This paper proposes a camera projection model for an oblique-viewing endoscope, intended for application to an extended virtual reality system. The oblique-viewing endoscope differs from the forward-viewing endoscope by the fact that the view field can be shifted by rotating the scope cylinder. The projection model proposed in this study describes the systematic relation between the rotation angle of the scope cylinder and the external parameters of the camera model. A calibration method is also proposed for estimating the parameters of the projection model, and its accuracy is investigated. The oblique-viewing projection model is derived as an extension of the general pinhole camera model by adding two axes of rotation as parameters and using the angle of rotation of the scope cylinder as the input. In the experiment, an abdominal endoscope is used as the real equipment. A rotary encoder with an angular resolution of 0.25° is used to input the rotation angle of the scope cylinder. The accuracy is examined by the above condition for a scope cylinder rotation angle of 0 to 132°. The average projection error in the proposed model is 2.4 pixels. When the parameters needed in the model are not estimated, the error is increased to 5 to 8 pixels compared to the case in which they are estimated. It is thus shown that the parameters of the proposed model are indispensable in the description of the actual oblique-viewing endoscope. Even if the number of data points for each angle is 2, an accuracy such that the average error is less than 2.8 pixels is obtained.
|Number of pages||13|
|Journal||Electronics and Communications in Japan, Part II: Electronics (English translation of Denshi Tsushin Gakkai Ronbunshi)|
|Publication status||Published - Feb 2005|
All Science Journal Classification (ASJC) codes
- Physics and Astronomy(all)
- Computer Networks and Communications
- Electrical and Electronic Engineering