JP2019098005A - Endoscope image processing program, endoscope system, and endoscope image processing method - Google Patents

Abstract

To provide an endoscope image processing program, endoscope system, and endoscope image processing method for providing a three-dimensional model of observation target tissue to be displayed for a diagnostician or operator, the three-dimensional model having improved visibility and appearance.SOLUTION: An endoscope image processing program is configured to cause a computer to execute: an endoscope image acquisition step of acquiring, by an endoscope, image information in an observation target tissue; a brightness information calculation step of calculating information on brightness of each area of the image information in the observation target tissue; a reliability calculation step of calculating information on reliability of image information for each area on the basis of the information on brightness for each area; a three-dimensional model construction step of constructing a three-dimensional model in the observation target tissue on the basis of the image information in the observation target tissue and information on reliability of the image information for each area; and a three-dimensional model display step of displaying the three-dimensional model constructed by the three-dimensional model construction step.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an endoscope image processing program, an endoscope system, and an endoscope image processing method.

  It has been realized to estimate the lumen shape of a luminal organ from an endoscopic image and display it as CG (computer graphic) on a computer screen.

  Patent Document 1 includes an optical system 101 for the left eye and an optical system 102 for the right eye that image light corresponding to each of the image for the left eye and the image for the right eye, and two systems of light obtained through these optical systems A three-dimensional endoscopic device is described which comprises an endoscopic scope 201 comprising a CMOS sensor 110 which is imaged separately on a single light receiving surface.

JP, 2013-90035, A

  In the conventional endoscopic image processing technology, there are problems in the visibility and the manageability of the generated three-dimensional (3D) model.

  The present invention is intended to solve the above-mentioned problems, and when displaying a three-dimensional model of an endoscope observation target tissue, an endoscopic image in which the visibility and the manageability of the three-dimensional model to be displayed are improved. It is an object of the present invention to provide a processing method and an endoscope system.

  In order to solve the above problems, according to one aspect of the present invention, an endoscopic image processing program is used to obtain an endoscopic image acquisition step of acquiring image information in an observation target tissue by an endoscope using a computer. A luminance information calculation step of calculating information on the luminance of each area of the image information in the observation target tissue acquired at the endoscopic image acquisition step; and information on the luminance of each area calculated at the luminance information calculation step. Image information in the observation target tissue acquired in the reliability image calculation step of calculating information on the reliability of image information in each region, image information in the observation target tissue acquired in the endoscopic image information acquisition step, and image information of each region calculated in the reliability calculation step In the 3D model construction step of constructing a 3D model in the observation target tissue based on the information on the reliability, and the 3D model construction step A three-dimensional model display step of displaying the three-dimensional model constructed Ri, was assumed to be running.

  Further, according to another aspect of the present invention, an endoscopic image processing program is executed by a computer, an endoscopic image acquiring step of acquiring image information in an observation target tissue by an endoscope, and an endoscopic image acquisition The image information for each area is calculated based on the information on the luminance for each area calculated in the luminance information calculation step, and the information on the luminance for each area calculated in the luminance information calculation step. Based on the reliability calculation step of calculating information on reliability, the image information in the observation target tissue acquired in the endoscopic image information acquisition step, and the information on the reliability of the image information in each region calculated in the reliability calculation step A three-dimensional model constructing step of constructing a three-dimensional model in the observation target tissue not displaying the unreliable region, and the three-dimensional model structure A three-dimensional model display step of displaying the three-dimensional model constructed in step was assumed to be running.

  Further, according to another aspect of the present invention, an endoscopic image processing program is executed by a computer, an endoscopic image acquiring step of acquiring image information in an observation target tissue by an endoscope, and an endoscopic image acquisition The image information for each area is calculated based on the information on the luminance for each area calculated in the luminance information calculation step, and the information on the luminance for each area calculated in the luminance information calculation step. Based on the reliability calculation step of calculating information on reliability, the image information in the observation target tissue acquired in the endoscopic image information acquisition step, and the information on the reliability of the image information in each region calculated in the reliability calculation step 3D model construction step of constructing a 3D model in the observation target tissue in which unreliable regions are smoothed; 3D model construction A three-dimensional model display step of displaying the three-dimensional model constructed by-up, was assumed to be running.

  Further, according to another aspect of the present invention, an endoscope system includes: an endoscope camera for acquiring image information in an observation target tissue; and a region of image information in the observation target tissue acquired by the endoscope camera A reliability information calculation unit that calculates information related to each luminance, and a reliability calculation unit that calculates information related to the reliability of image information of each region based on the information related to the luminance of each region calculated by the luminance information calculation unit; A three-dimensional model for constructing a three-dimensional model in the observation target tissue based on the image information in the observation target tissue acquired by the endoscope camera and the information on the reliability of the image information for each area calculated by the reliability calculation unit A construction unit and a three-dimensional model display unit for displaying a three-dimensional model constructed by the three-dimensional model construction unit are provided.

  Further, according to another aspect of the present invention, an endoscope system includes: an endoscope camera for acquiring image information in an observation target tissue; and a region of image information in the observation target tissue acquired by the endoscope camera A reliability information calculation unit that calculates information related to each luminance, and a reliability calculation unit that calculates information related to the reliability of image information of each region based on the information related to the luminance of each region calculated by the luminance information calculation unit; An observation target tissue in which low reliability regions are smoothed based on the image information in the observation target tissue acquired by the endoscope image information acquisition unit and the information on the reliability of the image information for each region calculated by the reliability calculation unit And a three-dimensional model display unit for displaying a three-dimensional model constructed by the three-dimensional model construction unit.

  Further, according to another aspect of the present invention, an endoscope system includes: an endoscope camera for acquiring image information in an observation target tissue; and a region of image information in the observation target tissue acquired by the endoscope camera A reliability calculation unit that calculates information related to the reliability of image information for each area based on the information related to the luminance for each area, and a endoscopic image information acquisition unit Based on the image information in the observation target tissue acquired by the image and the information on the reliability of the image information in each region calculated by the reliability calculation unit, a three-dimensional model in the observation target tissue is constructed by smoothing the low reliability region. And a three-dimensional model display unit for displaying a three-dimensional model constructed by the three-dimensional model construction unit.

  Further, according to another aspect of the present invention, an endoscope image processing method is obtained by an endoscope image acquisition step of acquiring image information in an observation target tissue by an endoscope, and an endoscope image acquisition step. The reliability information calculation step of calculating the information on the reliability of the image information for each area based on the information on the luminance information calculation step of calculating the information on the luminance for each area of the image information in the observation target tissue Construct a three-dimensional model in the observation target tissue based on the information on the reliability of the step and the image information in the observation target tissue acquired in the endoscopic image information acquisition step and the image information in each area calculated in the reliability calculation step And a three-dimensional model display step for displaying a three-dimensional model constructed by the three-dimensional model construction step. .

  According to the present invention, it is possible to provide an endoscope image processing program, an endoscope system and an endoscope image processing method in which the visibility and the manageability of the three-dimensional model displayed to the diagnostician or the operator are improved. it can.

It is a figure which shows the endoscopic image processing method by a present Example. It is a figure which shows the shape of the phantom used for verification of a present Example, and the operation procedure of an endoscope. It is a figure which shows the three-dimensional model before performing correction | amendment by a present Example. It is a figure which shows the three-dimensional model after performing correction | amendment by a present Example.

  Hereinafter, examples and embodiments of the present invention will be described, but the embodiments of the present invention are not limited to the embodiments and examples described below.

1. Hide unreliable parts The control points that make up the model generated by the prior art store the correspondences by which point or area information of which frame of the input endoscopic video image. ing.

  Since the unreliable part of the original input data and the unreliable part of the model shape as the estimation result are also low based on this correspondence, displaying this part misinterprets the diagnosis or the operator as the structure of the target tissue. May occur, or it may take time to grasp an accurate structure. Therefore, the corresponding region is hidden using the alpha blend etc. which is the basic technology of CG, and the reliability of the displayed organ form is secured.

2. Smoothing of Display Model In the shape estimation method of the prior art, it is premised to acquire position / posture information of the tip of the endoscope in synchronization with the endoscopic image.

  By applying a temporal low-pass filter (for example, a combination of a median filter and a moving average filter) of this position information, it is possible to improve the formability of the shape estimation result.

  Also, by applying the smoothing process of the mesh data to the front stage of outputting the model as CG, it is possible to improve the distort of the shape estimation result.

  The image processing procedure of this embodiment is shown in FIG.

  Reference numeral 101 denotes a panoramic image generation step. In this step, endoscopic images are selected. The average luminance of the entire endoscopic image is calculated, and a region having an average luminance of 0.9 or more and 0.1 or less is determined to be a low reliability portion (Low quality). Substitute 100.0 (ExplicitLowQualityValue) for the Quality term of Motion.

  102 is a vertex data generation step. In this step, the Alpha cut value is specified, that is, the pixel is forcibly transmitted under the condition of ExplicitLowQualityValue.

  Also, the position and orientation data is smoothed. That is, for each of pos, dir, and up, one median filter with window size = 5 and the moving average filter are enforced twice.

  Furthermore, the surface data is smoothed. That is, the smoothing filter in the vicinity of 8 is applied once.

  103 is a rendering step. In this step, conditions for partial shape rendering are set. Specifically, rendering is performed on a portion that does not continue three or more points of the LowQuality flag of Motion.

  In the phantom of the shape shown in FIG. 2, the two-dimensional image at the time of operating and imaging an endoscope in order of 1, 2, 3 shown in FIG. 2 was acquired.

  What built the three-dimensional model based on the acquired two-dimensional image is shown in FIG. Reference numeral 301 in FIG. 3 denotes an area where noise is generated in the position sensor information, and a display different from the actual shape of the phantom is displayed. Reference numeral 302 denotes a portion where abrupt movement due to the elasticity of the endoscope or halation occurs by hitting a wall surface, and this portion is displayed as tissue existing in a region where tissue does not actually exist.

  FIG. 4 shows a three-dimensional model constructed by applying the information processing of this embodiment. The area 301 displayed erroneously in FIG. 3 is smoothed in 401 and displayed in a shape close to a real tissue. Further, in FIG. 3, the portion 302 displayed in the region where no tissue exists is determined to be a portion with low reliability, and is not displayed in 402.

  As described above, it has been confirmed that the misunderstanding about the structure of the observation target tissue of the diagnostician or the operator is reduced if the three-dimensional image is displayed according to the present embodiment.

  The present invention is industrially applicable as an endoscope image processing program, an endoscope system, and an endoscope image processing method.

101 Panoramic image generation step 102 Vertex data generation step 103 Rendering step 301 Area 302 where noise of position sensor information has occurred Area where halation occurs 401 area that has been smoothed 402 area not displayed

Claims (7)

An endoscopic image acquisition step of acquiring image information in the observation target tissue by an endoscope using a computer;
A luminance information calculating step of calculating information on the luminance of each area of the image information in the observation target tissue acquired in the endoscopic image acquiring step;
A reliability calculation step of calculating information related to reliability of image information of each area based on the information related to luminance of the area calculated by the luminance information calculation step;
Construct a three-dimensional model in the observation target tissue based on the image information in the observation target tissue acquired in the endoscopic image information acquisition step and the information on the reliability of the image information for each area calculated in the reliability calculation step 3D model construction step
A three-dimensional model display step for displaying a three-dimensional model constructed by the three-dimensional model construction step;
An endoscopic image processing program for executing. An endoscopic image acquisition step of acquiring image information in the observation target tissue by an endoscope using a computer;
A luminance information calculating step of calculating information on the luminance of each area of the image information in the observation target tissue acquired in the endoscopic image acquiring step;
A reliability calculation step of calculating information related to reliability of image information of each area based on the information related to luminance of the area calculated by the luminance information calculation step;
The low reliability area is not displayed based on the image information in the observation target tissue acquired in the endoscopic image information acquisition step and the information on the reliability of the image information for each area calculated in the reliability calculation step. A three-dimensional model construction step of constructing a three-dimensional model in the observation target tissue;
A three-dimensional model display step for displaying a three-dimensional model constructed by the three-dimensional model construction step;
An endoscopic image processing program for executing. An endoscopic image acquisition step of acquiring image information in the observation target tissue by an endoscope using a computer;
A luminance information calculating step of calculating information on the luminance of each area of the image information in the observation target tissue acquired in the endoscopic image acquiring step;
A reliability calculation step of calculating information related to reliability of image information of each area based on the information related to luminance of the area calculated by the luminance information calculation step;
The low reliability area is smoothed based on the image information in the observation target tissue acquired in the endoscopic image information acquisition step and the information on the reliability of the image information for each area calculated in the reliability calculation step. A three-dimensional model construction step of constructing a three-dimensional model in the observation target tissue;
A three-dimensional model display step for displaying a three-dimensional model constructed by the three-dimensional model construction step;
An endoscopic image processing program for executing. An endoscopic camera for acquiring image information in an observation target tissue;
A luminance information calculation unit that calculates information related to the luminance of each area of the image information in the observation target tissue acquired by the endoscope camera;
A reliability calculation unit that calculates information related to the reliability of image information for each area based on the information related to the luminance for each area calculated by the luminance information calculation unit;
A three-dimensional model in the observation target tissue is constructed based on the information on the reliability of the image information in the observation target tissue acquired by the endoscope camera and the image information of each area calculated by the reliability calculation unit. Three-dimensional model construction unit,
A three-dimensional model display unit for displaying a three-dimensional model constructed by the three-dimensional model construction unit;
An endoscope system comprising: An endoscopic camera for acquiring image information in an observation target tissue;
A luminance information calculation unit that calculates information related to the luminance of each area of the image information in the observation target tissue acquired by the endoscope camera;
A reliability calculation unit that calculates information related to the reliability of image information for each area based on the information related to the luminance for each area calculated by the luminance information calculation unit;
The low reliability area is smoothed based on the image information in the observation target tissue acquired by the endoscopic image information acquisition section and the information on the reliability of the image information for each area calculated by the reliability calculation section. A three-dimensional model construction unit that constructs a three-dimensional model in the observation target tissue;
A three-dimensional model display unit for displaying a three-dimensional model constructed by the three-dimensional model construction unit;
Endoscope system having. An endoscopic camera for acquiring image information in an observation target tissue;
A luminance information calculation unit that calculates information related to the luminance of each area of the image information in the observation target tissue acquired by the endoscope camera;
A reliability calculation unit that calculates information related to the reliability of the image information for each area based on the information related to the luminance for each area;
The low reliability area is smoothed based on the image information in the observation target tissue acquired by the endoscopic image information acquisition section and the information on the reliability of the image information for each area calculated by the reliability calculation section. A three-dimensional model construction unit that constructs a three-dimensional model in the observation target tissue;
A three-dimensional model display unit for displaying a three-dimensional model constructed by the three-dimensional model construction unit;
An endoscope system comprising: An endoscopic image acquisition step of acquiring image information in an observation target tissue by an endoscope;
A luminance information calculating step of calculating information on the luminance of each area of the image information in the observation target tissue acquired in the endoscopic image acquiring step;
A reliability calculation step of calculating information related to reliability of image information for each area based on the information related to luminance for each area;
Construct a three-dimensional model in the observation target tissue based on the image information in the observation target tissue acquired in the endoscopic image information acquisition step and the information on the reliability of the image information for each area calculated in the reliability calculation step 3D model construction step
A three-dimensional model display step for displaying a three-dimensional model constructed by the three-dimensional model construction step;
And an endoscopic image processing method.