In terms of control， this study systematically reviews the advanced technology and research progress of image shift and image rotation compensation control technology for aviation optoelectronic imaging with a large field of view and high-resolution requirements. Under the development trend of image shift and rotation compensation control， the technology can be divided into two major categories： single- and multi-actuator cooperative compensation controls. For single-actuator compensation control， compensation methods based on gimbal control， optical path folding， and imaging medium control are summarized. For multi-actuator cooperative compensation control， the collaborative control scheme is resolved and analyzed from the three perspectives of command coordination， mechanical linkage， and multi-actuator information interaction， and the difficulties and future development trends of image shift and image rotation motion compensation control are prospected from five research angles. The study will contribute to a rapid and comprehensive understanding of the research status and development trends of image shift and rotation compensation control in the field of aviation optoelectronic imaging and act as a helpful reference for further improving the synthesis performance of aviation optoelectronic imaging equipment.