can articulate various traffic flow states respective ot he fundemental diagram. Additionally, the student can proficiently conduct calculations related ot he kinematics and dynamics of individual vehicles, as well as analyze the distribution of characteristic values. He / she knows procedures of assessment and determining levels of service (LOS) of selected urban traffic facilities: unsignalized flow facilities and parking facilities.

The student is able to use these methods in practice and knows the basic theory behind these procedures. He / she knows the technology of traffic control on road sections and on road networks in urban areas. He/she can use the knowledge even in new situation, with which he/she is not familiar. This enables him/her, to manage projects autonomous and to work in research groups. He/she can communicate with experts and researchers but also with non-academics by team working on problem solutions.

Besondere Zulassungsvoraussetzung

keine

Empfohlene Voraussetzungen

Solid knowlege of probability, differental and integral calculus, fluid mechanics, electronics and computer sciences; knowlege of using computer programs and programming simple kinds of them; basic knowlege of simulation, automotive engineering, commmunication technology.

Fortsetzungsmöglichkeiten

keine Angabe

Literatur

Forschungsgesellschaft für Straßen- und Verkehrswesen (FGSV) (Hrsg.): Handbuch für die Bemessung von Straßenverkehrsanlagen (HBS), Teil S Stadtstraßen. Köln, 2015.

Forschungsgesellschaft für Straßen- und Verkehrswesen (FGSV) (Hrsg.): Empfehlungen für Anlagen des ruhenden Verkehrs (EAR). Köln, 2005/2012.

Forschungsgesellschaft für Straßen- und Verkehrswesen (FGSV) (Hrsg.): Hinweise zum Fundamentaldiagramm - Grundlagen und Anwendungen (H Fundamentaldiagramm). Köln, 2005.

Schnabel, Werner; Lohse, Dieter: Grundlagen der Straßenverkehrstechnik und der Verkehrsplanung, Band 1: Straßenverkehrstechnik. Berlin, 2011.

Transportation Research Board (TRB): Highway Capacity Manual. Washington D. C., 2010.

Hinweise

Keine Angabe

Zuordnung zum Curriculum

100 Road Traffic Engineering - Master 2024 Vollzeit

Detailansicht schließen