Stabilization and control of a quad-rotor micro-UAV using vision sensors /

Fowers, Spencer G.,

January 2008

Thesis (M.S.)--Brigham Young University. Dept. of Electrical and Computer Engineering, 2008. / Includes bibliographical references (p. 85-89).

An analysis of the manpower costs associated with the Helicopter Air Wing Commander concept

Brennan, Peter J.

January 1998

Thesis (M.S. in Management) Naval Postgraduate School, March 1998. / "March 1998." Thesis advisor(s): John E. Mutty, Richard B. Doyle. Includes bibliographical references (p. 59-61). Also available online.

Comparative study of aerial platforms for Mars exploration

Dhanji, Nasreen.

January 2007

No description available.

Airplanes.

Airships.

Helicopters.

A methodology for the fatigue analysis of lug/pin joints /

Carrier, Gérard

January 1988

No description available.

Fatigue analysis and reconstruction of helicopter load spectra

Khosrovaneh, Abolhassan K.

January 1989

Helicopter load histories applied to notched metal samples are taken as examples, and their fatigue lives are predicted by using a simplified version of the local strain approach. This simplified method requires an input load history in the form of the rain-flow matrix and places bounds on the fatigue life. A peak-valley reconstructed history is generated based on the standard spectrum Helix. A second history studied is a more irregular one based on actual flight data. lt is used to generate three reconstructed histories based on three principles: peak-valley, to-from, and rain-flow. Emphasis is given to the rain-flow reconstruction method, and different reconstruction methods based on rain-flow cycle counting are presented. Life predictions are presented for all of the above cases, and the comparison with test data and other considerations suggest that the most promising reconstruction approach is one based on rain-flow cycle counting. Finally, a method is presented which reconstructs a history with the same rain-flow cycles and also the same distribution of relative time increments between adjacent peaks and valleys. This reconstructed history gives the same fatigue life as the original history. / Ph. D.

LD5655.V856 1989.K567

Airframes -- Fatigue

Helicopters -- Cargo

Development of a Low-Cost, Low-Weight Flight Control System for an Electrically Powered Model Helicopter

Carstens, Nicol

03 1900

Thesis (MScEng (Electrical and Electronic Engineering))--University of Stellenbosch, 2005. / This project started a new research area in rotary-wing °ight control in the Computer and Control group at the University of Stellenbosch. Initial attempts to build a quad-rotor vehicle exposed di±culties which motivated changing to a standard model helicopter as a test vehicle. A JR Voyager E electrically powered model helicopter was instrumented with low-cost, low-weight sensors and a data communication RF link. The total cost of the sensor, communication and microcontroller hardware used is approximately US$ 1000 and the added onboard hardware weighs less than 0:4 kg. The sensors used to control the helicopter include a non-di®erential u-Blox GPS receiver, Analog Devices ADXRS150 rate gyroscopes, Analog Devices ADXL202 accelerometers, a Polaroid ultrasonic range sensor and a Honeywell HMC2003 magnetometer. Successful yaw, height and longitudinal position control was demonstrated. Signi¯cant further work is proposed, based on the literature study performed and the insights and achievements of the ¯rst rotary-wing unmanned aerial vehicle project in the group.

Theses -- Electronic engineering

Theses -- Computer science

Dissertations -- Computer science

Dissertations -- Electronic engineering

Helicopters -- Control systems

Drone aircraft

Helicopters -- Models

Using helicopter noise to prevent brownout crashes: an acoustic altimeter

Freedman, Joseph Saul

08 July 2010

This thesis explores one possible method of preventing helicopter crashes caused by brownout using the noise generated by the helicopter rotor as an altimeter. The hypothesis under consideration is that the helicopter's height, velocity, and obstacle locations with respect to the helicopter, can be determined by comparing incident and reflected rotor noise signals, provided adequate bandwidth and signal to noise ratio. Heights can be determined by measuring the cepstrum of the reflected helicopter noise. The velocity can be determined by measuring small amounts of Doppler distortion using the Mellin-Scale Transform. Height and velocity detection algorithms are developed, optimized for this application, and tested using a microphone array. The algorithms and array are tested using a hemianechoic chamber and outside in Georgia Tech's Burger Bowl. Height and obstacle detection are determined to be feasible with the existing array. Velocity detection and surface mapping are not successfully accomplished.

Acoustics

Mellin transforms

Digital signal processing

Cepstrum

Helicopters

Helicopters Field of view

Altimeter

Altitudes Measurement

Aerodynamic noise

Algorithms

Optimized design of a composite helicopter structure by resin transfer moulding

Thériault, France.

January 2007

This research project is partnership project involving industrial, university and government collaborators. The overall objective is to develop and enhance tools for use in Resin Transfer Moulding (RTM) design technology in order to re-design existing metallic parts using composite materials. / The specific objective of this work is to present preliminary research findings of the development of an optimized design of a leading edge slat (horizontal stabilizer component) from the Bell Model 407 Helicopter. The results presented here focus on the static stress analysis and the structure design aspects. The findings will serve as a basis for future design optimization as well as further developments in the use of RTM technology in re-designing metallic aeronautic components and can be considered to be "semi-optimized". / This research is based on extensive finite element analysis (FEA) of several composite material configurations, with a comparison made with the original metallic design. Different key criteria of the part design such as ply lay-up, bracket geometry, angle and configuration are tested using FEA technology with the objective of selecting the design which is minimizing stress concentrations. The influence of the modification of model-related parameters was also studied. / Preliminary comparative studies show that the slat configuration with half brackets opened towards the inside with an angle of 70 degrees (angle between the top of the airfoil and the side of the bracket) is the best option according to minimum stress concentration and structural flexibility. This choice is confirmed by other factors such as material savings and ease of processing.

Helicopters -- Materials.

Gums and resins, Synthetic.

Carbon composites.

Thermosetting composites.

Molding (Chemical technology)

Injection molding of plastics.

Optimal estimation and sensor selection for autonomous landing of a helicopter on a ship deck

Irwin, Shaun George

12 1900

Thesis (MEng)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: This thesis presents a complete state estimation framework for landing an unmanned helicopter on a ship deck. In order to design and simulate an optimal state estimator, realistic sensor models are required. Selected inertial, absolute and relative sensors are modeled based on extensive data analysis. The short-listed relative sensors include monocular vision, stereo vision and laser-based sensors. A state estimation framework is developed to fuse available helicopter estimates, ship estimates and relative measurements. The estimation structure is shown to be both optimal, as it minimises variance on the estimates, and flexible, as it allows for varying degrees of ship deck instrumentation. Deck instrumentation permitted ranges from a fully instrumented deck, equipped with an inertial measurement unit and differential GPS, to a completely uninstrumented ship deck. Optimal estimates of all helicopter, relative and ship states necessary for the autonomous landing on the ship deck are provided by the estimator. Active gyro bias estimation is incorporated into the helicopter’s attitude estimator. In addition, the process and measurement noise covariance matrices are derived from sensor noise analysis, rather than conventional tuning methods. A full performance analysis of the estimator is then conducted. The optimal relative sensor combination is determined through Monte Carlo simulation. Results show that the choice of sensors is primarily dependent on the desired hover height during the ship motion prediction stage. For a low hover height, monocular vision is sufficient. For greater altitudes, a combination of monocular vision and a scanning laser beam greatly improves relative and ship state estimation. A communication link between helicopter and ship is not required for landing, but is advised for added accuracy. The estimator is implemented on a microprocessor running real-time Linux. The successful performance of the system is demonstrated through hardware-in-the-loop and actual flight testing. / AFRIKAANSE OPSOMMING: Hierdie tesis bied ’n volledige sensorfusie- en posisieskattingstruktuur om ’n onbemande helikopter op ’n skeepsdek te laat land. Die ontwerp van ’n optimale posisieskatter vereis die ontwikkeling van realistiese sensormodelle ten einde die skatter akkuraat te simuleer. Die gekose inersie-, absolute en relatiewe sensors in hierdie tesis is op grond van uitvoerige dataontleding getipeer, wat eenoogvisie-, stereovisieen lasergegronde sensors ingesluit het. ’n Innoverende raamwerk vir die skatting van relatiewe en skeepsposisie is ontwikkel om die beskikbare helikopterskattings, skeepskattings en relatiewe metings te kombineer. Die skattingstruktuur blyk optimaal te wees in die beperking van skattingsvariansie, en is terselfdertyd buigsaam aangesien dit vir wisselende mates van skeepsdekinstrumentasie voorsiening maak. Die toegelate vlakke van dekinstrumentasie wissel van ’n volledig geïnstrumenteerde dek wat met ’n inersiemetingseenheid en ’n differensiële globale posisioneringstelsel (GPS) toegerus is, tot ’n algeheel ongeïnstrumenteerde dek. Die skatter voorsien optimale skattings van alle vereiste helikopter-, relatiewe en skeepsposisies vir die doeleinde van outonome landing op die skeepsdek. Aktiewe giro-sydige skatting is by die posisieskatter van die helikopter ingesluit. Die proses- en metingsmatrikse vir geruiskovariansie in die helikopterskatter is met behulp van ’n ontleding van sensorgeruis, eerder as gebruiklike instemmingsmetodes, afgelei. ’n Volledige werkingsontleding is daarna op die skatter uitgevoer. Die optimale relatiewe sensorkombinasie vir landing op ’n skeepsdek is met Monte Carlo-simulasie bepaal. Die resultate toon dat die keuse van sensors hoofsaaklik van die gewenste sweefhanghoogte gedurende die voorspellingstadium van skeepsbeweging afhang. Vir ’n lae sweefhanghoogte is eenoogvisie-sensors voldoende. Vir hoër hoogtes het ’n kombinasie van eenoogvisie-sensors en ’n aftaslaserbundel ’n groot verbetering in relatiewe en skeepsposisieskatting teweeggebring. ’n Kommunikasieskakel tussen helikopter en skip is nie ’n vereiste vir landing nie, maar word wel aanbeveel vir ekstra akkuraatheid. Die skatter is op ’n mikroverwerker met intydse Linux in werking gestel. Die suksesvolle werking van die stelsel is deur middel van hardeware-geïntegreerde simulasie en werklike vlugtoetse aangetoon.

Complete state sensor models

Attitude estimators

Unmanned helicopters

Automated landing

Helicopters -- Landing

Theses -- Electronic engineering

Dissertations -- Electronic engineering

UCTD

Optimized design of a composite helicopter structure by resin transfer moulding

Thériault, France.

January 2007

No description available.

Gums and resins, Synthetic.

Injection molding of plastics.

Helicopters -- Materials.

Molding (Chemical technology)

Carbon composites.

Thermosetting composites.