Failures, malfunctions, and damage affecting aircraft subsystems, as well as general environmental and dynamic upset conditions, have been consistently identified as the primary sources or aggravating circumstances of the majority of aviation accidents and incidents [1-3]. It is important to properly address safety under normal and abnormal operational conditions throughout the entire life cycle of aerospace systems, including design, production, maintenance, and operation [4], within an thoroughly conducted aircraft health management process [5-8]. Toward this objective, a new computational paradigm, mimicking the biological immune system, has been extended and implemented for aerospace applications in recent years. The formulation of an i...
This paper presents the development of simple models for the assessment of flight envelope reduction...
This paper presents the development and testing of a novel fault tolerant adaptive control system ba...
A detection scheme based on the artificial immune system paradigm was developed for specific classes...
Failures, malfunctions, and damage affecting aircraft subsystems, as well as general environmental a...
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 ...
Artificial Immune Systems (AIS) combine a priori knowledge with the adapting capabilities of biologi...
Based on the artificial immune system paradigm and a hierarchical multi-self strategy, a set of algo...
Abnormal flight conditions play a major role in aircraft accidents frequently causing loss of contro...
This paper describes the design, development, and flight-simulation testing of an artificial immune-...
This paper presents the development of an integrated set of methodologies for thedetection, identifi...
PurposeThis paper aims to present the development of prediction models for aircraft actuator failure...
The capability to efficiently perform checkout, testing, and monitoring of aerospace vehicles, subsy...
An integrated artificial immune system-based scheme that can operate over extended areas of the flig...
The development of simplified models for the estimation of flight envelope reduction under damages t...
This paper presents the development of simple models for the assessment of flight envelope reduction...
This paper presents the development and testing of a novel fault tolerant adaptive control system ba...
A detection scheme based on the artificial immune system paradigm was developed for specific classes...
Failures, malfunctions, and damage affecting aircraft subsystems, as well as general environmental a...
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 ...
Artificial Immune Systems (AIS) combine a priori knowledge with the adapting capabilities of biologi...
Based on the artificial immune system paradigm and a hierarchical multi-self strategy, a set of algo...
Abnormal flight conditions play a major role in aircraft accidents frequently causing loss of contro...
This paper describes the design, development, and flight-simulation testing of an artificial immune-...
This paper presents the development of an integrated set of methodologies for thedetection, identifi...
PurposeThis paper aims to present the development of prediction models for aircraft actuator failure...
The capability to efficiently perform checkout, testing, and monitoring of aerospace vehicles, subsy...
An integrated artificial immune system-based scheme that can operate over extended areas of the flig...
The development of simplified models for the estimation of flight envelope reduction under damages t...
This paper presents the development of simple models for the assessment of flight envelope reduction...
This paper presents the development and testing of a novel fault tolerant adaptive control system ba...
A detection scheme based on the artificial immune system paradigm was developed for specific classes...