TWI776758B - Eye training equipment and training systems - Google Patents

Eye training equipment and training systems Download PDF

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TWI776758B
TWI776758B TW110147978A TW110147978A TWI776758B TW I776758 B TWI776758 B TW I776758B TW 110147978 A TW110147978 A TW 110147978A TW 110147978 A TW110147978 A TW 110147978A TW I776758 B TWI776758 B TW I776758B
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TW202326239A (en
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殷立德
陳慶永
蘇珮綺
蔡育倫
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中華醫事科技大學
殷立德
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Abstract

一種眼睛訓練設備與訓練系統,該眼睛訓練系統包含虛擬影像顯示單元及影像變化控制單元。該虛擬影像顯示單元可透過虛擬實境技術將虛擬背景影像組與虛擬目標物影像組顯示於電子載具以供觀看產生三維視覺效果。該影像變化控制單元可控制虛擬目標物在虛擬三維空間中變換尺寸與座標位置,以產生在三維虛擬空間中遠近位移變化的視覺效果。透過該眼睛訓練設備可供配戴在頭部,以及透過該眼睛訓練系統的設計,可方便使用者透過對虛擬目標物進行追焦運動,以進行眼睛周圍肌肉的調節訓練,是一種相當方便實用的創新設計。An eye training device and training system, the eye training system includes a virtual image display unit and an image change control unit. The virtual image display unit can display the virtual background image group and the virtual object image group on the electronic vehicle for viewing to generate a three-dimensional visual effect through the virtual reality technology. The image change control unit can control the virtual object to change size and coordinate position in the virtual three-dimensional space, so as to generate a visual effect of changing the distance and near displacement in the three-dimensional virtual space. The eye training device can be worn on the head, and through the design of the eye training system, it is convenient for users to adjust and train the muscles around the eyes by following the focus movement on the virtual target, which is quite convenient and practical. innovative design.

Description

眼睛訓練設備與訓練系統Eye training equipment and training systems

本發明是有關於一種生物活動訓練設備與系統,特別是指一種用於眼睛之訓練設備與訓練系統。The present invention relates to a biological activity training device and system, in particular to an eye training device and training system.

臺灣近視盛行率已經締造了另類的世界第一。目前在台灣的主流近視控制方法有兩種,分別為使用散瞳劑及角膜塑型片。雖然許多臨床試驗證明,使用散瞳劑滴眼液能夠使近視進展顯著降低,但這些試驗結果的臨床意義仍存在爭議,且其他國家不建議在有近視的兒童中常規使用散瞳劑。角膜塑型片是一種須專門設計和裝配的剛性隱形眼鏡,可用以重塑角膜輪廓,暫時改變或消除角膜屈光錯誤,並可在角膜塑型片摘除後改善裸眼視力,但容易因為個人使用不當導致鏡片刮傷毀損,甚至因清潔不當導致細菌滋生,而發生眼睛感染微生物的情況。The prevalence of myopia in Taiwan has created an alternative world first. Currently, there are two mainstream myopia control methods in Taiwan, namely, the use of mydriatic agents and orthokeratology. Although numerous clinical trials have demonstrated a significant reduction in myopia progression with the use of mydriatic eye drops, the clinical significance of these trial results remains controversial, and the routine use of mydriatics in children with myopia is not recommended in other countries. Orthokeratology lenses are rigid contact lenses that must be specially designed and assembled to reshape the corneal contour, temporarily change or eliminate corneal refractive errors, and improve uncorrected vision after orthokeratology lens removal, but are prone to personal use Improper lens scratches and damages, and even bacterial growth due to improper cleaning, and the occurrence of eye infection by microorganisms.

有鑑於此,有些研究單位發展出非侵入式的視力訓練方法,例如翻轉鏡視力訓練。翻轉鏡視力訓練雖證實有效,但其操作期間須手持裝置進行訓練,最基本的訓練時間需連續15分鐘。如此手持翻轉15分鐘對成人來講已經會極為不耐與手腕疲累,更何況訓練對象是國中、小之好動年齡學童,因此經常發生兒童沒有耐心而加快翻轉速度,使水晶體調節不完全,而無法達到訓練效果,以及因疲勞而排斥使用等問題。In view of this, some research units have developed non-invasive vision training methods, such as inverted mirror vision training. Although the vision training of flip mirror is proved to be effective, the training must be carried out by holding the device during the operation, and the most basic training time should be 15 minutes continuously. Hand-held flipping for 15 minutes is already extremely impatient and wrist fatigue for adults, not to mention that the training targets are middle school and small children of active age. Therefore, it often happens that children are impatient and speed up the flipping, resulting in incomplete adjustment of the crystal, and Unable to achieve the training effect, and the exclusion of use due to fatigue.

因此,本發明的目的,即在提供一種能改善先前技術的至少一個缺點的眼睛訓練設備。It is therefore an object of the present invention to provide an eye training device that ameliorates at least one of the disadvantages of the prior art.

於是,本發明眼睛訓練設備,適用於供配戴設置在一使用者眼前。該眼睛訓練設備包含一個頭戴式裝置,及一個透過軟體程式及/或電子電路實施建構在該頭戴式裝置的眼睛訓練系統。該頭戴式裝置包括一個用以配戴在該使用者頭部的配戴單元,及一個設置在該配戴單元中且用以朝該使用者眼睛顯示影像的電子載具。Therefore, the eye training device of the present invention is suitable for wearing and setting in front of a user. The eye training equipment includes a head-mounted device, and an eye-training system implemented on the head-mounted device through software programs and/or electronic circuits. The head-mounted device includes a wearing unit to be worn on the user's head, and an electronic carrier disposed in the wearing unit and used to display images to the user's eyes.

該眼睛訓練系統包括一個虛擬影像顯示單元,及一個影像變化控制單元。該虛擬影像顯示單元可透過虛擬實境技術將一虛擬背景影像組與一虛擬目標物影像組重疊顯示於該電子載具,使該虛擬背景影像組可供觀看以產生身處一個三維虛擬空間的視覺效果,使該虛擬目標物影像組可供觀看以建構出一個懸浮於該三維虛擬空間的虛擬目標物的視覺效果。該影像變化控制單元可被啟動而控制該虛擬目標物影像組構成之該虛擬目標物在不同之一第一尺寸與一第二尺寸間切換,並同時調整切換至該第一尺寸與該第二尺寸時之該虛擬目標物影像組在該虛擬背景影像組中的座標位置,使該虛擬目標物在該三維虛擬空間中產生遠近位移變化的視覺效果。The eye training system includes a virtual image display unit and an image change control unit. The virtual image display unit can overlay and display a virtual background image group and a virtual object image group on the electronic vehicle through the virtual reality technology, so that the virtual background image group can be viewed to generate a three-dimensional virtual space. The visual effect makes the virtual target image group available for viewing to construct a visual effect of a virtual target suspended in the three-dimensional virtual space. The image change control unit can be activated to control the virtual object formed by the virtual object image group to switch between a different first size and a second size, and adjust and switch to the first size and the second size at the same time The coordinate position of the virtual object image group in the virtual background image group when the size is determined, so that the virtual object produces a visual effect of changing the distance and near displacement of the virtual object in the three-dimensional virtual space.

因此,本發明的目的,即在提供一種能改善先前技術的至少一個缺點的眼睛訓練系統。Accordingly, it is an object of the present invention to provide an eye training system that ameliorates at least one of the disadvantages of the prior art.

於是,本發明眼睛訓練系統,適用於透過軟體程式及/或電子電路實施建構在一個可用以設置在使用者眼前以顯示影像的電子載具,該眼睛訓練系統包含一個虛擬影像顯示單元,及一個影像變化控制單元。該虛擬影像顯示單元可透過虛擬實境技術將一虛擬背景影像組與一虛擬目標物影像組重疊顯示於該電子載具,使該虛擬背景影像組可供觀看以產生身處一個三維虛擬空間的視覺效果,使該虛擬目標物影像組可供觀看以建構出一個懸浮於該三維虛擬空間的虛擬目標物的視覺效果。該影像變化控制單元可被啟動而控制該虛擬目標物影像組在不同之一第一尺寸與一第二尺寸間切換,並同時調整切換至該第一尺寸與該第二尺寸時之該虛擬目標物影像組在該虛擬背景影像組中的座標位置,使該虛擬目標物在該三維虛擬空間中產生遠近位移變化的視覺效果。Therefore, the eye training system of the present invention is suitable for implementing and constructing an electronic vehicle that can be installed in front of the user to display images through software programs and/or electronic circuits. The eye training system includes a virtual image display unit, and a Image change control unit. The virtual image display unit can overlay and display a virtual background image group and a virtual object image group on the electronic vehicle through the virtual reality technology, so that the virtual background image group can be viewed to generate a three-dimensional virtual space. The visual effect makes the virtual target image group available for viewing to construct a visual effect of a virtual target suspended in the three-dimensional virtual space. The image change control unit can be activated to control the virtual object image group to switch between a different first size and a second size, and adjust the virtual object when switching to the first size and the second size at the same time The coordinate position of the object image group in the virtual background image group causes the virtual object to produce a visual effect of changing the distance and near displacement in the three-dimensional virtual space.

本發明之功效在於:透過該眼睛訓練設備可供配戴在該使用者頭部的設計,以及透過該眼睛訓練系統以虛擬實境技術於使用者觀看建構出之該三維虛擬空間中前後位移該虛擬目標物的設計,使得該使用者眼睛可對前後位移之該虛擬目標物進行追焦運動,而進行的眼睛周圍肌肉的調節訓練,是一種相當方便實用的創新設計。The effects of the present invention are: through the eye training device can be worn on the user's head, and through the eye training system through the virtual reality technology, the user can watch the constructed three-dimensional virtual space to move the front and rear The design of the virtual target enables the user's eyes to follow the focus movement on the virtual target displaced back and forth, and the adjustment training of the muscles around the eyes is a very convenient and practical innovative design.

參閱圖1、2、3,本發明眼睛訓練設備200的一個實施例,適用於供配戴在一位使用者900頭部,而可用以協助該使用者900進行眼睛周圍內肌調節訓練。該眼睛訓練設備200包含一個頭戴式裝置3,及一個透過軟體程式及/或電子電路實施建構在該頭戴式裝置3的眼睛訓練系統4。1, 2, and 3, an embodiment of the eye training device 200 of the present invention is suitable for being worn on the head of a user 900, and can be used to assist the user 900 in performing adjustment training of the inner muscles around the eyes. The eye training apparatus 200 includes a head-mounted device 3 , and an eye training system 4 implemented on the head-mounted device 3 through software programs and/or electronic circuits.

該頭戴式裝置3包括一個用以配戴在該使用者900頭部的配戴單元31,及一個安裝在該配戴單元31的電子載具32。該電子載具32具有一個用以朝該使用者900眼睛方向顯示影像的觸控式的螢幕321,及一個可用以感測移動而對應產生一移動訊號的動態感測器322。在本實施例中,該動態感測器322為三軸加速度器,但實施時不以此為限。The head-mounted device 3 includes a wearing unit 31 for wearing on the head of the user 900 , and an electronic vehicle 32 mounted on the wearing unit 31 . The electronic vehicle 32 has a touch-sensitive screen 321 for displaying images toward the eyes of the user 900 , and a motion sensor 322 for sensing movement and correspondingly generating a movement signal. In this embodiment, the dynamic sensor 322 is a three-axis accelerometer, but the implementation is not limited to this.

在本實施例中,該電子載具32是設計成可拆離地安裝在該配戴單元31之類型,該電子載具32例如但不限於手機、平板電腦等具有螢幕321的電子裝置。該配戴單元31具有一個操作鍵311,當該操作鍵311被按壓操作時,該配戴單元31會觸動該電子載具31之該螢幕321,進而可觸發該電子載具31或該眼睛訓練系統4執行或啟動特定功能。由於該配戴單元31之該操作鍵311可***作以觸動該電子載具32之該螢幕321的結構設計為現有技術,且非本發明改重點,因此不再詳述。In this embodiment, the electronic carrier 32 is designed to be detachably mounted on the wearing unit 31 . The electronic carrier 32 is, for example, but not limited to, an electronic device having a screen 321 such as a mobile phone and a tablet computer. The wearing unit 31 has an operation key 311. When the operation key 311 is pressed, the wearing unit 31 will touch the screen 321 of the electronic vehicle 31, thereby triggering the electronic vehicle 31 or the eye training. The system 4 performs or initiates certain functions. Since the operation key 311 of the wearing unit 31 can be operated to touch the screen 321 of the electronic carrier 32, the structure is designed in the prior art, and is not the focus of the present invention, so it will not be described in detail.

實施時,在本發明之其它實施態樣中,該電子載具32可設計成與該配戴單元31直接整合在一起之類型,而可透過該操作鍵311直接控制該電子載具32的作動。During implementation, in other embodiments of the present invention, the electronic vehicle 32 can be designed to be directly integrated with the wearing unit 31 , and the operation of the electronic vehicle 32 can be directly controlled through the operation key 311 .

參閱圖3、4、5,該眼睛訓練系統4包括一個虛擬影像顯示單元6、一個影像變化控制單元7,及一個移動分析單元8。此外,該眼睛訓練系統4儲存有可供透過虛擬實境(virtual reality,VR)技術進行顯示的一個虛擬背景影像組51、一個虛擬目標物影像組52、多個模式選項影像組53、多個參數選項影像組54、一個游標影像組55、一個設定影像組56、一個啟動影像組57。所述影像組51~57都具有兩個用以左右排列顯示在該電子載具32之該螢幕321,並用以供使用者900雙眼觀看以產生三維視覺效果的影像,為方便區別,將該等影像組51~57之該等影像區分為影像511、影像521、影像531、影像541、影像551、影像561與影像571。由於可供透過VR技術進行顯示的影像組的影像結構類型眾多,且非本發明改良重點,因此不再詳述。3 , 4 and 5 , the eye training system 4 includes a virtual image display unit 6 , an image change control unit 7 , and a movement analysis unit 8 . In addition, the eye training system 4 stores a virtual background image group 51, a virtual object image group 52, a plurality of mode option image groups 53, a plurality of A parameter option image group 54 , a cursor image group 55 , a setting image group 56 , and a startup image group 57 . The image groups 51-57 all have two images that are arranged left and right on the screen 321 of the electronic carrier 32, and are used for the user 900 to watch the images with the three-dimensional visual effect. The images of the image groups 51 to 57 are divided into an image 511 , an image 521 , an image 531 , an image 541 , an image 551 , an image 561 and an image 571 . Since there are many types of image structures of the image group that can be displayed by the VR technology, which are not the focus of the improvement of the present invention, they will not be described in detail.

該虛擬影像顯示單元6可透過虛擬實境(VR)技術將該虛擬背景影像組51顯示在該電子載具32之該螢幕321,使該虛擬背景影像組51可供使用者900觀看以建構出一個三維虛擬空間901的視覺效果,如圖6所示。The virtual image display unit 6 can display the virtual background image group 51 on the screen 321 of the electronic vehicle 32 through virtual reality (VR) technology, so that the virtual background image group 51 can be viewed by the user 900 to construct a A visual effect of a three-dimensional virtual space 901 is shown in FIG. 6 .

該虛擬影像顯示單元6還可透過虛擬實境(VR)技術,將該虛擬目標物影像組52、該等模式選項影像組53、該等參數選項影像組54、該游標影像組55、該設定影像組56與該啟動影像組57重疊顯示在該電子載具32當前顯示之該虛擬背景影像組51中,使該虛擬目標物影像組52可供使用者900觀看以建構出一個懸浮於該三維虛擬空間901中的虛擬目標物902的視覺效果,如圖6所示,以及使該等模式選項影像組53、該等參數選項影像組54、該游標影像組55、該設定影像組56與該啟動影像組57可供觀看,以分別建構出懸浮於該三維虛擬空間901中的多個虛擬模式選項903、多個虛擬參數選項904、一個虛擬游標905、一個虛擬設定鈕906與一個虛擬啟動鈕907,如圖7所示。The virtual image display unit 6 can also use the virtual reality (VR) technology to display the virtual object image group 52 , the mode option image group 53 , the parameter option image group 54 , the cursor image group 55 , the setting The image group 56 and the start-up image group 57 are overlapped and displayed in the virtual background image group 51 currently displayed on the electronic vehicle 32, so that the virtual object image group 52 can be viewed by the user 900 to construct a floating image in the three-dimensional The visual effect of the virtual object 902 in the virtual space 901 is shown in FIG. 6, and the mode option image group 53, the parameter option image group 54, the cursor image group 55, the setting image group 56 and the The activation image group 57 is available for viewing to respectively construct a plurality of virtual mode options 903, a plurality of virtual parameter options 904, a virtual cursor 905, a virtual setting button 906 and a virtual activation button suspended in the three-dimensional virtual space 901 907, as shown in Figure 7.

該等虛擬模式選項903與該等虛擬參數選項904分別標示有數字「1」、「2」、「3」以方便使用者900區別,但實施時不以此為限。由於透過虛擬實境(VR)技術進行該等影像組之顯示為現有技術,且非為本發明改良重點,因此不再詳述。The virtual mode options 903 and the virtual parameter options 904 are respectively marked with numbers "1", "2", and "3" for the convenience of the user 900 to distinguish, but the implementation is not limited thereto. Since the display of these image groups through the virtual reality (VR) technology is the prior art and is not the focus of the improvement of the present invention, it will not be described in detail.

參閱圖3、5、7,該移動分析單元8可分析該電子載具32之該動態感測器322產生之該移動訊號,而判斷出該電子載具32被移動方向與移動幅度,並對應控制該虛擬游標905在該三維虛擬空間901中相對該等虛擬模式選項903、該等虛擬參數選項904、該虛擬設定鈕906與該虛擬啟動鈕907移動。Referring to FIGS. 3 , 5 and 7 , the movement analysis unit 8 can analyze the movement signal generated by the dynamic sensor 322 of the electronic vehicle 32 to determine the moving direction and the movement amplitude of the electronic vehicle 32 , and correspondingly The virtual cursor 905 is controlled to move relative to the virtual mode options 903 , the virtual parameter options 904 , the virtual setting button 906 and the virtual activation button 907 in the three-dimensional virtual space 901 .

該影像變化控制單元7內建有可供選擇啟動的一個手動切換模式71、一個自動瞬變模式72與一個自動漸變模式73,以及多個可供選擇啟用的參數設定74。The image change control unit 7 is built with a manual switching mode 71 , an automatic transient mode 72 and an automatic gradation mode 73 that can be selectively activated, and a plurality of parameter settings 74 that can be selectively activated.

每一參數設定74內建有一個初始尺寸參數、一個座標參數與一個距離參數。該初始尺寸參數為該虛擬目標物902以該第一尺寸或該第二尺寸顯示時的影像尺寸,在本實施例中,是指以該第一尺寸顯示時之影像尺寸為例進行說明。該座標參數代表該虛擬目標物902在該第一尺寸與該第二尺寸時,在該三維虛擬空間901中產生的座標位置變化,也就是,該虛擬目標物影像組52以該第一尺寸與該第二尺寸重疊顯示於該虛擬背景影像組51時的座標位置變化。該距離參數代表所建構出之該虛擬目標物902以該第一尺寸與該第二尺寸在該三維虛擬空間901中顯示時,兩者座標位置與尺寸變化所要產生的視覺距離差,例如5公尺或10公尺的視覺距離差。Each parameter setting 74 has a built-in initial size parameter, a coordinate parameter and a distance parameter. The initial size parameter is the image size when the virtual object 902 is displayed at the first size or the second size. In this embodiment, the image size when the virtual object 902 is displayed at the first size is used as an example for description. The coordinate parameter represents the coordinate position change of the virtual object 902 in the three-dimensional virtual space 901 when the virtual object 902 is in the first size and the second size. That is, the virtual object image group 52 is in the first size and the second size. The coordinate position changes when the second size is overlapped and displayed on the virtual background image group 51 . The distance parameter represents the visual distance difference to be generated by the coordinate position and size change of the constructed virtual object 902 when the first size and the second size are displayed in the three-dimensional virtual space 901 , for example, 5 km The visual distance difference of feet or 10 meters.

該影像變化控制單元7會於其中一個參數設定74被選擇啟用,且***作啟用該等模式71~73其中之一時,根據被選擇啟用之模式與該參數設定74預設的參數,對應控制當前顯示於該電子載具32之該虛擬目標物影像組52產生變化,以使被觀看構成的該虛擬目標物902在該三維虛擬空間901產生遠近位移時的尺寸變化視覺效果,如圖6、9所示。When one of the parameter settings 74 is selected to be activated, and one of the modes 71 to 73 is activated, the image change control unit 7 controls the current mode according to the mode selected to be activated and the preset parameters of the parameter setting 74. The virtual object image group 52 displayed on the electronic vehicle 32 is changed, so that the visual effect of the size change of the virtual object 902 formed by viewing in the three-dimensional virtual space 901 when the distance is displaced, as shown in FIGS. 6 and 9 shown.

該影像變化控制單元7於控制該虛擬目標物影像組52之影像切換時,會先根據該初始尺寸參數所對應的影像尺寸,控制所顯示之該虛擬目標物影像組52的該第一尺寸的影像尺寸,也就是控制該使用者900在該三維虛擬空間901中初始觀看建構出之該虛擬目標物902的該第一尺寸的影像尺寸。然後,根據該距離參數代表之視覺距離差以一預定之縮放比例計算得到該虛擬目標物影像組52於該第二尺寸時的影像尺寸,以及根據該座標參數調整該虛擬目標物影像組52以該第一尺寸與該第二尺寸重疊顯示於該虛擬背景影像組51時的座標位置。進而使構成之該虛擬目標物902可於該三維虛擬空間901中產生前後位移該距離參數對應之該視覺距離差的視覺效果。When controlling the image switching of the virtual object image group 52, the image change control unit 7 firstly controls the displayed image size of the virtual object image group 52 according to the image size corresponding to the initial size parameter. The image size is to control the image size of the first size of the virtual object 902 constructed by the user 900 initially viewing the constructed virtual object 902 in the three-dimensional virtual space 901 . Then, according to the visual distance difference represented by the distance parameter, the image size of the virtual target image group 52 at the second size is calculated at a predetermined scaling ratio, and the virtual target image group 52 is adjusted according to the coordinate parameter to The coordinate position when the first size and the second size are overlapped and displayed on the virtual background image group 51 . Then, the formed virtual object 902 can generate a visual effect in the three-dimensional virtual space 901 that the visual distance difference corresponding to the distance parameter is displaced back and forth.

此外,該影像變化控制單元7會持續驅使該虛擬影像顯示單元6在該電子載具32顯示出該游標影像組55與該設定影像組56,藉以供觀看建構出該虛擬游標905與該虛擬設定鈕906,如圖6所示。該影像變化控制單元7會於該虛擬游標905與該虛擬設定鈕906重疊,且該操作鍵311***作而觸動該電子載具32之螢幕321時,驅使該虛擬影像顯示單元6於該在電子載具32同時顯示出該等模式選項影像組53、該等參數選項影像組54與該啟動影像組57,藉以供觀看而分別建構出該等虛擬模式選項903、該等虛擬參數選項904與該虛擬啟動鈕907,如圖7所示。其中,該等虛擬模式選項903是分別對應該手動切換模式71、該自動瞬變模式72與該自動漸變模式73,該等虛擬參數選項904是分別對應該等參數設定74。In addition, the image change control unit 7 will continuously drive the virtual image display unit 6 to display the cursor image group 55 and the setting image group 56 on the electronic carrier 32, so as to construct the virtual cursor 905 and the virtual setting for viewing button 906, as shown in FIG. 6 . When the virtual cursor 905 and the virtual setting button 906 are overlapped, and the operation key 311 is operated to touch the screen 321 of the electronic vehicle 32, the image change control unit 7 drives the virtual image display unit 6 on the electronic vehicle 32. The vehicle 32 simultaneously displays the mode option image group 53 , the parameter option image group 54 and the startup image group 57 for viewing to construct the virtual mode options 903 , the virtual parameter options 904 and the Virtual activation button 907, as shown in FIG. 7 . The virtual mode options 903 respectively correspond to the manual switching mode 71 , the automatic transient mode 72 and the automatic gradient mode 73 , and the virtual parameter options 904 respectively correspond to the other parameter settings 74 .

該影像變化控制單元7會於該虛擬游標905與其中一個虛擬模式選項903重疊,且該操作鍵311(示於圖1)***作而觸動該電子載具32之該螢幕321時,啟用該其中一虛擬模式選項903對應之該手動切換模式71、該自動瞬變模式72或該自動漸變模式73。該影像變化控制單元7會於該虛擬游標905與其中一個虛擬參數選項904重疊,且該操作鍵311***作而觸動該電子載具32之該螢幕321時,啟用該虛擬參數選項904對應之該參數設定74。The image change control unit 7 will enable the virtual cursor 905 when the virtual cursor 905 overlaps with one of the virtual mode options 903 and the operation key 311 (shown in FIG. 1 ) is operated to touch the screen 321 of the electronic vehicle 32 . A virtual mode option 903 corresponds to the manual switching mode 71 , the automatic transient mode 72 or the automatic gradient mode 73 . When the virtual cursor 905 overlaps with one of the virtual parameter options 904, and the operation key 311 is operated to touch the screen 321 of the electronic vehicle 32, the image change control unit 7 enables the corresponding virtual parameter option 904. Parameter setting 74.

該影像變化控制單元7會於該虛擬游標905與虛擬啟動鈕907重疊,且該配戴單元31之該操作鍵311***作時,根據被選擇啟用之該虛擬參數選項904所對應之參數設定,執行被選擇啟用之該手動切換模式71、該自動瞬變模式72或該自動漸變模式73,藉以控制當前顯示於該電子載具32之該虛擬目標物影像組52的變化。When the virtual cursor 905 and the virtual activation button 907 are overlapped by the image change control unit 7, and the operation key 311 of the wearing unit 31 is operated, according to the parameter setting corresponding to the selected virtual parameter option 904, The selected manual switching mode 71 , the automatic transient mode 72 or the automatic gradient mode 73 is executed to control the change of the virtual target image group 52 currently displayed on the electronic vehicle 32 .

參閱圖2、3、4、5,本發明眼睛訓練設備200供該使用者900配戴以進行眼睛訓練時,可使該眼睛訓練系統4將該虛擬背景影像組51、該虛擬目標物影像組52、該游標影像組55與該設定影像組56顯示於該電子載具32之螢幕321,藉以使該使用者900觀看產生身處該三維虛擬空間901,且該三維虛擬空間901中存在有該虛擬目標物902、該虛擬游標905與該虛擬設定鈕906的視覺效果,如圖6所示。2 , 3 , 4 and 5 , when the eye training device 200 of the present invention is worn by the user 900 for eye training, the eye training system 4 can make the virtual background image group 51 and the virtual object image group 52. The cursor image group 55 and the setting image group 56 are displayed on the screen 321 of the electronic vehicle 32 , so that the user 900 is in the three-dimensional virtual space 901 when viewed, and the three-dimensional virtual space 901 has the The visual effects of the virtual object 902 , the virtual cursor 905 and the virtual setting button 906 are shown in FIG. 6 .

使用者900可擺動頭部以帶動該頭戴式裝置3擺移,該電子載具32之該動態感測器322會感測位移以產生該位移訊號,該移動分析單元8會分析該移動訊號以對應控制該虛擬游標905相對該虛擬設定鈕906位移。當透過該虛擬游標905與該操作鍵311相配合點選該虛擬設定鈕906時,該眼睛訓練系統4會於該電子載具32顯示出該等模式選項影像組53與該等參數選項影像組54,藉以供使用者900觀看而於該三維虛擬空間901中分別建構出該等虛擬模式選項903與該等虛擬參數選項904,如圖7所示。The user 900 can swing his head to drive the head-mounted device 3 to swing, the dynamic sensor 322 of the electronic vehicle 32 will sense the displacement to generate the displacement signal, and the movement analysis unit 8 will analyze the movement signal The virtual cursor 905 is controlled to move relative to the virtual setting button 906 accordingly. When the virtual setting button 906 is clicked through the virtual cursor 905 in cooperation with the operation key 311 , the eye training system 4 will display the mode option image group 53 and the parameter option image group on the electronic vehicle 32 54 , the virtual mode options 903 and the virtual parameter options 904 are respectively constructed in the three-dimensional virtual space 901 for viewing by the user 900 , as shown in FIG. 7 .

如圖2、3、5、7所示,接著,使用者可透過該虛擬游標905與該操作鍵311相配合點選啟用所需的該虛擬參數選項904與該虛擬模式選項903。最後,透過該虛擬游標905與該操作鍵311相配合點選該虛擬啟動鈕907,該影像變化控制單元7就會開始控制該虛擬目標物影像組52之變化。As shown in Figures 2, 3, 5, and 7, the user can then click and activate the desired virtual parameter option 904 and the virtual mode option 903 through the virtual cursor 905 in cooperation with the operation key 311. Finally, click the virtual start button 907 through the virtual cursor 905 in cooperation with the operation key 311 , and the image change control unit 7 will start to control the change of the virtual object image group 52 .

該影像變化控制單元7於啟動該手動切換模式71時,會於該配戴單元31之該操作鍵311每次***作時,根據當前被啟用之該參數設定74控制該虛擬目標物影像組52在該第一尺寸與該第二尺寸切換顯示一次,並同時在對應之該等座標位置切位移變化一次,也就是從該第一尺寸變化成該第二尺寸,或從該第二尺寸變化成該第一尺寸,讓該使用者900觀看產生該虛擬目標物902前後位移時之影像尺寸與位置變化效果,如圖6、9所示。When the manual switching mode 71 is activated, the image change control unit 7 controls the virtual object image group 52 according to the currently activated parameter setting 74 every time the operation key 311 of the wearing unit 31 is operated. The first size and the second size are switched and displayed once, and at the same time, the corresponding coordinate positions are changed once, that is, from the first size to the second size, or from the second size to The first size allows the user 900 to view the image size and position change effect when the virtual object 902 is displaced back and forth, as shown in FIGS. 6 and 9 .

該影像變化控制單元7於啟動該自動瞬變模式72時,會每間隔一預定時間,例如但不限於間隔5秒、10秒或30秒,自動根據被啟用之該參數設定74,對應控制該虛擬目標物影像組52在該第一尺寸與該第二尺寸切換顯示一次,並同時在對應之該等座標位置切位移變化一次,使該使用者900觀看建構出之該虛擬目標物902在該三維虛擬空間901中的影像尺寸與座標位置的變化,可產生前後位移該距離參數對應之該視覺距離差的視覺效果,如圖6、9所示。When the automatic transient mode 72 is activated, the image change control unit 7 will automatically control the setting 74 according to the enabled parameter setting 74 at predetermined intervals, such as but not limited to intervals of 5 seconds, 10 seconds or 30 seconds. The virtual object image group 52 is switched and displayed once in the first size and the second size, and at the same time, the corresponding coordinate positions are shifted and changed once, so that the user 900 can view the constructed virtual object 902 in the Changes in the image size and coordinate position in the three-dimensional virtual space 901 can produce a visual effect of shifting the distance parameter back and forth corresponding to the visual distance difference, as shown in FIGS. 6 and 9 .

該影像變化控制單元7於啟動該自動漸變模式73時,會每間隔一預定時間,例如但不限於間隔5秒、10秒或30秒,自動根據被啟用之該參數選項,以一預定之尺寸變化比例與變化期間,控制該虛擬目標物影像組52從該第一尺寸逐漸變化至該第二尺寸,或從該第二尺寸逐漸變化至該第一尺寸,同時根據該座標參數以一預定之位移變化比例,調整該虛擬目標物影像組52在該第一尺寸與該第二尺寸間逐漸變化時的座標位置,藉以讓使用者900觀看建構出之該虛擬目標物902在該三維虛擬空間901中產生逐漸往前或往後位移該距離參數對應之該視覺距離差的視覺效果,如圖6、9所示。When the image change control unit 7 activates the automatic gradation mode 73, it will automatically select a predetermined size according to the enabled parameter option at intervals of a predetermined time, such as but not limited to 5 seconds, 10 seconds or 30 seconds. The change ratio and change period are controlled to gradually change the virtual target image group 52 from the first size to the second size, or from the second size to the first size, and at the same time according to the coordinate parameter with a predetermined value. The displacement change ratio adjusts the coordinate position of the virtual object image group 52 when the virtual object image group 52 gradually changes between the first size and the second size, so as to allow the user 900 to view the constructed virtual object 902 in the three-dimensional virtual space 901 The visual effect of gradually shifting the visual distance difference corresponding to the distance parameter forward or backward is generated in the middle, as shown in Figures 6 and 9.

如圖1、3、10所示,實施時,在本發明之另一實施態樣中,可使該影像變化控制單元7於切換啟動該手動切換模式71時,驅使該虛擬影像顯示單元6同時於該電子載具32顯示出一個用以供使用者900觀看,而在該三維虛擬空間901中建構出一個虛擬切換鈕908的切換鈕影像組(圖未示),並同時顯示出該游標影像組55。然後,使該影像變化控制單元7於控制該虛擬游標905位移重疊於該虛擬切換鈕908,且該配戴單元31之該操作鍵311每次***作時,控制該使用者900觀看建構出之該虛擬目標物902在該第一尺寸與該第二尺寸切換一次,並同時在對應之該等座標位置切位移變化一次。As shown in FIGS. 1 , 3 and 10 , during implementation, in another embodiment of the present invention, the image change control unit 7 can drive the virtual image display unit 6 to simultaneously activate the manual switching mode 71 when switching. A switch button image group (not shown) of a virtual switch button 908 is constructed in the three-dimensional virtual space 901 for viewing by the user 900 on the electronic vehicle 32, and the cursor image is displayed at the same time Group 55. Then, the image change control unit 7 controls the virtual cursor 905 to displace and overlap the virtual switch button 908, and each time the operation key 311 of the wearing unit 31 is operated, the user 900 is controlled to view the constructed image The virtual object 902 is switched once between the first size and the second size, and at the same time, the tangential displacement of the corresponding coordinate positions changes once.

綜上所述,透過該眼睛訓練設備200可以該頭戴式裝置3供配戴在該使用者900頭部的設計,以及透過該眼睛訓練系統4以虛擬實境技術控制該頭戴式裝置3顯示該虛擬背景影像組51與該虛擬目標物影像組52,而於使用者900觀看建構出之該三維虛擬空間901中前後位移該虛擬目標物902,並對應調整該虛擬目標物902之影像尺寸變化設計,可用以對該使用者900模擬產生一物品在三維空間中前後位移的視覺效果,使得該使用者900眼睛可對前後位移之該虛擬目標物902進行追焦運動,而進行的眼內肌調節訓練或眼外肌輻輳訓練。在此訓練過程中,使用者900不需再以手扶助設備,可大幅提高幼童使用者900的使用意願,是一種相當方便實用的創新設計。因此,確實能達成本發明的目的。To sum up, through the eye training apparatus 200, the head-mounted device 3 can be designed to be worn on the head of the user 900, and the eye-training system 4 can be used to control the head-mounted device 3 with virtual reality technology The virtual background image group 51 and the virtual object image group 52 are displayed, and the virtual object 902 is displaced back and forth in the three-dimensional virtual space 901 constructed by the user 900 , and the image size of the virtual object 902 is adjusted accordingly The variation design can be used to simulate the visual effect of an object moving back and forth in three-dimensional space to the user 900, so that the user 900's eyes can perform a focus movement on the virtual target 902 displaced back and forth, and the intraocular Muscle conditioning training or extraocular convergence training. During this training process, the user 900 does not need to support the device by hand, which can greatly improve the willingness of the young user 900 to use, which is a very convenient and practical innovative design. Therefore, the object of the present invention can surely be achieved.

惟以上所述者,僅為本發明的實施例而已,當不能以此限定本發明實施的範圍,凡是依本發明申請專利範圍及專利說明書內容所作的簡單的等效變化與修飾,皆仍屬本發明專利涵蓋的範圍內。However, the above are only examples of the present invention, and should not limit the scope of implementation of the present invention. Any simple equivalent changes and modifications made according to the scope of the patent application of the present invention and the contents of the patent specification are still included in the scope of the present invention. within the scope of the invention patent.

200:眼睛訓練設備 3:頭戴式裝置 31:配戴單元 311:操作鍵 32:電子載具 321:螢幕 322:動態感測器 4:眼睛訓練系統 51:虛擬背景影像組 511:影像 52:虛擬目標物影像組 521:影像 53:模式選項影像組 531:影像 54:參數選項影像組 541:影像 55:游標影像組 551:影像 56:設定影像組 561:影像 57:啟動影像組 571:影像 6:虛擬影像顯示單元 7:影像變化控制單元 71:手動切換模式 72:自動瞬變模式 73:自動漸變模式 74:參數設定 8:移動分析單元 900:使用者 901:三維虛擬空間 902:虛擬目標物 903:虛擬模式選項 904:虛擬參數選項 905:虛擬游標 906:虛擬設定鈕 907:虛擬啟動鈕 908:虛擬切換鈕 200: Eye training equipment 3: Head mounted device 31: Wearing unit 311: Operation keys 32: Electronic Vehicles 321: Screen 322: Motion Sensor 4: Eye training system 51: Virtual Background Image Group 511: Video 52: Virtual target image group 521: Image 53: Mode Options Image Group 531: Video 54: Parameter option image group 541: Video 55: Cursor Image Group 551: Video 56: Setting the image group 561: Video 57: Start image group 571: Video 6: Virtual image display unit 7: Image change control unit 71: Manual switch mode 72: Auto Transient Mode 73: Auto Gradient Mode 74: Parameter setting 8: Mobile Analysis Unit 900:User 901: 3D Virtual Space 902: Virtual Target 903: Virtual Mode Options 904: Dummy parameter options 905: virtual cursor 906: Virtual setting button 907: Virtual start button 908: Virtual toggle button

本發明的其他的特徵及功效,將於參照圖式的實施方式中清楚地呈現,其中: 圖1是本發明眼睛訓練設備的一個實施例的立體分解圖; 圖2是該實施例供配戴在一使用者頭部時的側視示意圖; 圖3是該實施例的功能方塊圖; 圖4是一個示意圖,示意說明該實施例的一個電子載具的螢幕顯示一個虛擬背景影像組與一個虛擬目標物影像組時的情況; 圖5是一個示意圖,示意說明該電子載具之螢幕顯示一個虛擬背景影像組、多個模式選項影像組、多個參數選項影像組、一個游標影像組、一個設定影像組與一個啟動影像組時的情況; 圖6是一個示意圖,示意說明使用者看到之一個三維虛擬空間與一個虛擬目標物的情況; 圖7是一個示意圖,示意說明使用者看到之一個三維虛擬空間、多個虛擬模式選項、多個虛擬參數選項、一個虛擬游標、一個虛擬設定鈕與一個虛擬啟動鈕的情況; 圖8是類似圖4之視圖,說明該虛擬目標物影像組切換至一個第二尺寸時的情況; 圖9是類似圖6之視圖,示意說明使用者看到之該三維虛擬空間與切換至該第二尺寸之該虛擬目標物的情況;及 圖10是類似圖6之視圖。 Other features and effects of the present invention will be clearly presented in the embodiments with reference to the drawings, wherein: 1 is an exploded perspective view of one embodiment of an eye training device of the present invention; Figure 2 is a schematic side view of the embodiment when it is worn on a user's head; Fig. 3 is the functional block diagram of this embodiment; 4 is a schematic diagram schematically illustrating a situation in which a screen of an electronic carrier according to this embodiment displays a virtual background image group and a virtual object image group; FIG. 5 is a schematic diagram illustrating when the screen of the electronic vehicle displays a virtual background image group, a plurality of mode option image groups, a plurality of parameter option image groups, a cursor image group, a setting image group and a startup image group Case; FIG. 6 is a schematic diagram illustrating a situation in which a user sees a three-dimensional virtual space and a virtual object; 7 is a schematic diagram illustrating a situation in which a user sees a three-dimensional virtual space, a plurality of virtual mode options, a plurality of virtual parameter options, a virtual cursor, a virtual setting button and a virtual activation button; FIG. 8 is a view similar to FIG. 4, illustrating the situation when the virtual object image group is switched to a second size; FIG. 9 is a view similar to FIG. 6 , schematically illustrating the situation of the three-dimensional virtual space as seen by the user and the situation of switching to the virtual object of the second size; and FIG. 10 is a view similar to that of FIG. 6 .

200:眼睛訓練設備 200: Eye training equipment

3:頭戴式裝置 3: Head mounted device

32:電子載具 32: Electronic Vehicles

321:螢幕 321: Screen

322:動態感測器 322: Motion Sensor

4:眼睛訓練系統 4: Eye training system

6:虛擬影像顯示單元 6: Virtual image display unit

7:影像變化控制單元 7: Image change control unit

71:手動切換模式 71: Manual switch mode

72:自動瞬變模式 72: Auto Transient Mode

73:自動漸變模式 73: Auto Gradient Mode

74:參數設定 74: Parameter setting

8:移動分析單元 8: Mobile Analysis Unit

Claims (12)

一種眼睛訓練系統,適用於透過軟體程式及/或電子電路實施建構在一個可用以設置在使用者眼前以顯示影像的電子載具,該眼睛訓練系統包含:一個虛擬影像顯示單元,可透過虛擬實境技術將一虛擬背景影像組與一虛擬目標物影像組重疊顯示於該電子載具,使該虛擬背景影像組可供觀看以產生身處一個三維虛擬空間的視覺效果,使該虛擬目標物影像組可供觀看以建構出一個懸浮於該三維虛擬空間的虛擬目標物的視覺效果;及一個影像變化控制單元,內建有可供選擇啟動的一個自動瞬變模式與一個自動漸變模式,該影像變化控制單會於該自動瞬變模式被啟動時,每間隔一預定時間就控制該虛擬目標物影像組構成之該虛擬目標物在該第一尺寸與該第二尺寸間切換一次,並同時調整該虛擬目標物影像組在該虛擬背景影像組中的座標位置,使該虛擬目標物在該三維虛擬空間中產生遠近位移變化的視覺效果,該影像變化控制單會於該自動漸變模式被啟動時,每間隔一預定時間就控制該虛擬目標物影像組構成之該虛擬目標物從該第一尺寸與該第二尺寸其中之一,以一預定尺寸變化比例往該第一尺寸與該第二尺寸其中另一逐漸放大或縮小變化,並同時以一預定之位移變化比例,調整該虛擬目標物影像組在該第一尺寸與該第二尺寸間逐漸變化時的座標位置,使該虛擬目標物在該三維 虛擬空間中產生逐漸遠近位移變化的視覺效果。 An eye training system, suitable for implementing and constructing an electronic vehicle that can be set in front of a user to display images through software programs and/or electronic circuits, the eye training system comprises: a virtual image display unit that can display images through a virtual reality The environment technology superimposes a virtual background image group and a virtual object image group to display on the electronic vehicle, so that the virtual background image group can be viewed to generate a visual effect of being in a three-dimensional virtual space, so that the virtual object image A set of visual effects for constructing a virtual object suspended in the three-dimensional virtual space; and an image change control unit with built-in an automatic transient mode and an automatic gradient mode that can be selectively activated. When the automatic transient mode is activated, the change control unit controls the virtual object formed by the virtual object image group to switch between the first size and the second size at a predetermined time interval, and adjusts at the same time The coordinate position of the virtual target image group in the virtual background image group causes the virtual target to produce a visual effect of distance and near displacement change in the three-dimensional virtual space. The image change control unit will be activated when the automatic gradient mode is activated. , controlling the virtual object formed by the virtual object image group to change from one of the first size and the second size to the first size and the second size at a predetermined size change ratio every predetermined time interval The other one is gradually enlarged or reduced, and at the same time, with a predetermined displacement change ratio, the coordinate position of the virtual target image group when the first size and the second size are gradually changed is adjusted, so that the virtual target is in the The three-dimensional In the virtual space, a visual effect of gradual distance and near displacement changes is generated. 如請求項1所述的眼睛訓練系統,其中,該影像變化控制單元還內建有一個可供選擇啟動的手動切換模式,該影像變化控制單元於該手動切換模式被啟動時,會於該電子載具每次***作時被觸發,而控制該虛擬目標物影像組構成之該虛擬目標物在該第一尺寸與該第二尺寸間切換一次,並同時調整該虛擬目標物影像組在該虛擬背景影像組中的座標位置。 The eye training system according to claim 1, wherein the image change control unit further has a built-in manual switching mode that can be selectively activated, and when the manual switching mode is activated, the image change control unit will Each time the vehicle is operated, it is triggered, and the virtual object formed by the virtual object image group is controlled to switch between the first size and the second size once, and at the same time, the virtual object image group is adjusted in the virtual object image group. The coordinate position in the background image group. 如請求項1所述的眼睛訓練系統,該電子載具具有一個可感測移動而產生位移訊號的動態感測器,其中,該影像變化控制單元還內建有一個可供選擇啟動的手動切換模式,該影像變化控制單元於該手動切換模式被啟動時,會透過虛擬實境技術在該虛擬背景影像組重疊顯示一個游標影像組與一個切換鈕影像組,使該游標影像組與該切換鈕影像組可被觀看分別建構出位在該三維虛擬空間中的一個虛擬游標與一個虛擬切換鈕,該眼睛訓練系統還包含一個移動分析單元,該移動分析單元可分析該位移訊號以控制該虛擬游標於該三維虛擬空間中相對該虛擬切換鈕位移,該影像變化控制單元會於該虛擬游標和該虛擬切換鈕重疊,且該電子載具***作時被觸發,控制該虛擬目標物影像組構成之該虛擬目標物在該第一尺寸與該第二尺寸間切換一次,並同時調整該虛擬目標物影像組在該虛擬背景影像組中的座標位置。 The eye training system as claimed in claim 1, wherein the electronic vehicle has a dynamic sensor capable of sensing movement to generate displacement signals, wherein the image change control unit also has a built-in manual switch that can be selectively activated When the manual switching mode is activated, the image change control unit will display a cursor image group and a switch button image group on the virtual background image group through virtual reality technology, so that the cursor image group and the switch button image group are overlapped and displayed. The image group can be viewed to construct a virtual cursor and a virtual switch button in the three-dimensional virtual space respectively. The eye training system further includes a movement analysis unit, which can analyze the displacement signal to control the virtual cursor Displacement relative to the virtual switch button in the three-dimensional virtual space, the image change control unit will be triggered when the virtual cursor and the virtual switch button overlap, and the electronic vehicle is operated to control the image group of the virtual target object. The virtual object switches between the first size and the second size once, and simultaneously adjusts the coordinate position of the virtual object image group in the virtual background image group. 如請求項3所述的眼睛訓練系統,其中,該虛擬影像顯示 單元還可透過虛擬實境技術在該虛擬背景影像組重疊顯示三個模式選項影像組與一游標影像組,使該等模式選項影像組可供觀看以建構出三個分別顯示於該三維虛擬空間中,且分別對應該自動瞬變模式、該自動漸變模式與該手動切換模式的虛擬模式選項,並使該游標影像組可被觀看建構出位在該三維虛擬空間中的一個虛擬游標,該移動分析單元可分析該位移訊號以控制該虛擬游標於該三維虛擬空間中相對該等虛擬模式選項位移,該影像變化控制單元會於該虛擬游標和其中一個虛擬模式選項重疊,且該電子載具***作時被觸發,而啟動該其中一虛擬模式選項對應之該自動瞬變模式、該自動漸變模或該手動切換模式。 The eye training system of claim 3, wherein the virtual image displays The unit can also display three mode selection image groups and a cursor image group in the virtual background image group by means of virtual reality technology, so that these mode selection image groups can be viewed to construct three displayed in the three-dimensional virtual space respectively and corresponding to the virtual mode options of the automatic transient mode, the automatic gradation mode and the manual switching mode respectively, so that the cursor image group can be viewed to construct a virtual cursor located in the three-dimensional virtual space, the moving The analyzing unit can analyze the displacement signal to control the displacement of the virtual cursor relative to the virtual mode options in the three-dimensional virtual space, the image change control unit overlaps the virtual cursor and one of the virtual mode options, and the electronic vehicle is It is triggered during operation to activate the automatic transient mode, the automatic gradient mode or the manual switching mode corresponding to one of the virtual mode options. 如請求項2或3所述的眼睛訓練系統,其中,該影像變化控制單元還內建有多個可被選擇啟用之參數設定,每一參數設定具有一個代表該虛擬目標物影像組於該第一尺寸或該第二尺寸狀態時的影像尺寸的初始尺寸參數、一個代表該虛擬目標物影像組以該第一尺寸與該第二尺寸重疊顯示於該虛擬背景影像組時的座標位置的座標參數,及一個代表該虛擬目標物以該第一尺寸與該第二尺寸在該三維虛擬空間顯示時之兩者間的視覺距離差的距離參數,該影像變化控制單元可***作啟用其中一個參數設定,並於控制該虛擬目標物在該第一尺寸與該第二尺寸間變化時,根據被啟用之該其中一參數設定的該距離參數與該初始尺寸參數,調整該虛擬目標物影像組於 該第一尺寸與該第二尺寸時的影像尺寸,以及根據該座標參數調整該虛擬目標物影像組以該第一尺寸與該第二尺寸重疊顯示於該虛擬背景影像組時的座標位置,以使構成之該虛擬目標物在該第一尺寸與該第二尺寸的切換變化與座標位置變化,會於該三維虛擬空間中產生位移該距離參數對應之該視覺距離差的視覺效果。 The eye training system according to claim 2 or 3, wherein the image change control unit further has a plurality of parameter settings that can be selected and enabled, and each parameter setting has a set of images representing the virtual object in the first A size or an initial size parameter of the image size in the second size state, a coordinate parameter representing the coordinate position of the virtual target image group when the first size and the second size are overlapped and displayed in the virtual background image group , and a distance parameter representing the visual distance difference between the first size and the second size when the virtual object is displayed in the three-dimensional virtual space, the image change control unit can be operated to enable one of the parameter settings , and when controlling the virtual object to change between the first size and the second size, according to the distance parameter and the initial size parameter set by the enabled one of the parameters, the virtual object image group is adjusted in The image size of the first size and the second size, and the coordinate position of the virtual object image group when the first size and the second size are overlapped and displayed in the virtual background image group according to the coordinate parameter, so as to Switching and changing the coordinate position of the virtual object in the first size and the second size will generate a visual effect of shifting the visual distance difference corresponding to the distance parameter in the three-dimensional virtual space. 如請求項5所述的眼睛訓練系統,其中,該虛擬影像顯示單元還可透過虛擬實境技術在該虛擬背景影像組重疊顯示多個參數選項影像組與一游標影像組,使該等參數選項影像組可供觀看以建構出多個分別顯示於該三維虛擬空間中,且分別對應該等參數設定的虛擬參數選項,並使該游標影像組可被觀看建構出一個位在該三維虛擬空間中的虛擬游標,該影像變化控制單元會於該游標影像和其中一個虛擬參數選項重疊,且該電子載具***作時被觸發,而啟用對應之該參數設定。 The eye training system according to claim 5, wherein the virtual image display unit can further display a plurality of parameter option image groups and a cursor image group in the virtual background image group through virtual reality technology, so that the parameter options The image group can be viewed to construct a plurality of virtual parameter options respectively displayed in the three-dimensional virtual space and corresponding to the parameter settings, so that the cursor image group can be viewed to construct a position in the three-dimensional virtual space The virtual cursor, the image change control unit will be triggered when the cursor image and one of the virtual parameter options are overlapped, and the electronic vehicle is operated to activate the corresponding parameter setting. 一種眼睛訓練設備,適用於供配戴設置在一使用者眼前,並包含:一個頭戴式裝置,包括一個用以配戴在該使用者頭部的配戴單元,及一個設置在該配戴單元中且用以朝該使用者眼睛顯示影像的電子載具;及一個眼睛訓練系統,包括,一個虛擬影像顯示單元,可透過虛擬實境技術將一虛擬背景影像組與一虛擬目標物影像組重疊顯示於該電子載具,使該虛擬背景影像組可供觀看以 產生身處一個三維虛擬空間的視覺效果,使該虛擬目標物影像組可供觀看以建構出一個懸浮於該三維虛擬空間的虛擬目標物的視覺效果;及一個影像變化控制單元,內建有可供選擇啟動的一個自動瞬變模式與一個自動漸變模式,該影像變化控制單會於該自動瞬變模式被啟動時,每間隔一預定時間就控制該虛擬目標物影像組構成之該虛擬目標物在該第一尺寸與該第二尺寸間切換一次,並同時調整該虛擬目標物影像組在該虛擬背景影像組中的座標位置,使該虛擬目標物在該三維虛擬空間中產生遠近位移變化的視覺效果,該影像變化控制單會於該自動漸變模式被啟動時,每間隔一預定時間就控制該虛擬目標物影像組構成之該虛擬目標物從該第一尺寸與該第二尺寸其中之一,以一預定尺寸變化比例往該第一尺寸與該第二尺寸其中另一逐漸放大或縮小變化,並同時以一預定之位移變化比例,調整該虛擬目標物影像組在該第一尺寸與該第二尺寸間逐漸變化時的座標位置,使該虛擬目標物在該三維虛擬空間中產生逐漸遠近位移變化的視覺效果。 An eye training device, suitable for wearing and setting in front of a user, and comprising: a head-mounted device, including a wearing unit for wearing on the user's head, and a wearing unit arranged on the wearer's head. an electronic vehicle in the unit for displaying images to the user's eyes; and an eye training system, including a virtual image display unit capable of displaying a virtual background image group and a virtual object image group through virtual reality technology Overlaid on the electronic vehicle so that the virtual background image group can be viewed for Generate a visual effect of being in a three-dimensional virtual space, so that the virtual object image group can be viewed to construct a visual effect of a virtual object suspended in the three-dimensional virtual space; and an image change control unit with a built-in variable An automatic transient mode and an automatic gradient mode for selection to be activated, the image change control unit will control the virtual target formed by the virtual target image group at a predetermined time interval when the automatic transient mode is activated Switch between the first size and the second size once, and adjust the coordinate position of the virtual object image group in the virtual background image group at the same time, so that the virtual object has a far-near displacement change in the three-dimensional virtual space. For visual effects, the image change control unit will control the virtual object formed by the virtual object image group from one of the first size and the second size at a predetermined time interval when the automatic gradient mode is activated. , the other of the first size and the second size is gradually enlarged or reduced with a predetermined size change ratio, and at the same time, with a predetermined displacement change ratio, the virtual object image group is adjusted between the first size and the second size The coordinate position when the second size gradually changes, so that the virtual object can produce a visual effect of gradually changing distance and near displacement in the three-dimensional virtual space. 如請求項7所述之眼睛訓練設備,其中,該配戴單元具有一個可供操作以操作觸動該電子載具的操作鍵,該影像變化控制單元還內建有一個可供選擇啟動的手動切換模式,該影像變化控制單元於該手動切換模式被啟動時, 會於該電子載具每次***作時被觸發,而控制該虛擬目標物影像組構成之該虛擬目標物在該第一尺寸與該第二尺寸間切換一次,並同時調整該虛擬目標物影像組在該虛擬背景影像組中的座標位置。 The eye training device according to claim 7, wherein the wearing unit has an operation key that can be operated to operate and touch the electronic vehicle, and the image change control unit also has a built-in manual switch that can be selectively activated mode, when the image change control unit is activated in the manual switching mode, will be triggered every time the electronic vehicle is operated, and control the virtual object formed by the virtual object image group to switch between the first size and the second size once, and adjust the virtual object image at the same time The coordinate position of the group in the virtual background image group. 如請求項7所述之眼睛訓練設備,其中,該配戴單元具有一個可供操作以操作觸動該電子載具的操作鍵,該電子載具具有一個可感測移動而產生位移訊號的動態感測器,該影像變化控制單元還內建有一個可供選擇啟動的手動切換模式,該影像變化控制單元於該手動切換模式被啟動時,會透過虛擬實境技術在該虛擬背景影像組重疊顯示一個游標影像組與一個切換鈕影像組,使該游標影像組與該切換鈕影像組可被觀看以分別建構出位在該三維虛擬空間中的一個虛擬游標與一個虛擬切換鈕,該眼睛訓練系統還包含一個移動分析單元,該移動分析單元可分析該位移訊號以控制該虛擬游標於該三維虛擬空間中相對該虛擬切換鈕位移,該影像變化控制單元會於該虛擬游標和該虛擬切換鈕重疊,且該操作鍵***作時被觸發,而控制該虛擬目標物影像組構成之該虛擬目標物在該第一尺寸與該第二尺寸間切換一次,並同時調整該虛擬目標物影像組在該虛擬背景影像組中的座標位置。 The eye training device as claimed in claim 7, wherein the wearing unit has an operation key that can be operated to operate and touch the electronic carrier, and the electronic carrier has a dynamic sense capable of sensing movement to generate displacement signals The image change control unit also has a built-in manual switching mode that can be selectively activated. When the manual switching mode is activated, the image change control unit will use the virtual reality technology to overlap and display the virtual background image group. A cursor image group and a switch button image group, so that the cursor image group and the switch button image group can be viewed to respectively construct a virtual cursor and a virtual switch button located in the three-dimensional virtual space, the eye training system Also includes a movement analysis unit, the movement analysis unit can analyze the displacement signal to control the displacement of the virtual cursor relative to the virtual switch button in the three-dimensional virtual space, and the image change control unit overlaps the virtual cursor and the virtual switch button , and the operation key is triggered when the operation key is operated to control the virtual object formed by the virtual object image group to switch between the first size and the second size once, and adjust the virtual object image group at the same time. The coordinate position in the virtual background image group. 如請求項9所述之眼睛訓練設備,其中,該虛擬影像顯示單元還可透過虛擬實境技術在該虛擬背景影像組重疊顯示三個模式選項影像組與一游標影像組,使該等模式 選項影像組可供觀看以建構出三個分別顯示於該三維虛擬空間中,且分別對應該自動瞬變模式、該自動漸變模式與該手動切換模式的虛擬模式選項,並使該游標影像組可被觀看建構出一個位在該三維虛擬空間中的虛擬游標,該移動分析單元可分析該位移訊號以控制該虛擬游標於該三維虛擬空間中相對該等虛擬模式選項位移,該影像變化控制單元會於該虛擬游標和其中一個虛擬模式選項重疊,且該操作鍵***作時被觸發,而啟動該其中一虛擬模式選項對應之該自動瞬變模式、該自動漸變模式或該手動切換模式。 The eye training device according to claim 9, wherein the virtual image display unit can further display three mode selection image groups and a cursor image group on the virtual background image group through virtual reality technology, so that the modes The option image group can be viewed to construct three virtual mode options displayed in the three-dimensional virtual space and corresponding to the automatic transient mode, the automatic gradient mode and the manual switching mode respectively, and the cursor image group can be viewed. A virtual cursor in the three-dimensional virtual space is constructed by being viewed, the movement analysis unit can analyze the displacement signal to control the displacement of the virtual cursor relative to the virtual mode options in the three-dimensional virtual space, and the image change control unit will When the virtual cursor overlaps with one of the virtual mode options, and the operation key is operated, it is triggered to activate the automatic transient mode, the automatic gradient mode or the manual switching mode corresponding to the one of the virtual mode options. 如請求項8或9所述之該眼睛訓練設備,其中,該影像變化控制單元還內建有多個可被選擇啟用之參數設定,每一參數設定具有一個代表該虛擬目標物影像組於該第一尺寸或該第二尺寸狀態時的影像尺寸的初始尺寸參數、一個代表該虛擬目標物影像組以該第一尺寸與該第二尺寸重疊顯示於該虛擬背景影像組時的座標位置的座標參數,及一個代表該虛擬目標物以該第一尺寸與該第二尺寸在該三維虛擬空間顯示時之兩者間的視覺距離差的距離參數,該影像變化控制單元可***作啟用其中一個參數設定,並於控制該虛擬目標物在該第一尺寸與該第二尺寸間變化時,根據被啟用之該其中一參數設定的該距離參數與該初始尺寸參數,調整該虛擬目標物影像組於該第一尺寸與該第二尺寸時的影像尺寸,以及根據該座標參數調整該虛擬目標物影像組以該第一尺寸與該第二 尺寸重疊顯示於該虛擬背景影像組時的座標位置,以使構成之該虛擬目標物在該第一尺寸與該第二尺寸的切換變化與座標位置變化,會於該三維虛擬空間中產生位移該距離參數對應之該視覺距離差的視覺效果。 The eye training device as claimed in claim 8 or 9, wherein the image change control unit further has a plurality of built-in parameter settings that can be selected and enabled, and each parameter setting has an image group representing the virtual object in the The initial size parameter of the image size in the first size or the second size state, a coordinate representing the coordinate position of the virtual target image group when the first size and the second size are overlapped and displayed in the virtual background image group parameters, and a distance parameter representing the visual distance difference between the first size and the second size of the virtual object when displayed in the three-dimensional virtual space, the image change control unit is operable to enable one of the parameters setting, and adjusting the virtual target image group in The image size of the first size and the second size, and adjusting the virtual target image group to the first size and the second size according to the coordinate parameter The coordinate position when the size is overlapped and displayed on the virtual background image group, so that the switching change and coordinate position change of the virtual object formed in the first size and the second size will cause displacement in the three-dimensional virtual space. The distance parameter corresponds to the visual effect of the visual distance difference. 如請求項11所述之眼睛訓練設備,其中,該虛擬影像顯示單元還可透過虛擬實境技術在該虛擬背景影像組重疊顯示多個參數選項影像組與一游標影像組,使該等參數選項影像組可供觀看以建構出多個分別顯示於該三維虛擬空間中,且分別對應該等參數設定的虛擬參數選項,並使該游標影像組可被觀看建構出一個位在該三維虛擬空間中的虛擬游標,該影像變化控制單元會於該游標影像和其中一個虛擬參數選項重疊,且該操作鍵***作時被觸發,而啟用對應之該參數設定。 The eye training device according to claim 11, wherein the virtual image display unit can further display a plurality of parameter option image groups and a cursor image group on the virtual background image group through virtual reality technology, so that the parameter options The image group can be viewed to construct a plurality of virtual parameter options respectively displayed in the three-dimensional virtual space and corresponding to the parameter settings, so that the cursor image group can be viewed to construct a position in the three-dimensional virtual space The virtual cursor, the image change control unit will be triggered when the cursor image and one of the virtual parameter options are overlapped, and the operation key is operated to activate the corresponding parameter setting.
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