Helicopter Hover Control VDM1-project F10 Lasse, Christian, Frederik.

Slides:

Advertisements

Similar presentations

AUTOMATIC FLIGHT CONTROL SYSTEM (AFCS)

Advertisements

RC Helicopter Mechanism 1 Sylvain Marron. 1: Mechanism Clutch Main Gear Tail Rotor Drive Swash Plate 2.

Aerodynamics FF-1/01 Aero Foundations Translating Tendency Ground Effect Translational Lift Transverse Flow Dissymmetry of Lift Drag Total Aerodynamic.

Contact Maneuvers.

Torque Reaction The fuselage’s reaction to the turning of the main rotor system is Torque Reaction Newton's third law of motion states that for every action,

Retreating Blade Stall

The Helicopter.

Helicopter Hover Control VDM1-project F10 Lasse, Christian, Frederik.

Radio Settings Curves 1 Sylvain Marron Modèle Air Club du Mâconnais Friday, March 4th 2011.

PREJIN VIJESH RAHMAN SAJEER. Heavier than air aerodynes, including autogyros, helicopters and variants, and conventional fixed-wing aircraft: aeroplanes.

Leading Cadet Training

Uncontrolled copy not subject to amendment

FS XXI Maneuvering Flight and Power Management

Helicopter Performance, Limitations, and Load Calculations

EGN Introduction to Aeronautical Engineering

Lesson 13 Propel me. In a helicopter, you can move in any direction or you can rotate 360 degrees.

PRINCIPLES OF FLIGHT CHAPTER 7 THE HELICOPTER.

AUTO2050 Soft Computing A review of fuzzy control for helicopter navigation By Thomas Höglund

Principles of Flight Chapter 6 – Helicopters. Introduction A helicopter generates both lift and thrust by using its rotor blades rather than wings. Blades.

Know the principles of flight and control for rotary wing aircraft

Ex 6 Straight & Level Flight Aim To attain and maintain flight in a straight line and at a constant altitude.

Boy Scouts Aviation Merit Badge Control Surfaces.

Lesson 16: Aircraft Instrument Systems

Understanding Visual Illusions

School of Aviation Safety

How a helicopter is able to fly

Principles Of Rotary Flight

HELICOPTER By Vinod Kumar K.

Functions of the Stabilator

SPUD TC (OCT 07) REVISION ACADEMICS. SPUD TASK 1114 PERFORM A ROLLING TAKEOFF.

UH-60 Mixing Unit, Electronic Coupling, & Stabilator

Idea Development TTTTo have a Better Understanding of How Mechanically a Helicopter Flies IIIIntrigue of part design AAAA chance to better.

Introduction to Control / Performance Flight.

By Mariam and Jane Contents History How does a heliman work? Logo/Acronym Designs Side/Front view Bibliography Credits.

Presented by:- Suman Kumar. INTRODUCTION : Quad-rotor helicopters are emerging as a popular unmanned aerial vehicle configuration because of their simple.

Smart Icing Systems Review, June 19-20, Aircraft Autopilot Studies Petros Voulgaris Vikrant Sharma University of Illinois.

Ujaval Patel Flight Instruments 6 Basic Instruments Airspeed Indicator Artificial Horizon Altimeter Bank and Yaw Indicator Heading Indicator Vertical.

Uncontrolled copy not subject to amendment Principles of Flight Learning Outcome 4 Know the principles of flight and control for rotary wing aircraft Identify.

The ability to maintain and control rotor RPM in the event of an engine malfunction so controlled flight may be continued to the ground. AutorotationAutorotation.

By: Stuti Vyas( ) Drashti Sheth( ) Jay Vala( ) Internal Guide Mr. J. N. Patel.

© 2009 Aviation Supplies & Academics, Inc. All Rights Reserved. Principles of Helicopter Flight Chapter 6 Aerodynamic Forces.

1 Use or disclosure of this information is subject to the restriction on the title page of this document. Flight Symbology to Aid in Approach and Landing.

Initial Pilot Ground School Tail Rotor Drive System

Initial Pilot Ground School

Initial Pilot Ground School Engine Monitoring, Controls, Fuel System

Flight Manual - Sections 5 & 6 Performance Charts and Weight & Balance

AUTOMATIC FLIGHT CONTROL SYSTEM (AFCS)

ROTARY WING AERODYNAMICS

Arizona Army National Guard Aviation Support Facility #1 AERODYNAMICS.

Flight Instrumentation

1 2 Terminal Learning Objective Interpret flight instruments indications needed to maintain aircraft attitude during IFR flight.

Aircraft Auto Pilot Roll Control System

Settling with Power (vortex ring state)

PRINCIPLES OF FLIGHT Click on ‘Slide Show’ then ‘View Show’ to start.

 What’s so unusual about it  Rudder the critical understanding!  Nose High  Nose Low  Spiral  Stalls  Spins.

AUTOMATIC FLIGHT CONTROL SYSTEM (AFCS)

Helicopter Flight Dynamics

Non-Drive End Vertical Motor Bearing Point

Conestoga Valley High School Aerospace Technology

RealFlight Shaw STEM Lab 2016.

How Do Helicopters Fly? An Introduction to Rotor Aeromechanics

Loss of Tail Rotor Effectiveness

Air Training Corps 1011(Amesbury) Squadron Mobiles OFF

Preview Multiple Choice Short Response Extended Response.

Front Range Helicopters

Conestoga Valley High School Aerospace Technology

A Bio-Inspired Flying Robot Sheds Light on Insect Piloting Abilities

Module 2: Navigation London’s Air Ambulance

Throttle, Yaw, Pitch, Roll

Presentation transcript:

Helicopter Hover Control VDM1-project F10 Lasse, Christian, Frederik

Purpose The purpose of the model is to maintain hover by actuators on the basis of data about position and orientation of the helicopter acquired from sensors. 2

Req’s A control-system used to maintain hover- position of a helicopter. The pilot puts the helicopter in hover before the system can be activated. When in hover, the pilot activates the system. 3

Req’s The set position must be maintained: ▫Hover-position compromised -> System reacts -> Hover-position is regained. ▫Hover-position cannot be maintained -> System gives an alarm -> Controls are handed over to the pilot. ▫(sensor -> system -> “actuator”) 4

Req’s (verbose) The set position must be maintained: ▫When the system gets a sensor-value indicating that hover-position is compromised, the system must react to regain hover-position by manipulating the actuators. ▫If a hover-position cannot be maintained, an alarm must be given, and the controls must be handed over to the pilot. 5

Req’s (actuators) Five actuators are needed to adjust the following parameters: ▫Cyclic (lateral)  Adjust side-ways horizontal movement ▫Cyclic (longitudinal)  Adjust forward/backwards horizontal movement ▫Collective  Adjust height and vertical speed (v.speed must be zero) ▫Anti-torque  Adjust heading of the helicopter ▫Throttle  Adjust RPM of main rotor 6

Req’s (sensors) Sensors needed for surveillance of the before mentioned parameters. ▫Altitude ▫Horizontal position ▫Gyrometer (heading, attitude (pitch), roll) 7

Next time Refine requirements. Identify possible classes and operations. UML class diagram 8