Mark G. Ballin scite author profile

Mark G. Ballin

5Publications

98Citation Statements Received

9Citation Statements Given

How they've been cited

151

How they cite others

Affiliations

Langley Research Center, Ames Research Center, Rockwell Automation (United States)

Publications

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Traffic Aware Strategic Aircrew Requests (TASAR)

Ballin

Wing

2012

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Under Instrument Flight Rules, pilots are not permitted to make changes to their approved trajectory without first receiving permission from Air Traffic Control (ATC). Referred to as "user requests," trajectory change requests from aircrews are often denied or deferred by controllers because they have awareness of traffic and airspace constraints not currently available to flight crews. With the introduction of Automatic Dependent Surveillance-Broadcast (ADS-B) and other information services, a rich traffic, weather, and airspace information environment is becoming available on the flight deck. Automation developed by NASA uses this information to aid flight crews in the identification and formulation of optimal conflict-free trajectory requests. The concept of Traffic Aware Strategic Aircrew Requests (TASAR) combines ADS-B and airborne automation to enable user-optimal in-flight trajectory replanning and to increase the likelihood of ATC approval for the resulting trajectory change request. TASAR may improve flight efficiency or other user-desired attributes of the flight while not impacting and potentially benefiting the air traffic controller. This paper describes the TASAR concept of operations, its enabling automation technology which is currently under development, and NASA's plans for concept assessment and maturation.

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Distributed air-ground traffic management for en route flight operations

Green

Bilimoria

Ballin

2000

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A Flight Deck Decision Support Tool for Autonomous Airborne Operations

Ballin

Sharma²,

Vivona³

et al. 2002

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NASA Langley and NLR Research of Distributed Air/Ground Traffic Management

Ballin

Wing²,

Lohr³

2002

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Distributed Air/Ground Traffic Management (DAG-TM) is a concept of future air traffic operations that proposes to distribute information, decision-making authority, and responsibility among flight crews, the air traffic service provider, and aeronautical operational control organizations. This paper provides an overview and status of DAG-TM research at NASA Langley Research Center and the National Aerospace Laboratory of The Netherlands. Specific objectives of the research are to evaluate the technical and operational feasibility of the autonomous airborne component of DAG-TM, which is founded on the operational paradigm of free flight. The paper includes an overview of research approaches, the airborne technologies under development, and a summary of experimental investigations and findings to date. Although research is not yet complete, these findings indicate that free flight is feasible and will significantly enhance system capacity and safety. While free flight cannot alone resolve the complex issues faced by those modernizing the global airspace, it should be considered an essential part of a comprehensive air traffic management modernization activity.

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Prototype flight management capabilities to explore temporal RNP concepts

Ballin

Williams

Allen

et al. 2008

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Next Generation Air Transportation System (NextGen) concepts of operation may require aircraft to fly planned trajectories in four dimensions -three spatial dimensions and time. A prototype 4D flight management capability is being developed by NASA to facilitate the development of these concepts. New trajectory generation functions extend today's flight management system (FMS) capabilities that meet a single Required Time of Arrival (RTA) to trajectory solutions that comply with multiple RTA constraints. When a solution is not possible, a constraint management capability relaxes constraints to achieve a trajectory solution that meets the most important constraints as specified by candidate NextGen concepts. New flight guidance functions provide continuous guidance to the aircraft's flight control system to enable it to fly specified 4D trajectories. Guidance options developed for research investigations include a moving time window with varying tolerances that are a function of proximity to imposed constraints, and guidance that recalculates the aircraft's planned trajectory as a function of the estimation of current compliance. Compliance tolerances are related to required navigation performance (RNP) through the extension of existing RNP concepts for lateral containment. A conceptual temporal RNP implementation and prototype display symbology are proposed.

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Mark G. Ballin

Traffic Aware Strategic Aircrew Requests (TASAR)

Distributed air-ground traffic management for en route flight operations

A Flight Deck Decision Support Tool for Autonomous Airborne Operations

NASA Langley and NLR Research of Distributed Air/Ground Traffic Management

Prototype flight management capabilities to explore temporal RNP concepts

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