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#50288 / #3

Seit SoSe 2020

English

Flight Management and Procedure Design

6

Uijt de Haag, Maarten

Benotet

Portfolioprüfung

English

Zugehörigkeit


Fakultät V

Institut für Luft- und Raumfahrt

35341700 FG Flugführung und Luftverkehr

Verkehrswesen

Kontakt


F 3

Uijt de Haag, Maarten

maarten.uijtdehaag@tu-berlin.de

http://www.ff.tu-berlin.de/menue/studium_und_lehre/

Lernergebnisse

After successful completion of the course, students have: Knowledge: • Overview of the various avionics systems who output is being used by a flight management system (FMS) • Definition of navigation performance parameters: accuracy, integrity, availability and continuity • Overview of the navigation requirements for various applications and phases of flight • Conventional versus performance-based navigation (PBN) • Basics of flight dynamics required for design of an FMS • Flight automation modes • FMS: flight planning, trajectory prediction and optimization, performance computations • FMS: trajectory tracking, communications, human machine interface • Introduction to instrument flight procedure design (IFPD): classification, RNAV and augmentation systems • General IFPD Criteria: instrument flight segments, protection area and obstacle clearance, fundamentals for conventional and RNAV procedure design • Departure Procedures: design principles, vertical consideration, straight and turning departures, environmental considerations • Approach Procedures: runway alignment procedures, classification, final approach criteria, missed approach criteria • Approach Procedures: non-precision approaches, precision approaches, approaches with vertical guidance • ARINC 424 Skills: • Optimize 4D-Trajectory under various criteria (fuel efficiency, time efficiency etc.) • Understand principles of performance based navigation (PBN) • Perform flight management system analysis and assessment • Identify independencies of a flight management system with an autoflight system and other aircraft avionic systems • Analyze and assess instrument flight procedures for various phases of flight • Design of simplified instrument flight procedures according ICAO PANS-OPS Doc 8168 • Perform software-development of a software-based flight management system • Implement navigation performance requirements into flight management systems • Implement autoflight system modes principles into software-based flight management system • Understand principles of ARINC424 NAV-Coding • Express aircraft performance along 4D-Trajectory Competencies: • Solve aviation-related software programming tasks in small groups • Address the role of flight management in flight guidance and air traffic management of manned and unmanned aircraft • Address the role of flight procedure design for flight management and air traffic management

Lehrinhalte

Lecture and supporting exercises • Overview and principles of aircraft navigation (inertial navigation, air data, Terrestrial navigation, satellite-based navigation) • Performance-based navigation, approach and landing systems, RNAV • Definition of navigation performance parameters (accuracy, integrity, availability and continuity) • Overview of the navigation requirements for various applications and phases of flight • Overview and principles of flight management systems • Flight dynamics of fixed-wing aircraft (Point mass model, flight performance, EUROCONTROL Base of aircraft data, BADA) • Autoflight systems modes (autopilot, autothrust, autoflight modes, vertical navigation, lateral navigation, autoland) • Flight trajectory optimization (cost index, mission cruise performance, optimum altitude, required time of arrival) • Flight management systems communication (ACARS, avionics interaction) • Human machine interface design of flight management system • General flight procedure design criteria: regulations and international requirements, protection areas, minimum obstacle clearance • General flight procedure design criteria: terminal area fixes, curves, wind spiral, aircraft classes) • Flight procedure design: Departures and approach procedures (Conventional and RNAV), protection areas and obstacle clearances, specific design criteria) • Differentiation between non-precision approaches, approaches with vertical guidance, precision approaches) • Overview and principles of ARINC424 database coding Project: • Flight procedure design for departure acc. ICAO PANS-OPS Doc. 8168 • Design and software development of flight management system • Implementation of the software FMS into a flight simulation environment

Modulbestandteile

Compulsory area

Die folgenden Veranstaltungen sind für das Modul obligatorisch:

LehrveranstaltungenArtNummerTurnusSpracheSWS ISIS VVZ
Flight Management and Procedure DesignVL3534 L 622SoSeen2
Flight Management and Procedure DesignUESoSeen2
ISIS-Kurssuche nach Veranstaltungen des Moduls

Arbeitsaufwand und Leistungspunkte

Flight Management and Procedure Design (VL):

AufwandbeschreibungMultiplikatorStundenGesamt
Time of presence15.02.0h30.0h
Preparation and follow-up15.04.0h60.0h
90.0h(~3 LP)

Flight Management and Procedure Design (UE):

AufwandbeschreibungMultiplikatorStundenGesamt
Time of presence15.02.0h30.0h
Preparation and follow-up15.04.0h60.0h
90.0h(~3 LP)
Der Aufwand des Moduls summiert sich zu 180.0 Stunden. Damit umfasst das Modul 6 Leistungspunkte.

Beschreibung der Lehr- und Lernformen

Lectures: • Presentations with examples • Demonstrations • Guest lectures Tutorials: • Presentations with examples • Demonstrations Homework: • Working on individual projects in small groups

Voraussetzungen für die Teilnahme / Prüfung

Wünschenswerte Voraussetzungen für die Teilnahme an den Lehrveranstaltungen:

• Flugführung und Luftverkehr - Grundlagen • Flugführung • Aircraft Navigation • Lineare Algebra • Analysis I • Differentialgleichungen • Kinematik und Dynamik

Verpflichtende Voraussetzungen für die Modulprüfungsanmeldung:

Dieses Modul hat keine Prüfungsvoraussetzungen.

Abschluss des Moduls

Benotung

Benotet

Prüfungsform

Portfolio examination

Art der Portfolioprüfung

100 Punkte insgesamt

Sprache(n)

English, German

Prüfungselemente

NamePunkteKategorieDauer/Umfang
Homework/report35schriftlichKeine Angabe
Short test15schriftlichKeine Angabe
Exam50flexibelKeine Angabe

Notenschlüssel

Notenschlüssel »Notenschlüssel 2: Fak IV (2)«

Gesamtpunktzahl1.01.31.72.02.32.73.03.33.74.0
100.0pt95.0pt90.0pt85.0pt80.0pt75.0pt70.0pt65.0pt60.0pt55.0pt50.0pt

Prüfungsbeschreibung (Abschluss des Moduls)

Individual: • Written or oral exam about entire course content (lecture and tutorials) • Written short testat about specific course content (lecture and tutorials) Group: • Homework/report

Dauer des Moduls

Für Belegung und Abschluss des Moduls ist folgende Semesteranzahl veranschlagt:
1 Semester.

Dieses Modul kann in folgenden Semestern begonnen werden:
Sommersemester.

Maximale teilnehmende Personen

Die maximale Teilnehmerzahl beträgt 60.

Anmeldeformalitäten

Registration for the course: • In first lecture or exercise Registration for the exam: • Registration via QISPOS • In exceptional cases via Examination Office Application deadlines can be found in the StuPo and / or will be announced.

Literaturhinweise, Skripte

Skript in Papierform

Verfügbarkeit:  nicht verfügbar

 

Skript in elektronischer Form

Verfügbarkeit:  nicht verfügbar

 

Literatur

Empfohlene Literatur
Keine empfohlene Literatur angegeben

Zugeordnete Studiengänge


Diese Modulversion wird in folgenden Studiengängen verwendet:

Studiengang / StuPOStuPOsVerwendungenErste VerwendungLetzte Verwendung
Luft- und Raumfahrttechnik (M. Sc.)134SoSe 2020SoSe 2025
Technomathematik (M. Sc.)111SoSe 2020SoSe 2025

Studierende anderer Studiengänge können dieses Modul ohne Kapazitätsprüfung belegen.

Sonstiges

Keine Angabe