Toulouse Blagnac campaign test results By DSNA

Slides:

Advertisements

Similar presentations

1 Radio Maria World. 2 Postazioni Transmitter locations.

Advertisements

EcoTherm Plus WGB-K 20 E 4,5 – 20 kW.

AGVISE Laboratories %Zone or Grid Samples – Northwood laboratory

Trend for Precision Soil Testing % Zone or Grid Samples Tested compared to Total Samples.

Mounting Installations SITRANS P for Differential Pressure

Name: Date: Read temperatures on a thermometer Independent / Some adult support / A lot of adult support

AP STUDY SESSION 2.

Reflection nurulquran.com.

Math Expressions How does it all work together…?.

David Burdett May 11, 2004 Package Binding for WS CDL.

/4/2010 Box and Whisker Plots Objective: Learn how to read and draw box and whisker plots Starter: Order these numbers.

Local Customization Chapter 2. Local Customization 2-2 Objectives Customization Considerations Types of Data Elements Location for Locally Defined Data.

Create an Application Title 1Y - Youth Chapter 5.

Add Governors Discretionary (1G) Grants Chapter 6.

CHAPTER 18 The Ankle and Lower Leg

Summative Math Test Algebra (28%) Geometry (29%)

Who Wants To Be A Millionaire?

Who Wants To Be A Millionaire?

P1 RJM 16/10/02EG1C2 Engineering Maths: Matrix Algebra Tutorial 1 A mass (weight 20N) is suspended by two wires as shown in the figure: relevant distances.

£1 Million £500,000 £250,000 £125,000 £64,000 £32,000 £16,000 £8,000 £4,000 £2,000 £1,000 £500 £300 £200 £100 Welcome.

25m 17 m 15 m 13 m P=(25 +17)*15+17*13= 42*15+221= = 851m 2 =8,51 a.

The 5S numbers game..

Proprietary and Confidential P0 Resource Leveling Made Easy Fall 2001 NOTICE: Proprietary and Confidential This material is proprietary to marchFIRST.

7/19/2002 Kenneth John Webb Page 1 COMPARING EMISSION MEASUREMENTS IN A REVERBERATION CHAMBER AND A SEMI-ANECHOIC CHAMBER By Kenneth John Webb Principal.

Robert J. Trent, Ph.D. Supply Chain Management Program Director Lehigh University EMERGING TRENDS IN SUPPLY MANAGEMENT.

Minimum Weight Plastic Design For Steel-Frame Structures EN 131 Project By James Mahoney.

Testing of ILS Receivers in a Multipath Propagation Environment International Flight Inspection Symposium Oklahoma City, OK USA June 2008 Jochen Bredemeyer,

PP Test Review Sections 6-1 to 6-6

Estimating Reliability RCMAR/EXPORT Methods Seminar Series Drew (Cobb Room 131)/ UCLA (2 nd Floor at Broxton) December 12, 2011.

Switching & Logic Laboratory

1 st Wave Allen plays Atascosita 9 AM, Ct 1 Allen plays Coppell 10 AM, Ct 1 2 nd Wave If Allen is 1 st in Wave 1, Play at 2:30 and 4:30 on Ct 2 (R2G1P1)

Welcome to Intro to Physics A 9/7/10 Seating: you may choose today Agenda Items Introductions Activity Inspirational card: name, quote or goal, pics *Reminders:

Effects on UK of Eustatic sea Level rise GIS is used to evaluate flood risk. Insurance companies use GIS models to assess likely impact and consequently.

Determination of ILS Critical and Sensitive Areas

Not for distribution SUSTAINABLE FORESTRY INVESTMENT Cary Wingfield Raditz, CFA.

Copyright © 2012, Elsevier Inc. All rights Reserved. 1 Chapter 7 Modeling Structure with Blocks.

Assessment of ILS protection areas impact on large aircraft operations

Making Landmark or Friendly Numbers (Multiplication)

Shortest Violation Traces in Model Checking Based on Petri Net Unfoldings and SAT Victor Khomenko University of Newcastle upon Tyne Supported by IST project.

Area under curves Consider the curve y = f(x) for x  [a, b] The actual area under the curve is units 2 The approximate area is the sum of areas.

Adding Up In Chunks.

When you see… Find the zeros You think….

Splines IV – B-spline Curves

Before Between After.

1 Non Deterministic Automata. 2 Alphabet = Nondeterministic Finite Accepter (NFA)

Static Equilibrium; Elasticity and Fracture

Fractions Simplify: 36/48 = 36/48 = ¾ 125/225 = 125/225 = 25/45 = 5/9

Resistência dos Materiais, 5ª ed.

Partial Products. Category 1 1 x 3-digit problems.

Physics for Scientists & Engineers, 3rd Edition

International Flight Inspection Symposium

1 DOE Data Center Tools Suite Assessment Tool Development Electrical Example Lawrence Berkeley National Laboratory ANCIS EYP Mission Critical Rumsey Engineers.

Distributed Computing 9. Sorting - a lower bound on bit complexity Shmuel Zaks ©

CASE STUDIES ON THE USE OF ENVIRONMENTAL CLAMSHELL BUCKETS FOR REMEDIATION OF CONTAMINATED SEDIMENTS Application of Environmental Dredging Tips Lessons.

Quiz Number 2 Group 1 – North of Newark Thamer AbuDiak Reynald Benoit Jose Lopez Rosele Lynn Dave Neal Deyanira Pena Professor Kenneth D. Lawerence New.

INTRODUCTION Anggra Prima, S.Pd (0711) BAHASA INGGRIS II Bobot:2 sks Penilaian:Tugas (20%), Kuis (10%), UTS(30%), UAS(40%) Buku Wajib:Kumpulan.

Schutzvermerk nach DIN 34 beachten 05/04/15 Seite 1 Training EPAM and CANopen Basic Solution: Password * * Level 1 Level 2 * Level 3 Password2 IP-Adr.

Test Results at Frankfurt Airport T. Kleinmann DFS.

Conclusions & Recommendations

Conclusions & Recommendations

Toulouse Blagnac campaign test results By DSNA

Test Results at Frankfurt Airport

Presentation transcript:

Toulouse Blagnac campaign test results By DSNA

First session : 2nd/3rd of December 2005 Ground system : ILS 14R Airborne : ATR42 : RV4 Collins receiver Ground : 3 ILS vehicles : DSNA vehicle : ARTUS 324 Receiver R&S EVS 200 Receiver Omni-directional antenna DFS vehicle : R&S HF 108 omni-directional antenna SNA-Sud vehicle : 2-elements Directional Yagi antenna

Second session : 25th of March 2006 Ground system : ILS 14R Airborne : ATR42 : RV4 Collins receiver Ground : 2 ILS vehicles : DSNA vehicle : ARTUS 324 Receiver R&S EVS 200 Receiver Omni-directional antenna SNA-Sud vehicle : Directional Yagi antenna 45° rotated towards A380

ILS 14R Localizer characteristics Thomson 389, 25 antennas array bi-frequency system Category 3 system SBO pattern Course and clearance CSB pattern

DSNA Receiving antenna pattern DSNA vehicle DSNA Antenna pattern at 4 m height

DFS Receiving antenna pattern DFS antenna DFS Antenna pattern

SNA-Sud Receiving antenna pattern SNA Sud vehicle SNA Sud Antenna pattern at 4 m height (45° rotated)

DSNA-Flight Calibration equipment

ILS 14R Localizer performances (in its static multipath environment)

Test points configuration Static positions only Converging to R/W P11bis : 2860 m from LLZ and 180 m from R/W CL and 30° orientation towards R/W P12 : 2889 m from LLZ and 200 m from R/W CL and 30° orientation towards R/W P14 : 4013 m from LLZ and 200 m from R/W CL and 30° orientation towards R/W Parallel to R/W P4 : 684 m from LLZ and 200 m from R/W CL P5 : 1537 m from LLZ and 200 m from R/W CL P11 : 2870 m from LLZ and 160 m from R/W CL P13 : 3436 m from LLZ and 200 m from R/W CL

Test points configuration Static positions only Orthogonal to R/W and leaving R/W P2 : 608 m from LLZ and 22 m from R/W CL P3 : 608 m from LLZ and 86 m from R/W CL P6 : 1580 m from LLZ and 53 m from R/W CL P6bis : 1580 m from LLZ and 79 m from R/W CL P6ter : 2909 m from LLZ and 52 m from R/W CL P6quat 1580 m from LLZ and 16.5 m from R/W CL P9 2270 m from LLZ and 111 m from R/W CL P15 4069 m from LLZ and 46 m from R/W CL

Test points configuration Static positions only Other cases P1 : 716 m from LLZ, on centreline and tail at 8 m from R/W CL and 21° orientation towards Taxiway P7 : 1320 m from LLZ and tail at 65m m from R/W CL and 43° orientation towards Taxiway (exit on a High Speed Taxiway) P8 : 1261 m from LLZ and tail at 166 m from R/W CL and 60° orientation towards Taxiway (exit on a High Speed Taxiway) P17 : 4084 m from LLZ and tail at 254 m from R/W CL and 50° orientation towards Taxiway (Holding on a converging taxiway) Orthogonal to R/W and entering R/W P16 : 4070 m from LLZ and tail at 150 m from R/W CL P18 : 4075 m from LLZ and tail at 224 m from R/W CL P19 : 4071 m from LLZ and tail at 158 m from R/W CL

Test points results Converging to R/W Parallel to R/W P11bis : 180 m from R/W CL and 30° orientation towards R/W : 10 km/h : in spec 40 km/h : out of spec (marginally) P12 : 200 m from R/W CL and 30° orientation towards R/W 40 km/h : in spec P14 : 200 m from R/W CL and 30° orientation towards R/W in spec if speed is > 10km/h Parallel to R/W P4 : in spec (200m) P5 : in spec (200m) P11 : in spec (160m) P13 : in spec (200m)

Orthogonal to R/W and leaving R/W Test points results Orthogonal to R/W and leaving R/W P2 : 608 m from LLZ and 22 m from R/W CL : Out of spec P3 : 608 m from LLZ and 86 m from R/W CL : In spec P6 : 1580 m from LLZ and 53 m from R/W CL : Out of spec P6bis : 1580 m from LLZ and 79 m from R/W CL : Out of spec P6ter : 2909 m from LLZ and 52 m from R/W CL : Out of spec P6quat : 1580 m from LLZ and 16.5 m from R/W CL : Out of spec P9 : 2270 m from LLZ and 111 m from R/W CL : Out of spec P15 : 4069 m from LLZ and 46 m from R/W CL : In spec except at threshold and low speed < 10 km/h at 4m height

Orthogonal to R/W and entering R/W Test points results Other cases P1 : 716 m from LLZ, on centreline and tail at 8 m from R/W CL and 21° orientation towards Taxiway : In spec P7 : 1320 m from LLZ and tail at 65m from R/W CL and 43° orientation towards Taxiway (exit on a High Speed Taxiway) : Out of spec P8 : 1261 m from LLZ and tail at 166 m from R/W CL and 60° orientation towards Taxiway (exit on a High Speed Taxiway) : In Spec P17 : 4084 m from LLZ and tail at 254 m from R/W CL and 50° orientation towards Taxiway (Holding on a converging taxiway) : In spec until threshold (Flight data only) Orthogonal to R/W and entering R/W P16 : 4070 m from LLZ and tail at 150 m from R/W CL : In spec P18 : 4075 m from LLZ and tail at 224 m from R/W CL : In spec P19 : 4071 m from LLZ and tail at 158 m from R/W CL : In Spec

Sensitive area impact analysis P11bis 200m 180m 14R 65m 255m 166m P7 P8 P17

Sensitive area impact analysis P6bis P3 P6ter P15 P6 P16 P2 111m 86m 80m 52m 83m 46m P6quat 14R 600m 1600m 14R 75m P1 Sensitive area impact analysis P19 P18

In Tolerance Performances until the threshold Out of Tolerance Performances until the threshold Critical area impact analysis

Comparison Measurement / Modelling on some test points P11 bis Two speeds : 13 km/h or 40 km/h 14R

40 km/h 14R 14R

13 km/h 14R 14R

Comparison Measurement / Modelling on some test points

P7 14R 14R

Comparison Measurement / Modelling on some test points

P8 14R 14R

Comparison Measurement / Modelling on some test points P6bis 80m 14R 1600m 14R Comparison Measurement / Modelling on some test points

P6bis 14R 14R

Summary of comparison status between measurement and ATOLL modelling results Based of filtered data Parallel to R/W P4 : 684 m from LLZ and 200 m from R/W CL :  P5 : 1537 m from LLZ and 200 m from R/W CL :  P11 : 2870 m from LLZ and 160 m from R/W CL :  P13 : 3436 m from LLZ and 200 m from R/W CL :  Converging to R/W P11bis : 2860 m from LLZ and 180 m from R/W CL and 30° orientation towards R/W :  P12 : 2889 m from LLZ and 200 m from R/W CL and 30° orientation towards R/W :  P14 : 4013 m from LLZ and 200 m from R/W CL and 30° orientation towards R/W : 

Orthogonal to R/W and leaving R/W Summary of comparison status between measurement and ATOLL modelling results Based of filtered data Orthogonal to R/W and leaving R/W P2 : 608 m from LLZ and 22 m from R/W CL :  P3 : 608 m from LLZ and 86 m from R/W CL :  P6 : 1580 m from LLZ and 53 m from R/W CL :  P6bis : 1580 m from LLZ and 79 m from R/W CL :  P6ter : 2909 m from LLZ and 52 m from R/W CL :  P6quat 1580 m from LLZ and 16.5 m from R/W CL :  P9 2270 m from LLZ and 111 m from R/W CL :  P15 4069 m from LLZ and 46 m from R/W CL : 

Orthogonal to R/W and entering R/W Summary of comparison status between measurement and ATOLL modelling results Based of filtered data Other cases P1 : 716 m from LLZ, on centreline and tail at 8 m from R/W CL and 21° orientation towards Taxiway :  P7 : 1320 m from LLZ and tail at 65m m from R/W CL and 43° orientation towards Taxiway (exit on a High Speed Taxiway) :  P8 : 1261 m from LLZ and tail at 166 m from R/W CL and 60° orientation towards Taxiway (exit on a High Speed Taxiway) :  P17 : 4084 m from LLZ and tail at 254 m from R/W CL and 50° orientation towards Taxiway (Holding on a converging taxiway) :  Orthogonal to R/W and entering R/W P16 : 4070 m from LLZ and tail at 150 m from R/W CL :  P18 : 4075 m from LLZ and tail at 224 m from R/W CL :  P19 : 4071 m from LLZ and tail at 158 m from R/W CL : 