Impact of dynamic scatterers upon frequency- and amplitude-modulation : a theoretical and practical treatise in the context of the Doppler-VOR and wind turbines / Björn Neubauer.

Format:

Book

Author/Creator:

Neubauer, Björn, author.

Language:

English

Subjects (All):

Doppler radar.

Doppler tracking.

Wind turbines.

Physical Description:

1 online resource (349 pages)

Edition:

1st ed.

Place of Publication:

Göttingen, Germany : Cuvillier Verlag, [2021]

Summary:

In 1959 Anderson et. al publish their paper "The CAA Doppler Omnirange". In that contribution they present their analytically derived receiver?model for quantifying the bearing error of the Doppler VOR (DVOR) due to multipath propagation. At that time this model exclusively serves for comparing the susceptibility of the DVOR with the one of its precursor which is the conventional VOR. For this purpose, they take the impact of a static omnidirectional scatterer solely upon one signal component into account, which is the frequency modulated one.Due to the number of already installed wind turbines and especially due to the desire to install way more turbines, the signal integrity of the DVOR has become a very timely topic in Germany in the context of renewables energies.In this dissertation Anderson's basic generic model is both improved and substantially extended with respect to the impact of wind turbines upon the multipath signal. In the first part of this work Anderson's error model is quantitively expended with respect to the relative amplitude of the scattering path. Furthermore, the analytical model is fundamentally improved with respect to quality: For the first time the analytical model allows to take the dynamic effects of wind turbines into account, i.e. both Doppler shifts as well as an additional amplitude modulation due to the scattering object - namely the wind turbine. Additionally, this analysis is carried out for the DVOR's reference provided by an amplitude modulated signal component, which has been completely neglected so far by the current state of the art.These analytical models allow for extensive parameter studies, which are applicable e.g. for the validation of both numerical simulation tools as well as approaches by measurements.In the second part of this work the dynamic impact of wind turbines upon the DVOR's bearing intelligence is investigated by measurements. This is carried out in an environment scaled with a ratio of 1: 144. It utilizes the equipment realized within the projects "Sk-ILS" and "min-Vor-Win" and expands it by inventing a procedure for crafting and electromagnetically characterizing voluminous scattering bodies. These allow for a systematic analysis of the impact of terrain topologies.A variety of measurements and the corresponding fundamental analysis address: Doppler shifts and Doppler spectra depending on the orientation of the plane of rotation, the blades' shape, revolutions per minute, and the position of the turbines as well as the amplitude and width of Doppler spectra.Fundamental results of this work are e.g.: A 10 km safety?radius of the DVOR's protective area, up to now applied in Germany and as well recommended by the ICAO, can be considered way to restrictive. Furthermore, the receiver settings play a crucial role, when determining the bearing error. Thus, stating the latter makes it mandatory to state the receiver settings as well.

Contents:

Intro

1. Prologue

1.1. Summing Two Oscillations of Equal Angular Velocity

1.2. Summing Two Oscillations of Different Angular Velocity

1.3. Technical Context

2. Doppler VOR - Function Principle

2.1. Composition of the DVOR Signal

3. Signal Deterioration of the FM-Component due to a Single, Static Scatterer

3.1. Three Approximations - Anderson et al.

3.2. One Approximation Only - This Work

3.3. Evaluation of (3.59) and its Comparison with Anderson's Bearing Error (3.33)

4. Signal Deterioration of the FM-Component due to a Stationary, Non-Static Scatterer

4.1. FM-Component - Impact of Time Varying Signal Strength and Constant Doppler Shift

4.2. Impact of Time Varying Signal Strength A(t) and Time Varying Doppler Shift Δω2(t)

5. Signal Deterioration of the AM-Component due to a Stationary, Non-Static Scatterer

5.1. Superposition of Two Amplitude Modulated Waves

5.2. Amplitude Modulated Signal Component

5.3. Amplitude Modulation of the Second AM Signal, including Doppler Shift

5.4. Oscillating Doppler Shift:

5.5. Determining the AM's Phase Deviation due to a Stationary Scatterer of Oscillating Character

6. Assessment of the Remaining Approximation - Validity of the Derived Expressions

7. Scaled Environment

8. Measurement Concept and Hardware Setup

9. Used Antennae

10. Development and Evaluation of a Scaled Terrain Topology

10.1. Height Scans

11. Scaled Wind Turbines

12. Measurements in a Triangular Alignment

12.1. Scatterer induced Doppler Shifts

12.3. Impact of a Scatterer Induced AM upon the DVOR-Signal - Commercial Blades

13. Measurements in a Line of Sight Alignment

13.1. Pitch

13.2. Plane of Rotation

13.3. Perpendicular Offset

13.4. Wind Turbine Types

13.5. Overview

14. Summary

15. Outlook

A. Mathematical Appendix

B. Physical Appendix

C. Case Distinctions Appendix - Phase Deviation of the AM Signal

Bibliography

List of own Publications.

Notes:

Description based on print version record.

Includes index.

ISBN:

9783736965065

3736965060

OCLC:

1281960807