Presentation is loading. Please wait.

Presentation is loading. Please wait.

MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY.

Published byTheodora Heath Modified over 8 years ago

Similar presentations

Presentation on theme: "MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY."— Presentation transcript:

1 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY

2 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Overview SITUATION DECISION- MAKER INFORMATION SYSTEM Objective: Enhance Information System Approach: Study the Influence of Weather Information Predicated on Explicit Articulation of Avoidance & Escape Options on Pilot Decision-Making

3 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Motivation  Aviation Weather  Safety  Contributing Factor in Accidents (22.5% US Commercial Aviation, 72% Worldwide)  Efficiency  Major Source of Inefficiencies (Ground and Air Delays)  Economics  $1.35B (Accidents) + $2.1B (Inefficiencies)  Weather Information  Opportunities with Deployment of New Technologies in CNS  Datalink, Weather Surveillance  Supports Front-Line Human Actor, Proven to Be  Source of Major Failure  Ultimate Barrier to Accidents  Maintainer of Performance in Degraded Situations

4 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Plan Generation & Evaluation Go / No-Go Equipment Management Designed Tolerance Weather-Related Decisions as Layers of Safety Avoidance Escape Accident Trajectory Only Layer of Safety which is NOT a Human Decision Influenced by Weather Information Wx Hazard

5 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY PILOT Airline Dispatcher Controller FSS Briefer Datalink Web, DUATS Wx Radar Other Pilots Co-Pilot Supervisor Other Controllers ATIS CWSU Meteorologist WRP AWIPS AIS VSCS Commercial Wx Products Wx Radar Commercial Wx Products Web, DUATS Commercial Wx Providers NWS Meteorologists Weather Information Network (In Development) TMU KVDT TSD WIND NWS ATC FSS AIRLINE FLIGHT DECK COMM. PROVIDERS Observations Wx Models

6 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Aviation Wx Abstraction x y Flight Vehicle Hazard Encounter State Space Representation State 1 State n Hazard Flight Vehicle  Adverse Wx Phenomena Characteristics  Spatially Distributed & Bounded  Transient  Partially Non-Deterministic  Hazardous  Representation Issues  3D Information  Boundaries  Transient  Forecast  Ageing Information  Uncertain  Phenomena Description / Understanding  Impact / Severity on Flight Vehicle Operations  Partial  Volume / Area Coverage  Spatial Data Points  Involves Risk Assessment  E.g., Icing, Thunderstorms, Turbulence

7 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Problem Statement  Weather Information Can Take Multiple Forms  Inform on Exposure to Hazard, or Risk [Certainty x Severity]?  Support Routing Optimization Based on Seeing and Avoiding Threat in Field?  Support Avoidance and Escape Evaluation?  Investigate Decision-Support Model Predicated on Escape Plan  Value of Information About Non-Hazard Areas (Vigeant-Langlois & Hansman, 2000)  Value in Supporting Option-Based Decision-Making (Dershowitz, 1997)  Technically Easier to Detect Hazard-Free Space with High Confidence  If True, Can Pose “No-Safe-Escape” Avoidance Problem  Draw Analogy Between “Soft” and “Hard” Hazard Avoidance (Kuchar, 1995; Yang, 2000)

8 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Icing Display Feature Matrix DisplayName in Web- Based Experiment Graphical Representation Sensor Range [nm] Vertical View Type of Icing Info. Display A Textual Information  Display B (3D, min range, 3 levels) Airborne Icing Severity System 25 (Min. Range) Icing Severity 3 Levels Display C (3D, max range, 1 levels) Ground-based Icing Presence System 50 (Max. Range) Icing Presence 1 Level Display D (2D, max range, 3 levels) Satellite-based Icing Severity System 50 (Max. Range)  Icing Severity 3 Levels Display E (3D, max range, 3 levels) Ground-based Icing Severity System 50 (Max. Range) Icing Severity 3 Levels Web-Based Study of 600 Pilots

9 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY  Icing Severity vs. Icing Presence  No Significant Improvement in Decision Quality  Avoidance & Escape Decisions  Information on Ice-Free Zones  More Direct Inference of Ice-Free Zones (T > 0°C or LWC = 0) than Icing Severity Icing Products Based on Ice-Free Zones Easier and More Useful to Produce Text

10 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Problem Statement  Weather Information Can Take Multiple Forms  Inform on Exposure to Hazard, or Risk [Certainty x Severity]?  Support Routing Optimization Based on Seeing and Avoiding Threat in Field?  Support Avoidance and Escape Evaluation?  Investigate Decision-Support Model Predicated on Escape Plan  Value of Information About Non-Hazard Areas (Vigeant-Langlois & Hansman, 2000)  Value in Supporting Option-Based Decision-Making (Dershowitz, 1997)  Technically Easier to Detect Hazard-Free Space with High Confidence  If True, Can Pose “No-Safe-Escape” Avoidance Problem  Draw Analogy Between “Soft” and “Hard” Hazard Avoidance (Kuchar, 1995; Yang, 2000)

11 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Weather Information System (In Development) Selection Controlled Flight Vehicle Environment (Hazards) Plan + Contingency Plan Query Input -  Control Input Decision-Maker SITUATION DYNAMICS DECISION- MAKER INFORMATION SYSTEM Goals Direct Observation User Interface Constraints Wx Info Wx Data Wx Model Data Acquisition Information Processing

12 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY FAA Convective Wx PDT

13 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Decision Process Model (Partial / Routing-Related) Go No-Go Hold Scrub Evaluation of Fuel Requirements Equipment Management Avoidance Plan Evaluation Plan Generation Go / No-Go Other Route Optimization Escape Plan Re-Evaluation Modify Plan Proceed As Planned Modify Plan Proceed As Planned

14 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Avoidance/Escape /Other Route Optimization Abort to Alternate Turn Right Reverse Course Turn Left Climb Descend Turn Right Turn Left Turn Right Turn Left Continue Straight

15 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Hazard-Related Space x y z Tactical Routing Options Positive Hazard-Free Space Hazardous Space Potentially Hazardous Space Avoidance Buffer* * Related to Aircraft Dynamics, Information Uncertainty, etc.

16 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Tactical Avoidance x y z Safe Options Unsafe Option

17 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Tactical Escape x y z Safe Option Unsafe Options

18 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Strategic Avoidance & Optimization x y z

19 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY Research Approach  Objective  Study the Influence of Weather Information Predicated on Explicit Articulation of Avoidance & Escape on Pilot Option Selection  Proposed Work  Refine Weather Info and Decision Models  Develop Prototype Displays to Support Avoidance and Escape Decisions  Evaluate Performance/Benefits of Prototype Displays  Make Recommendations  Weather Information System Architecture  Sensors  Displays  Dissemination

20 MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY

Download ppt "MIT ICAT MIT ICAT D ECISION- S UPPORT FOR E NHANCING A VIATION W EATHER I NFORMATION S YSTEMS AND S AFETY."

Similar presentations

Complementary Use of Airborne Wx Radar & Datalink Graphical Wx Cheri Haynes – XCELAR Friends/Partners in Aviation Weather Forum October 31, 2012 What if…What.

Complementary Use of Airborne Wx Radar & Datalink Graphical Wx Cheri Haynes – XCELAR Friends/Partners in Aviation Weather Forum October 31, 2012 What if…What.
The Evolution of NWS Aviation Weather Services in Chicago Mike Bardou National Weather Service Chicago The views expressed in this presentation are those.

The Evolution of NWS Aviation Weather Services in Chicago Mike Bardou National Weather Service Chicago The views expressed in this presentation are those.
Modeling Conflicts of Multiple Independent Alerting Systems Lixia Song James K. Kuchar Massachusetts Institute of Technology.

Modeling Conflicts of Multiple Independent Alerting Systems Lixia Song James K. Kuchar Massachusetts Institute of Technology.
Turbulence Research in AWRP: Current initiatives and future challenges Presented by: Steve Abelman, Manager, FAA Aviation Weather Research Team Date: Oct.

Turbulence Research in AWRP: Current initiatives and future challenges Presented by: Steve Abelman, Manager, FAA Aviation Weather Research Team Date: Oct.
1 Approved For Public Release; Distribution Unlimited Atmospheric Impacts Routing (AIR) Web Service Support to the Tactical Airspace Integration System.

1 Approved For Public Release; Distribution Unlimited Atmospheric Impacts Routing (AIR) Web Service Support to the Tactical Airspace Integration System.
Federal Aviation Administration 1 June 2013 Federal Aviation Administration 1 October 2013 WET Update to NBAA and FPAW Federal Aviation Administration.

Federal Aviation Administration 1 June 2013 Federal Aviation Administration 1 October 2013 WET Update to NBAA and FPAW Federal Aviation Administration.
Departure Hazards: Turbulence, Icing, C/V, Storms (winter/conv), Oceanic/VA Decisions- problem ID Weather information needed Update Rate (Info Age) SpatialObstacles.

Departure Hazards: Turbulence, Icing, C/V, Storms (winter/conv), Oceanic/VA Decisions- problem ID Weather information needed Update Rate (Info Age) SpatialObstacles.
Ames Research Center 1October 2006 Aviation Software Systems Workshop FACET: Future Air Traffic Management Concepts Evaluation Tool Aviation Software Systems.

Ames Research Center 1October 2006 Aviation Software Systems Workshop FACET: Future Air Traffic Management Concepts Evaluation Tool Aviation Software Systems.
Sense & Avoid for UAV Systems

Sense & Avoid for UAV Systems
Friends and Partners of Aviation Weather

Friends and Partners of Aviation Weather
MIT ICAT MIT ICAT. MIT ICAT MIT ICAT Motivation Adverse Weather Significantly Impacts Flight Operations  Safety -- 22. 5% All US Accidents  Efficiency.

MIT ICAT MIT ICAT. MIT ICAT MIT ICAT Motivation Adverse Weather Significantly Impacts Flight Operations  Safety % All US Accidents  Efficiency.
Presented to: MPAR Working Group By: William Benner, Weather Processors Team Manager (AJP-1820), FAA Technical Center Date: 19 March 2007 Federal Aviation.

Presented to: MPAR Working Group By: William Benner, Weather Processors Team Manager (AJP-1820), FAA Technical Center Date: 19 March 2007 Federal Aviation.
Next Generation Air Transportation System (NextGen): Wx Integration Ray Moy New Weather Concept Development Branch FAA, Aviation Weather Division, ANG-C62.

Next Generation Air Transportation System (NextGen): Wx Integration Ray Moy New Weather Concept Development Branch FAA, Aviation Weather Division, ANG-C62.
World Meteorological Organization Working together in weather, climate and water NextGen Update WMO; CAeMwww.wmo.int WMO.

World Meteorological Organization Working together in weather, climate and water NextGen Update WMO; CAeMwww.wmo.int WMO.
Weather Technology in the Cockpit (WTIC) – Enhancing Efficiency October 23, 2014 Gary Pokodner, WTIC Program Manager 1 Friends and Partners in Aviation.

Weather Technology in the Cockpit (WTIC) – Enhancing Efficiency October 23, 2014 Gary Pokodner, WTIC Program Manager 1 Friends and Partners in Aviation.
Interoperability of Airborne Collision Avoidance Systems Lixia Song James K. Kuchar Massachusetts Institute of Technology.

Interoperability of Airborne Collision Avoidance Systems Lixia Song James K. Kuchar Massachusetts Institute of Technology.
Weather Technology in the Cockpit (WTIC) - Uncertainty/Probabilistic Information in the Cockpit Projects July 21, 2014 Gary Pokodner 1 Friends and Partners.

Weather Technology in the Cockpit (WTIC) - Uncertainty/Probabilistic Information in the Cockpit Projects July 21, 2014 Gary Pokodner 1 Friends and Partners.
RADAR and Integration Bill Watts. Why - The Delay Cost - ATA numbers 86.5 million delay minutes $6.2 billion direct operating costs for airlines (exceeds.

RADAR and Integration Bill Watts. Why - The Delay Cost - ATA numbers 86.5 million delay minutes $6.2 billion direct operating costs for airlines (exceeds.
Weather Satellite Data in FAA Operations Randy Bass Aviation Weather Research Program Aviation Weather Division NextGen Organization Federal Aviation Administration.

Weather Satellite Data in FAA Operations Randy Bass Aviation Weather Research Program Aviation Weather Division NextGen Organization Federal Aviation Administration.
UNITED AIRLINES LEONARD J. SALINAS FLIGHT DISPATCH 21APR2010 Congressional Hazards Caucus Alliance.

UNITED AIRLINES LEONARD J. SALINAS FLIGHT DISPATCH 21APR2010 Congressional Hazards Caucus Alliance.

Similar presentations

Ads by Google