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Transcript of Introduction to Aerospace Electronics
8/14/2019 Introduction to Aerospace Electronics
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Introduction to
Aerospace Electronics
Introduction to
Aerospace ElectronicsAE 1350
AE 1350
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Avi ation Electr onics
Avionics
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Avionics Development History• Wireless Communication (1920s-1930s)• Navigation (1930s-1940s)
• Surveillance Systems (1940s)• Autopilots and Missile Guidance (1940s)
• Stability Augmentation (1950s)• Precision Navigation (1950s)• “Modern” Air Traffic Control (1950s-1960s)• Remote Sensing (1960s)
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Radar in WWII
Chain Home radar
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Flying blind, Doolittle in 1929
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α
North
X
30 revolutionsper second
The signal at x is proportional to 1 + a cos( ω t - α )The signal at X is effectively AM
modulated by 30 Hz
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VHF Omnidirectional Range (VOR)
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World VOR
-90
-60
-30
0
30
60
90
-180 -150 -120 -90 -60 -30 0 30 60 90 120 150 180
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USA VOR
20
35
50
-125 -110 -95 -80 -65
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Distance Measuring Equipment (DME)
T x R x
Transponder
1025 - 1150 MHz(126 channels)
962 - 1024 MHz or 1151 - 1213 MHz
Reply
Interrogation
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Instrument Landing System (ILS)
• Localizer for Lateral Information• Glideslope for Altitude Information• Marker Beacons to Check Progress• Sometimes DME Also• Sometimes NDB on Approach Course
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Localizer Antenna
This one is for aircraft approaching from the other direction!
*Airborne Antenna Often Shared With VOR
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Glideslope Antenna
Be sure to look for these structures next time you fly!
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6000 Flights in the Air...
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Automated Radar Terminal System (ARTS)
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Raytheon ASR-11
• Digital Airport Surveillance Radar (DASR) latest version of the terminal area surveillance radars
– Bottom: primary radar surveillance• Max range 60 miles• Operates in the range of 2700 to 2900 MHz• The transmitter generates a peak effective power of 25 kW and an
average power of 2.1 kW – Top: interrogating transponders
• Aircraft data for barometric altitude,identification code
• 1030 to 1090 MHz, transmitting power ranges from 160 to 1500 watts.
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Northrop Grumman ARSR-4
• Air Route Surveillance Radar (ARSR) 4• Long-range, three-dimensional, rotating phased array, primary radar
system with coverage of 250 nmi for en route operation
• 1215-1400 MHz• There are 43 operational systems deployed around the periphery of the
continental U.S., as well as in Guam, Hawaii, and Guantanamo Bay, Cuba• Expensive to maintain, they
were to have beendecommissioned untilSept 11, 2001
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‘Command Center’, Herndon VA
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Problems With Current System• Agreed Upon:
– Very Safe
– Works Well Until Reaches Saturation – We’re At Saturation
• In USA, Busiest Airports Are Saturated
• In Europe, En-Route Airspace Is Saturated• What to do?
– Distributed System Model
– Swiss-Train Model
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Early Uses of Stability Augmentation
B-47
YB-49
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Importance for Non-piloted Vehicles
V-2
RQ-1 Predator
Ariane 5
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New Configurations Made PossibleB-2
A320
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Super-augmented Aircraft
X-29
F-16
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Satellite Communications
radioelectronics.com
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Remote Sensing (60s)
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Inertial Navigation Systems• A set of gyroscopes maintain a
stable platform, regardless of whatever motions the missile goesthrough
• Within that platform are sensorsthat measure acceleration
• This information is sent to a digitalcomputer, which translates thatdata into information about thevehicle current location andvelocity
• Prior to launch, the computer is
given information about the pointof launch, the gravitational fieldover which it will fly
• Solution can be updated in flight
(inertial aiding)LGM-30 Minuteman III
Apollo CM
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More Avionics Development History• Autonomous Vehicles (Spacecraft, Aircraft) (1970s)• Precision Guidance Systems (1970s)
• Flight Management Systems (1970s)• System and Vehicle Health Management; Controls
and Displays (1980s)• Digital Engine Control (1980s)• Cockpit Alerting Systems (1980s)
• Sat Comm and Sat Nav (1980s)• Stealth (1980s)
(M ) A t Ai ft d
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(More) Autonomous Aircraft andSpacecraft (70s)
Voyager-1
Teledyne Ryan AQM-34L
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Precision Guidance
S t d V hi l H lth
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System and Vehicle HealthManagement
• Commercial Airliners go from a crew of 5 in 1950s – Pilot
– Copilot – Navigator – Radio Operator
– Flight Engineering• …to a crew of 2 in the 1980s
– Pilot – Copilot – (Dispatcher)
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Gemini Spacecraft
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Space Shuttle
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Space Shuttle (After Upgrade)
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Cockpit Complexity on Spacecraft
2300997Shuttle1374740Apollo35427Gemini14313Mercury
ControlDisplay
Elements
WorkStations
PanelsProgram
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Airplane as a Computer Peripheral
A380
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Advanced Displays: Egocentric Perspective
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Head Up Displays (HUD)
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Night Vision Goggles
AN/AVS-6 Aviator’s Night Vision Imaging System(ANVIS)
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Enhanced Vision Systems
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Synthetic Vision Systems
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Human Error
• Human error, at some level, has caused every aviationaccident
• Pilot error is implicated (at some level) in 70%+ fatalaccidents – Becoming a larger percentage as mechanical systems improve
• What is the correct point of view? – “Humans are wonderfully adaptable agents, but they are slow to
react and are dangerously prone to error…”
• According to this, why have a human operator at all? – “What we call human error is really the negative consequences of
normal human behavior that is not accounted for in design.”
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Human Error & Implications for Design
• Through
– Knowledge of Possible Errors – Good Design Principles
• Developers Can – Prevent Errors – Make the System More Flexible in the Face of Errors
Traffic Alert and Collision Avoidance
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Traffic Alert and Collision AvoidanceSystem (TCAS-II)
Enhanced Ground Proximity Warning
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Enhanced Ground Proximity WarningSystem (EGPWS)
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Global Positioning System (GPS)• NAVSTAR GPS (Navigation Signal Timing and
Ranging Global Positioning System)
• Number of Satellites 24 Active, 4 Spare• Geometry 6 planes, 4 satellites each
– MEO - 20,200 km (10,900 nmi) circular
– 55° inclination
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Control Segment
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Stealth
F-117