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A model predictive framework for thermal management of aircraft
Timothy O. Deppen
, Joel E. Hey
, Andrew G. Alleyne
, Timothy S. Fisher
Mechanical Science and Engineering
Coordinated Science Lab
Information Trust Institute
Carl R. Woese Institute for Genomic Biology
Electrical and Computer Engineering
Research output
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Conference contribution
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Keyphrases
Predictive Models
100%
Thermal Management
100%
Predictive Framework
100%
Thermal Management System
100%
Thermal Load
66%
Tactical Aircraft
66%
High Performance
33%
Order of Magnitude
33%
Power Density
33%
Control Method
33%
Rapidly Evolving
33%
Thermal Runaway
33%
Electrical Energy
33%
On Demand
33%
Heat Dissipation
33%
System Energy
33%
Constraint Violation
33%
Transient Thermal Behavior
33%
Feedback Controller
33%
Predictive Control Strategy
33%
Model Predictive Control
33%
Scenario Approach
33%
Operational Constraints
33%
Holistic Systems
33%
Systems Perspective
33%
Simulation Case Study
33%
Temperature Constraint
33%
PI Feedback
33%
Steady-state Thermal Analysis
33%
Thermal Power
33%
Electrical Equipment
33%
Thermal Controller
33%
Engineering
Tactical Aircraft
100%
Thermal Load
100%
Transients
50%
Power Density
50%
Thermal Behavior
50%
Heat Losses
50%
Electrical Power
50%
Control Strategy
50%
Feedback Controller
50%
Case Scenario
50%
Constraint Violation
50%
Predictive Control Model
50%
Cooling Demand
50%
Electrical Equipment
50%
Thermal State
50%
Chemical Engineering
Thermal Load
100%
Predictive Control Model
50%
Chilling
50%