1. Introduction

Recently, digital camera inside the mobile devices, such as cellular phone and PDA, has become a necessary feature to consumer electronic industrial. Those applications require low power consumption, pocket dimension, low cost, and easy integration. Therefore, CMOS (Complementary Metal Oxide Semiconductor) image sensor is more suitable than CCD (Charge Coupled Device) for the mobile devices to transfer the natural scenes into electrical signals. CMOS image sensor, however, is inherent with many kinds of noises. For instance, the reset noise and integration noise are related to the pixel-controlled circuit [3]. The dark current is induced by the electrical leakage. In addition, pixel crosstalk is generated from optical, electrical and architectural interferences. Moreover, the bad pixel and wounded pixel are resulted from material and manufacturing defects. In general, the bad/wounded pixel can be removed as an impulsive noise and the integration noise can be considered as a uniform noise. The dark current can be cancelled by measuring the current of optical black. The reset noise can be compensated through the correlated-double-sampling (CDS) technique [4]. However, the pixel cross-talk effect is still without an effective method to compensate the optical, electrical and architectural interferences simultaneously.