This paper presents a novel bio-inspired adaptive control technique that has been designed to maintain the performance of an aircraft under upset conditions. The proposed control approach is inspired by biological principles that govern the humoral response of the immune system of living organisms and is intended to reduce pilot effort while maintaining adequate aircraft operation outside bounds of nominal design. The immunity-based control parameters are optimized offline for multiple sets of failures using a genetic algorithm approach. The performance of the immunity-based augmentation is compared with a neural network (NN)-based augmentation. Different piloted tests were performed on a six degrees-of-freedom (6DOF) motion-based simulator...
Failures, malfunctions, and damage affecting aircraft subsystems, as well as general environmental a...
This paper describes the design, development, and flight-simulation testing of an artificial immune-...
This paper describes the design, development, and flight-simulation testing of an artificial-immune-...
This paper presents a novel bio-inspired adaptive control technique that has been designed to mainta...
This paper presents the development and testing of a novel fault tolerant adaptive bioinspired contr...
This paper presents the development and testing of a novel fault tolerant adaptive control system ba...
In this paper, a novel adaptive flight control system is presented, designed to handle failures and ...
This dissertation presents the design, development, and simulation testing of an adaptive trajectory...
The capability to efficiently perform checkout, testing, and monitoring of aerospace vehicles, subsy...
This paper presents Hardware-in-the-Loop (HIL) simulation results of a novel configuration for guida...
This paper describes the design, development, and flight simulation testing of an artificial immune ...
This paper examines a neural-adaptive flight control system augmented with linear programming theory...
This paper presents in-flight testing results of the implementation of an immunity-based approach fo...
This paper presents the development of a biologically inspired generalized conceptual framework for ...
This paper presents the development of a biologically inspired generalized conceptual framework for ...
Failures, malfunctions, and damage affecting aircraft subsystems, as well as general environmental a...
This paper describes the design, development, and flight-simulation testing of an artificial immune-...
This paper describes the design, development, and flight-simulation testing of an artificial-immune-...
This paper presents a novel bio-inspired adaptive control technique that has been designed to mainta...
This paper presents the development and testing of a novel fault tolerant adaptive bioinspired contr...
This paper presents the development and testing of a novel fault tolerant adaptive control system ba...
In this paper, a novel adaptive flight control system is presented, designed to handle failures and ...
This dissertation presents the design, development, and simulation testing of an adaptive trajectory...
The capability to efficiently perform checkout, testing, and monitoring of aerospace vehicles, subsy...
This paper presents Hardware-in-the-Loop (HIL) simulation results of a novel configuration for guida...
This paper describes the design, development, and flight simulation testing of an artificial immune ...
This paper examines a neural-adaptive flight control system augmented with linear programming theory...
This paper presents in-flight testing results of the implementation of an immunity-based approach fo...
This paper presents the development of a biologically inspired generalized conceptual framework for ...
This paper presents the development of a biologically inspired generalized conceptual framework for ...
Failures, malfunctions, and damage affecting aircraft subsystems, as well as general environmental a...
This paper describes the design, development, and flight-simulation testing of an artificial immune-...
This paper describes the design, development, and flight-simulation testing of an artificial-immune-...