An alternative cascaded human-visual-system (HVS) based mechanism has been applied on high-dynamic-range image reproduction. It obtains appreciated results compared with several previous strategies. The proposed mechanism consists of three aspects. The first stage is the notch filtering on frequency domain, referring to the adaptive mechanism of HVS. Based on the logarithm transformation and the learning method, the physical halo-effect was also eliminated in some degrees. The second is the center-surround spatial filtering, which enhances the edges with higher visual contrast sensitivity in spatial frequency. It aims to distinct objects based on the TVI (transition versus intensity) function. The last one is pixel-wise detail modulation for enhancing the photography sensation in virtue of flatting histogram. The experimental results also show out the pleasing details in images. This multiple-stages approach is appreciated for enhancing images with low-contrast edges or dimming-room pictures, and is also helpful to treat the low-visual-quality images in surveillance or health-care monitoring systems.