Airfield Wind Advisory System

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Title: Airfield Wind Advisory System

1
Airfield Wind Advisory System

2
Cockpit Display Unit

Digital readout shows only five factors
runway ID (alphanumeric 3-4 character identifier)
wind direction (degrees from magnetic north)
wind velocity (knots) average and peak gust
runway selection (10 degree increments from 1 to
36)
Readout appears as follows
X68 102/15G25 15
Alternative version can display cross-wind vector
(using a manual switch or button)
Automatically detects ground signal and activates
unit within 8-10 miles of airfield
Simple yet elegant handheld design allows pilot
to gather landing information with a one-second
glance

3
Automated Ground Unit at Airfield

Includes sonic anemometer mounted on a 4-meter
pole (military version) or 10-meter pole (civil
aviation) coupled to a microprocessor
Averages wind velocities over 37-second interval
(may be adjusted for 1 minute averages and 1
second gusts)
Broadcasts data digitally over a one-watt spread
spectrum transmitter at 900 MHz or 2.4 GHz
Prototype unit uses solar power and battery
backup, run with zero maintenance at KSC since
1995 (except for a battery change)

4
System Design Innovations

5
Prototype Configuration
Ground station used at KSC
Basic version, built and flight-tested at KSC in
late 1999
6
Prototype Flight Tested

Worked perfectly the first time
tests conducted at KSC Shuttle Landing Facility
Prototype built and flight tested for under 10k
Uses commercial components
spread spectrum 900 MHz transmitter/receiver
backlit LCD display
Reuse of ground sensor units emplaced in 1995,
with zero maintenance over the years
good model for retrofits at existing airports
(can use current anemometer and windsock system)

7
Advantages

Increases safety all pilots given wind info
simultaneously no redialing radio pilot can get
needed info with a glance with a no clutter
display, concentrate on the flight path
one of the most common causes of fatal GA
accidents, misjudging crosswinds at landing, is
addressed
Allows most advantageous vector approach to
airfield, saving three to five minutes per
landing
Very inexpensive and easy to implement at all
airfields
Portable display unit goes with the pilot on any
aircraft he flies (75 of pilots do not own the
aircraft they fly)
Fits with general aviation philosophy (cheap,
rugged, useful)

8
Market Potential

9
CONUS Airfields
10
Costs and Benefits

All U.S. controlled airfields could be
instrumented for under 10 million (600 at
16,000 each)
All general aviation airstrips and helipads in
U.S. could be outfitted for less than 100
million (5,400 at 16,000 each)
All U.S. pilots could own cockpit display units
for less than 100 million (750,000 at 120 each)
Worldwide sales of airfield and cockpit units
could exceed 1 billion over the next decade
Accident rates and near misses could be reduced
significantly, saving about 100 lives per year
globally

11
The Next Steps

U.S. patent 6,311,107 issued 10/30/2001
Overseas patents filed on design concepts
Conduct second phase flight test program
Instrument all ten NASA airstrips and helipads
and about 20 nearby military and commercial
airfields
Design two versions and build about 200 flight
units for use by all NASA pilots, select FAA and
military pilots, and flight-qualified astronauts
Run a six-month pilot program and disseminate
results to entire aviation community
Begin development of internet version
Utilize Glenn Tempest embedded web server
software
Utilize Dryden Ring-Buffered Network Bus
architecture
Develop software for PDAs, cell phones and GPS
devices to display AWAS data and web-based
software for internet systems