What the profile screens for
The recorded warning logic indicates excessive terrain closure or descent rate for the height context.
Why it matters
The warning may reveal an unstable path or rapid terrain closure and requires review of response, validity, and continuation.
Build the event around relationships—not one number.
Define the operating context
Identify the approach state, aircraft configuration, location, and any required external data before applying logic.
Screen the signal relationship
Use validated combinations of sink-rate warning, radio altitude, vertical speed; avoid treating one isolated value as the whole event.
Confirm it is a genuine event
Check polarity, units, source, recording rate, dropouts, air/ground logic, persistence, and false-positive mechanisms.
Connect data to the safety question
Review procedures, reports, weather, airport and traffic context, exposure, recurrence, and the strength of the related barriers.
Recorded signals that may help explain the event.
Radio altitude
Height derived from radio altimetry, normally representing the distance from the aircraft to terrain directly below within the system's operating range.
Open parameter guide ↗ft/min or m/sVertical speed
The aircraft's vertical rate. Different recorded sources and smoothing can produce materially different values, especially during flare and touchdown.
Open parameter guide ↗ktCalibrated airspeed
Indicated airspeed corrected for instrument and position error, as provided by the aircraft data system.
Open parameter guide ↗Questions before conclusions
- Q1
Are sink-rate warning, radio altitude, vertical speed valid, correctly decoded, time-aligned, and sampled well enough for this event?
- Q2
What changed immediately before, during, and after the gpws sink-rate warning indication?
- Q3
How do aircraft configuration, weather, airport geometry, automation state, and crew reports change the interpretation?
- Q4
Which current flight manual, SOP, maintenance, or operator event definition controls the final conclusion?
Safety topics that broaden the event review.
Windshear and Microburst
Recognize rapid changes in wind vector and the resulting airspeed, path, thrust, and vertical-energy effects close to the ground.
Open topic brief ↗Aircraft SystemsFlight-Deck Automation
Use mode awareness, active monitoring, and aircraft-response verification to keep automation aligned with crew intent.
Open topic brief ↗Flight OperationsControlled Flight Into Terrain
Understand how a controllable aircraft can be flown into terrain or an obstacle through path, altitude, navigation, monitoring, or situational-awareness breakdowns.
Open topic brief ↗12 useful starting points
Terminology and topic relationships select these links; the publisher source remains authoritative.
Safety Alert SA-077 — Stabilized Approaches Lead to Safe Landings
The NTSB alert highlights the need to establish and maintain a stabilized approach and to go around when an approach falls outside applicable criteria.
Open official sourceStatistical Summary of Commercial Jet Airplane Accidents, 1959–2024
Boeing's 56th annual statistical summary organizes commercial-jet accident data using stated definitions and the CAST/ICAO occurrence taxonomy.
Open official sourceIATA Annual Safety Report — 2024
IATA's 61st annual report provides an interactive, method-defined view of commercial aviation accident performance and contributing-factor classifications.
Open official sourceSAFO 14002 — SAFO 14002, Global Positioning System ( GPS )/Global Navigation Satellite System ( GNSS ) Navigator/Autopilot Compatibility
Official U.S. Federal Aviation Administration material indexed for flight controls and automation and navigation and surveillance. Open the publisher source for the complete document, scope, and current status.
Open official sourceSAFO 08005 — Preflight of helicopter hydraulic systems to include validation of control movement smoothness and identification of adverse flight control “stick-jump.”
Official U.S. Federal Aviation Administration material indexed for flight controls and automation and airworthiness and systems. Open the publisher source for the complete document, scope, and current status.
Open official sourceSAFO 08015 — Preflight check of helicopter hydraulic systems to include validation of control movement smoothness and identification of adverse flight control “stick-jump”
Official U.S. Federal Aviation Administration material indexed for flight controls and automation and airworthiness and systems. Open the publisher source for the complete document, scope, and current status.
Open official sourceSAFO 06017 — Equipment Training and Checking for Helicopter Operators on the SPZ-7000 or SPZ-7600 Dual Digital Automatic Flight Control Systems
Official U.S. Federal Aviation Administration material indexed for flight controls and automation and human factors. Open the publisher source for the complete document, scope, and current status.
Open official sourceSAFO 05002 — Multiple full deflection, alternating flight control inputs
Official U.S. Federal Aviation Administration material indexed for flight controls and automation. Open the publisher source for the complete document, scope, and current status.
Open official sourceA380 Development of the Flight Controls
Official Airbus Safety First material indexed for aviation safety. Open the publisher source for the complete document, scope, and current status.
Open official sourceDual Side Stick Inputs
Official Airbus Safety First material indexed for flight controls and automation. Open the publisher source for the complete document, scope, and current status.
Open official sourceInadvertent Autopilot Engagement during Takeoff on A220 Aircraft
Official Airbus Safety First material indexed for takeoff and flight controls and automation. Open the publisher source for the complete document, scope, and current status.
Open official sourceInappropriate V/S Target during Autoflight Mode Reversion
Official Airbus Safety First material indexed for flight controls and automation. Open the publisher source for the complete document, scope, and current status.
Open official source