The results were published in Astronomy and Computing.
The researchers proposed an angular resolution and discrimination algorithm based on the HDR compression tone-mapping and gain control, which was embedded in the wavelet multi-scale framework.
"Our proposed algorithm has certain advantages. It avoids unexpected changes and loss of integrated flux density information in the traditional methods, as well as excessive and false high dynamic information," said Dr. SHAN.
The researchers used tone-mapping and gain control to simulate human visual system, and adapted the results to display devices by reducing the HDR. The radio source was identified by setting the discovery detection rate, missing detection rate and false detection rate, as well as a set of criteria.
At present, the researchers are carrying out feasibility study on neural network and super-resolution image restoration of radio scenes. In order to achieve satisfying results for higher resolution data, the algorithm will be improved and applied to the data of the Murchison Wide-field Array (MWA).
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