In recent years, the 3D display becomes the main stream and the touch panel would provide the more intuitive method to interact with display. Therefore, the camera based system could be used to interact with 3D images. However, the interactive range of this system would be limited by the viewing angle. Therefore, this system is not suitable for approach sensing and small size display. To achieve interaction with small size 3D displays by bare finger, the sequential reflecting mode system with embedded optical sensor was proposed. Because this system has small volume and it can be operated in area close to the panel. Moreover, the construction includes IR backlight and sequential illuminators. The IR backlight and sequential illuminators would illuminate finger and the reflective light signals would be captured by optical sensor. Therefore, this sequential reflecting mode system can be operated without any devices on hand. Furthermore, the captured reflective signals can be processed by full-search and region based algorithm to obtain 3D coordinates (x, y and z) of finger. The construction and algorithm of sequential reflecting mode system would be proposed and results of calculated 3D coordinates (x, y and z) are discussed. Consequently, the sequential reflecting mode system had implemented on 4 inch autostereoscopic panel. Furthermore, the results of interactive range of depth value and resolution of 3D coordinates (x, y and z) and can be applied to portable applications.