PurposeThis paper aims to present the development of prediction models for aircraft actuator failure impact on flight envelope within the artificial immune system (AIS) paradigm.Design/methodology/approachSimplified algorithms are developed for estimating ranges of flight envelope-relevant variables using an AIS in conjunction with the hierarchical multi-self strategy. The AIS is a new computational paradigm mimicking mechanisms of its biological counterpart for health management of complex systems. The hierarchical multi-self strategy consists of building the AIS as a collection of low-dimensional projections replacing the hyperspace of the self to avoid numerical and conceptual issues related to the high dimensionality of the problem.Find...
This paper presents the development of a biologically inspired generalized conceptual framework for ...
In this paper, a simulation environment is presented developed at West Virginia University (WVU) for...
This paper describes the design, development, and flight-simulation testing of an artificial immune-...
This paper presents the development of simple models for the assessment of flight envelope reduction...
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-...
Based on the artificial immune system paradigm and a hierarchical multi-self strategy, a set of algo...
This paper presents the development of a biologically-inspired methodology for flight envelope predi...
The development of simplified models for the estimation of flight envelope reduction under damages t...
This thesis describes the design, development, and flight-simulation testing of anintegrated Artific...
Purpose:This paper aims to describe the design, development and flight-simulation testing of an arti...
This paper presents the development of an integrated set of methodologies for thedetection, identifi...
A detection scheme based on the artificial immune system (AIS) paradigm was developed for specific c...
In this paper, the development and testing through simulation of an integrated scheme for aircraft s...
This paper presents the development of a biologically inspired generalized conceptual framework for ...
In this paper, a simulation environment is presented developed at West Virginia University (WVU) for...
This paper describes the design, development, and flight-simulation testing of an artificial immune-...
This paper presents the development of simple models for the assessment of flight envelope reduction...
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-...
Based on the artificial immune system paradigm and a hierarchical multi-self strategy, a set of algo...
This paper presents the development of a biologically-inspired methodology for flight envelope predi...
The development of simplified models for the estimation of flight envelope reduction under damages t...
This thesis describes the design, development, and flight-simulation testing of anintegrated Artific...
Purpose:This paper aims to describe the design, development and flight-simulation testing of an arti...
This paper presents the development of an integrated set of methodologies for thedetection, identifi...
A detection scheme based on the artificial immune system (AIS) paradigm was developed for specific c...
In this paper, the development and testing through simulation of an integrated scheme for aircraft s...
This paper presents the development of a biologically inspired generalized conceptual framework for ...
In this paper, a simulation environment is presented developed at West Virginia University (WVU) for...
This paper describes the design, development, and flight-simulation testing of an artificial immune-...