Abstract
Exo-atmospheric infrared (IR) point target discrimination is an important research topic of space surveillance systems. It is difficult to describe the characteristic information of the shape and micro-motion states of the targets and to discriminate different targets effectively by the characteristic information. This paper has constructed the infrared signature model of spatial point targets and obtained the infrared radiation intensity sequences dataset of different types of targets. This paper aims to design an algorithm for the classification problem of infrared radiation intensity sequences of spatial point targets. Recurrent neural networks (RNNs) are widely used in time series classification tasks, but face several problems such as gradient vanishing and explosion, etc. In view of shortcomings of RNNs, this paper proposes an independent random recurrent neural network (IRRNN) model, which combines independent structure RNNs with randomly weighted RNNs. Without increasing the training complexity of network learning, our model solves the problem of gradient vanishing and explosion, improves the ability to process long sequences, and enhances the comprehensive classification performance of the algorithm effectively. Experiments show that the IRRNN algorithm performs well in classification tasks and is robust to noise.
Highlights
Spatial targets recognition is a significant problem in precise guidance systems and space surveillance systems
Based on the recurrent structure of Recurrent neural networks (RNNs), this paper proposes an independent random recurrent neural network (IRRNN) model, which adopts an independent structure in the hidden layer, so the unsaturated activation function can be used to solve the problem of gradient vanishing and gradient explosion
Aiming at the spatial point target shape classification problem studied in this paper, and according to the characteristics of the target infrared radiation intensity time series samples, this paper proposes an Independent Random RNN algorithm structure
Summary
Spatial targets recognition is a significant problem in precise guidance systems and space surveillance systems. Infrared imaging technology is widely used in spatial targets recognition systems. The grey level of the targets changes along with time called infrared signature, which contains numerous information and can be employed in discrimination systems. A spatial target may have micro-motions due to maneuvering control or uneven force during exo-atmospheric flight, such as tumbling, spinning and precessing [3,4]. An analysis method based on mixed micro-Doppler time-frequency sequences has been put forward to extract micro-motion dynamic and inertial characteristics (including the spin rate, the precession rate, and the nutation angle, etc.) of free rigid targets in the space [5,6,7]
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