Real-Time Image Acquisition System is as shown in Fig.1. "Digital Image noise" is equivalent to analog cameras. This
noise appears as random speckles on an otherwise smooth surface and can significantly retrograde image quality [1-7].
There are outer and inner noise consisting in Image Acquisition System. In this paper we analyzed the noise generated
causation, noise model and denoising method with the aid of simulation tools. Since increased current source / sink
capability and faster switching edge rates result in an increase in ground bounce or noise caused by simultaneously
switching outputs (SSOs) in the FPGA design. The noise can affect device reliability since it can trigger false edges on
critical input signals [8]. Considering the characteristics of FPGAs, flexibility, inherent parallel characteristic and the rapid
prototyping, a debugging technique of FPGA-based was designed with a Lattice ECP2M chip. The experiment results
which include the time-consuming, the wave forms and the calculation cycles were analyzed with special tools,
Protel99SE, ispLever 6.1, ModelSim, etc. and the Post-Place & Route layout of a project was shown in the end of this
paper. It is concluded that we can deal with the inner noise problems on hardware platform, and find out some denoising
methods.
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