Stereoscopic vision training device and method
Patent Information
- Authority / Receiving Office
- JP · JP
- Patent Type
- Applications
- Current Assignee / Owner
- NUNAPS INC
- Filing Date
- 2024-05-24
- Publication Date
- 2026-06-23
AI Technical Summary
【0009】 本開示の立体視訓練提供装置によれば、斜視角の測定を通じた訓練座標の設定動作を先行的に行うことによって、被訓練者の訓練当時のコンディションによる斜視角の程度を正確に反映して立体視訓練の効果を増大させるという効果を奏する。
Smart Images

Figure 2026520417000001_ABST
Abstract
Claims
1. Display module and A memory containing the first reference video, the second reference video, multiple training images, and stereoscopic information, An input module that receives the trainee's responses, The first reference image is output to the first region of the display module, the second reference image is output to the second region of the display module, and training coordinates are set based on coordinate change signals for the first and second reference images. A control module that performs stereoscopic training by outputting a plurality of training images with different levels of three-dimensionality to the display module based on the training coordinates and receiving a selection response for the training image with the highest level of three-dimensionality, A device that provides stereoscopic vision training, including stereoscopic vision training.
2. The first region is the region corresponding to the left eye of the person being trained, The second region is the region corresponding to the right eye of the person being trained. The stereoscopic vision training device according to claim 1, characterized in that the coordinate change signal is a signal that moves the first reference image or the second reference image in the left-right direction.
3. The control module is The stereoscopic vision training device according to claim 1, characterized in that it moves the first reference image or the second reference image in accordance with the coordinate change signal, calculates the center coordinates of a boundary region including the first reference image and the second reference image, and sets the training coordinates based on the calculated center coordinates.
4. The control module is Based on the stereoscopic information, correct the training coordinates of at least one of the plurality of training images. The stereoscopic training device according to claim 1, characterized in that it corrects the training coordinates of the plurality of training images output to the region corresponding to the strabismic eye based on the stereoscopic information.
5. The stereoscopic information mentioned above is The stereoscopic training device according to claim 1, characterized in that it has different stereoscopic values depending on the difficulty level of each training of the stereoscopic training action.
6. The aforementioned stereoscopic vision training action is, Static stereoscopic training involves selecting training images from a set of stationary training images in order of increasing three-dimensionality, Dynamic stereoscopic training involves selecting one training image with high three-dimensionality from among multiple moving training images, A stereoscopic vision training device according to claim 1, characterized by including the following:
7. The control module is The stereoscopic training device according to claim 1, characterized in that it performs the stereoscopic training actions multiple times and adjusts the difficulty level of the next sequence of stereoscopic training actions based on the training results of the previous sequence of stereoscopic training actions.
8. In a method for providing stereoscopic vision training performed by a device control module, The steps include outputting a first reference image to a first area of the display module and outputting a second reference image to a second area of the display module, A step of setting training coordinates based on coordinate change signals for the first reference image and the second reference image, The steps include outputting multiple training images with different three-dimensional properties to the display module based on the aforementioned training coordinates, The stage involves performing stereoscopic training actions to receive selective responses to training images with high three-dimensionality, A method for providing stereoscopic vision training, including the provision of such training.
9. The first region is the region corresponding to the trainee's left eye, The second region is the region corresponding to the right eye of the person being trained. The method for providing stereoscopic vision training according to claim 8, characterized in that the coordinate change signal is a signal that moves the first reference image or the second reference image in the left-right direction.
10. The step of setting the training coordinates is, The steps include moving the first reference image or the second reference image according to the coordinate change signal, A step of calculating the center coordinates of the boundary region including the first reference image and the second reference image, The steps include setting the training coordinates based on the center coordinates calculated above, The method for providing stereoscopic vision training according to claim 8, characterized by including the following:
11. A step of correcting the training coordinates of at least one of the plurality of training images based on the stereoscopic information, The steps include correcting the training coordinates of the multiple training images output to the region corresponding to the strabismic eye based on the stereoscopic information, The method for providing stereoscopic vision training according to claim 8, further comprising the following:
12. The stereoscopic information mentioned above is The method for providing stereoscopic vision training according to claim 8, characterized in that the stereoscopic vision training has different stereoscopic values depending on the difficulty level of each training exercise.
13. The aforementioned stereoscopic vision training action is, Static stereoscopic training involves selecting training images from a set of stationary training images in order of increasing three-dimensionality, Dynamic stereoscopic training involves selecting one training image with high three-dimensionality from among multiple moving training images, The method for providing stereoscopic vision training according to claim 8, characterized by including the following:
14. The stage of performing the aforementioned stereoscopic vision training action multiple times, A step in which the difficulty level of the next sequence of stereoscopic training actions is adjusted based on the training results of the previous sequence of stereoscopic training actions, The method for providing stereoscopic vision training according to claim 8, further comprising the following:
15. A computer-readable recording medium on which a computer program for performing the stereoscopic vision training method described in claim 8 is recorded.