An integration system was designed to apply to the remote communication of optics and electronics detection systems,
which was integrated with programmable DSP and FPGA chirps in addition to a few Application Specific Integrated
Circuits (ASICs). It could achieve image binarization, image enhancement, data encryption, image compression
encoding, channel encoding, data interleaving, etc., and the algorithms of these functions might be renewed or updated
easily. The CCD color camera being a signal source, experiments had been done on the platform with a DSP chirp and a
FPGA one. The FPGA chirp mainly realized the reconstruction of image's brightness signal and the production of
various timing signals, and the DSP chirp mainly accomplished the other functions. The algorithms to compress image
data were based on discrete cosine transformation (DCT) and discrete wavelet transformation (DWT), respectively. The
experiment results showed that the developed platform was characterized by flexibility, programmability and reconfigurability.
The integration system is well suitable for the remote communication of optics and electronics detection systems.
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