Applying genetic algorithms to neural network learning
Proceedings of the Seventh Conference (AISB89) on Artificial Intelligence and Simulation of Behaviour
Mapping classifier systems into neural networks
Advances in neural information processing systems 1
Neurocomputing
Adaptation in natural and artificial systems
Adaptation in natural and artificial systems
Neural networks: applications in industry, business and science
Communications of the ACM
Efficient genetic algorithms for training layered feedforward neural networks
Information Sciences—Informatics and Computer Science: An International Journal
Neuro-fuzzy and soft computing: a computational approach to learning and machine intelligence
Neuro-fuzzy and soft computing: a computational approach to learning and machine intelligence
Soft computing techniques for the design of mobile robot behaviors
Information Sciences: an International Journal - Special issue on frontiers in evolutionary algorithms
Comparative evaluation of genetic algorithm and backpropagation for training neural networks
Information Sciences—Informatics and Computer Science: An International Journal
Three objective genetics-based machine learning for linguisitc rule extraction
Information Sciences: an International Journal - Recent advances in genetic fuzzy systems
Computer Vision
Automatic Target Recognition Using a Neocognitron
IEEE Transactions on Knowledge and Data Engineering
Neuro Fuzzy Systems: Sate-of-the-Art Modeling Techniques
IWANN '01 Proceedings of the 6th International Work-Conference on Artificial and Natural Neural Networks: Connectionist Models of Neurons, Learning Processes and Artificial Intelligence-Part I
A self-adaptive migration model genetic algorithm for data mining applications
Information Sciences: an International Journal
A mathematical framework to optimize ATR systems with non-declarations and sensor fusion
Computers and Operations Research
On statistical approaches to target silhouette classification in difficult conditions
Digital Signal Processing
Review article: Aircraft recognition in infrared image using wavelet moment invariants
Image and Vision Computing
Training feedforward neural networks using genetic algorithms
IJCAI'89 Proceedings of the 11th international joint conference on Artificial intelligence - Volume 1
Automatic target recognition by matching oriented edge pixels
IEEE Transactions on Image Processing
Simulated annealing and weight decay in adaptive learning: the SARPROP algorithm
IEEE Transactions on Neural Networks
A flexible edge matching technique for object detection in dynamic environment
Applied Intelligence
Simultaneous optimization of artificial neural networks for financial forecasting
Applied Intelligence
Efficient fuzzy ranking queries in uncertain databases
Applied Intelligence
A multi-threshold segmentation approach based on Artificial Bee Colony optimization
Applied Intelligence
Formal approach for reengineering fuzzy XML in fuzzy object-oriented databases
Applied Intelligence
Multi-circle detection on images inspired by collective animal behavior
Applied Intelligence
Storing and querying fuzzy XML data in relational databases
Applied Intelligence
Formal transformation from fuzzy object-oriented databases to fuzzy XML
Applied Intelligence
Image annotation by modeling Supporting Region Graph
Applied Intelligence
| Hi-index | 0.00 |
Multilayer perceptron neural networks possess pattern recognition properties that make them well suited for use in automatic target recognition systems. Their application is hindered, however, by the lack of a training algorithm, which reliably finds a nearly global optimal set of weights in a relatively short time. The approach presented here is based on implementation of genetic algorithms and fuzzy logic in training the proposed hybrid architecture. Compared to other approaches, it offers the following three main advantages. The neuro-computing technique is capable of fast and adaptive distortion-invariant pattern recognition for rapidly changing targets. On the other hand, genetic algorithms and fuzzy logic offer very sophisticated configuration control, which combines the results of previous computations with the external operating environment. Third, it allows us to significantly improve the reliability of object detection in the input scene with respect to associated distortions at no additional computational cost. This paper examines using genetic algorithms as an efficient way to train a feedforward neural net, the inputs for which are provided by a fuzzy front end, to be applied to automatic target recognition. The system is tested using actual laser detection and range data as training data and the results of the analysis show that the proposed system results in a much faster convergence on a weight set, and a high rate of successful recognition.