CN104102333B - Operating system and how it works - Google Patents

Abstract

Translated fromChinese

本发明提供一种操作系统及其操作方法。利用辅助光源单元发出的辅助光照射电子装置的显示单元上人眼无法辨识的坐标图案，将坐标图案转换为对应的坐标位置信息，并将坐标位置信息传送至电子装置。

The invention provides an operating system and an operating method thereof. Auxiliary light emitted by an auxiliary light source unit is used to illuminate a coordinate pattern on a display unit of an electronic device that is not recognizable by human eyes, the coordinate pattern is converted into corresponding coordinate position information, and the coordinate position information is transmitted to the electronic device.

Description

Translated fromChinese

操作系统及其操作方法Operating system and how it works

技术领域technical field

本发明涉及一种操作系统及其操作方法，尤其涉及一种搭配辅助光源进行操作的操作系统及其操作方法。The present invention relates to an operating system and its operating method, in particular to an operating system operating with an auxiliary light source and its operating method.

背景技术Background technique

显示面板传统上具有显示来自系统的信息或输出信号的功能，而其它输入装置则提供输入信号至系统，如可通过接触显示面板而接收使用者输入的触控面板，结合了输出及输入的功能且让使用者可与显示器或耦接显示器的系统互动。举例来说，手机、笔记本电脑及平板电脑等装置都可整合触控面板，以提供使用者更多元的输入方式。Display panels traditionally have the function of displaying information or output signals from the system, while other input devices provide input signals to the system, such as touch panels that can receive user input by touching the display panel, combining the functions of output and input And allow the user to interact with the display or a system coupled to the display. For example, devices such as mobile phones, notebook computers, and tablet computers can all integrate touch panels to provide users with more diverse input methods.

一般触控面板或触控荧幕具有多种不同设计，如电阻式(resistive type)、表面波式(surface-wave-type)、电容式(capacitive type)及红外线式(infrared type)的设计。无论是何种类型的触控面板，其目的都在于提供使用者更方便的输入方式。举例来说，电阻式、表面波式、电容式及红外线式触控面板接可通过使用者的手指或触控笔进行操作。现今的触控面板虽可提供使用者许多直觉的操作方式，但仍具有改善的空间。Generally, touch panels or touch screens have various designs, such as resistive type, surface-wave-type, capacitive type and infrared type. Regardless of the type of touch panel, its purpose is to provide a more convenient input method for the user. For example, resistive, surface wave, capacitive and infrared touch panels can be operated by a user's finger or stylus. Although the current touch panel can provide users with many intuitive operation methods, there is still room for improvement.

发明内容Contents of the invention

本发明提供一种操作系统及其操作方法，可减小电子装置的体积，使电子装置更符合现行电子产品倾向轻薄短小的趋势。The invention provides an operating system and an operation method thereof, which can reduce the volume of the electronic device and make the electronic device more in line with the trend of current electronic products tending to be light, thin and small.

本发明的操作系统，包括电子装置、输入装置以及辅助光源单元。其中电子装置具有显示单元，显示单元具有多个坐标图案，其中坐标图案为以人眼无法辨识的尺寸或材质制作，各坐标图案指示显示单元上的坐标位置。输入装置检测坐标图案，转换所检测到的坐标图案以得到与其对应的坐标位置信息，将坐标位置信息传送至电子装置。辅助光源单元发射辅助光照射坐标图案，以辅助输入装置检测坐标图案。The operating system of the present invention includes an electronic device, an input device and an auxiliary light source unit. The electronic device has a display unit, and the display unit has a plurality of coordinate patterns, wherein the coordinate patterns are made of sizes or materials that cannot be recognized by human eyes, and each coordinate pattern indicates a coordinate position on the display unit. The input device detects the coordinate pattern, converts the detected coordinate pattern to obtain corresponding coordinate position information, and transmits the coordinate position information to the electronic device. The auxiliary light source unit emits auxiliary light to illuminate the coordinate pattern, so as to assist the input device to detect the coordinate pattern.

在本发明的一实施例中，上述的输入装置包括检测单元、无线传输单元以及处理单元。检测单元检测坐标图案。无线传输单元与电子装置进行数据传输。处理单元耦接检测单元以及无线传输单元，将检测单元所检测到的坐标图案转换为坐标位置信息，并通过无线传输单元将坐标位置信息传送至电子装置。In an embodiment of the present invention, the above-mentioned input device includes a detection unit, a wireless transmission unit, and a processing unit. The detection unit detects the coordinate pattern. The wireless transmission unit performs data transmission with the electronic device. The processing unit is coupled to the detection unit and the wireless transmission unit, converts the coordinate pattern detected by the detection unit into coordinate position information, and transmits the coordinate position information to the electronic device through the wireless transmission unit.

在本发明的一实施例中，上述的辅助光源单元设置于输入装置上，且耦接至处理单元，输入装置还包括状态传感单元，其耦接处理单元，检测输入装置的状态，处理单元还依据输入装置的状态决定是否致能辅助光源单元。In an embodiment of the present invention, the above-mentioned auxiliary light source unit is disposed on the input device and coupled to the processing unit. The input device further includes a state sensing unit coupled to the processing unit to detect the state of the input device. The processing unit Whether to enable the auxiliary light source unit is also determined according to the state of the input device.

在本发明的一实施例中，其中若输入装置被移动或被使用，处理单元致能辅助光源单元发射辅助光。In an embodiment of the present invention, if the input device is moved or used, the processing unit enables the auxiliary light source unit to emit auxiliary light.

在本发明的一实施例中，上述的状态传感单元包括加速度传感器、陀螺仪传感器、光传感器、焦电型红外线传感器或笔尖压力传感器。In an embodiment of the present invention, the above state sensing unit includes an acceleration sensor, a gyroscope sensor, a light sensor, a pyroelectric infrared sensor or a pen tip pressure sensor.

在本发明的一实施例中，上述的检测单元包括互补式金属氧化半导体摄像机或感光耦合元件摄像机，辅助光源单元包括红外线照射单元。In an embodiment of the present invention, the detection unit includes a complementary metal oxide semiconductor camera or a photosensitive coupling device camera, and the auxiliary light source unit includes an infrared irradiation unit.

在本发明的一实施例中，上述的显示单元包括显示面板或触控显示面板，辅助光源单元设置于坐标图案的一侧或下方或显示单元的背光单元的一侧。In an embodiment of the present invention, the above-mentioned display unit includes a display panel or a touch display panel, and the auxiliary light source unit is disposed on one side or below the coordinate pattern or on one side of the backlight unit of the display unit.

本发明的操作方法适用于输入装置与具有显示单元的电子装置，其中显示单元具有多个坐标图案，操作方法包括下列步骤。发射辅助光照射坐标图案，其中坐标图案为以人眼无法辨识的尺寸或材质制作。利用输入装置检测被辅助光照射的坐标图案，其中辅助光辅助输入装置检测坐标图案，各坐标图案指示显示单元上的坐标位置。将所检测到的坐标图案转换为对应的坐标位置信息。将坐标位置信息传送至电子装置。The operation method of the present invention is applicable to the input device and the electronic device with the display unit, wherein the display unit has a plurality of coordinate patterns, and the operation method includes the following steps. Auxiliary light is emitted to irradiate the coordinate pattern, wherein the coordinate pattern is made of a size or material that cannot be recognized by human eyes. The coordinate patterns irradiated by the auxiliary light are detected by the input device, wherein the auxiliary light assists the input device to detect the coordinate patterns, each coordinate pattern indicating a coordinate position on the display unit. The detected coordinate pattern is converted into corresponding coordinate position information. The coordinate position information is sent to the electronic device.

在本发明的一实施例中，上述的操作方法还包括下列步骤。检测输入装置的状态。依据输入装置的状态判断输入装置是否被移动或被使用。若输入装置被移动或被使用，发射辅助光照射坐标图案。In an embodiment of the present invention, the above operation method further includes the following steps. Detect the state of the input device. Whether the input device is moved or used is determined according to the state of the input device. If the input device is moved or used, the auxiliary light is emitted to illuminate the coordinate pattern.

在本发明的一实施例中，上述的辅助光包括红外线光，检测坐标图案的步骤包括利用互补式金属氧化半导体摄像机或感光耦合元件摄像机拍摄坐标图案。In an embodiment of the present invention, the above-mentioned auxiliary light includes infrared light, and the step of detecting the coordinate pattern includes using a complementary metal oxide semiconductor camera or a photosensitive coupling device camera to photograph the coordinate pattern.

在本发明的一实施例中，上述的坐标图案为以制程方式形成于显示单元的表面或内部。In an embodiment of the present invention, the above-mentioned coordinate pattern is formed on the surface or inside of the display unit by process.

基于上述，本发明的操作系统及其操作方法通过在显示单元上制作人眼无法辨识的坐标图案，利用辅助光源单元发出的辅助光辅助输入装置进行坐标图案的检测，以使输入装置可将检测的坐标图案转换为对应的坐标位置信息，并将其传送至电子装置执行相关的应用操作，如此便可不需在电子装置上制作传统触控操作所需的硬件架构，进而可减小电子装置的体积，使电子装置更符合现行电子产品倾向轻薄短小的趋势。Based on the above, the operating system and its operating method of the present invention create a coordinate pattern that cannot be recognized by human eyes on the display unit, and use the auxiliary light emitted by the auxiliary light source unit to assist the input device to detect the coordinate pattern, so that the input device can detect the coordinate pattern. The coordinate pattern is converted into the corresponding coordinate position information, and it is sent to the electronic device to perform related application operations, so that it is not necessary to make the hardware architecture required for traditional touch operations on the electronic device, thereby reducing the size of the electronic device. The volume makes the electronic device more in line with the current trend of thin, light and small electronic products.

为让本发明的上述特征和优点能更明显易懂，下文特举实施例，并配合附图作详细说明如下。In order to make the above-mentioned features and advantages of the present invention more comprehensible, the following specific embodiments are described in detail with reference to the accompanying drawings.

附图说明Description of drawings

图1示出本发明一实施例的操作系统的示意图；FIG. 1 shows a schematic diagram of an operating system according to an embodiment of the present invention;

图2A～图2D示出本发明实施例的显示单元的坐标图案的示意图；2A to 2D show schematic diagrams of coordinate patterns of a display unit in an embodiment of the present invention;

图3示出本发明另一实施例的操作系统的示意图；Fig. 3 shows the schematic diagram of the operating system of another embodiment of the present invention;

图4A～图4C示出本发明实施例的辅助光源单元设置示意图；4A to 4C are schematic diagrams showing the arrangement of the auxiliary light source unit according to the embodiment of the present invention;

图5示出本发明一实施例的操作系统的操作方法流程示意图；FIG. 5 shows a schematic flowchart of an operation method of an operating system according to an embodiment of the present invention;

图6示出本发明另一实施例的操作系统的操作方法流程示意图。FIG. 6 shows a schematic flowchart of an operation method of an operating system according to another embodiment of the present invention.

附图标记说明：Explanation of reference signs:

102：电子装置；102: electronic device;

104：输入装置；104: input device;

106：辅助光源单元；106: auxiliary light source unit;

108：显示单元；108: display unit;

202：坐标图案；202: coordinate pattern;

108A：触控面板；108A: touch panel;

108B：显示面板；108B: display panel;

302：检测单元；302: detection unit;

304：无线传输单元；304: wireless transmission unit;

306：处理单元；306: processing unit;

308：状态传感单元；308: state sensing unit;

310：反射单元；310: reflection unit;

312：透镜单元；312: lens unit;

314：电池；314: battery;

402：背光单元；402: backlight unit;

S502～S508、S602、S604：操作系统的操作方法步骤。S502-S508, S602, S604: steps of the operation method of the operating system.

具体实施方式detailed description

图1示出本发明一实施例的操作系统的示意图，请参照图1。操作系统包括电子装置102、输入装置104以及辅助光源单元106。其中电子装置可例如为电子纸显示器、电视、笔记本电脑、台式机、触控桌、平板电脑或手机，电子装置102包括显示单元108，显示单元108可例如为显示面板或触控显示面板。显示单元108具有多个坐标图案，并且在不影响显示单元108的显示品质的情形下分布于显示单元108上。各个坐标图案具有不同的几何图形，因而各坐标图案可用以指示显示单元108上的坐标位置。其中坐标图案为以人眼无法辨识的尺寸或材质制作，且以制程方式形成于显示单元108的表面或内部。举例来说，坐标图案可通过印刷、蚀刻、压模等方式来制作，然不以此为限，而坐标图案的材质则可例如为铟锡氧化物(Indium Tin Oxide，简称ITO)或金属等，然不以此为限。FIG. 1 shows a schematic diagram of an operating system according to an embodiment of the present invention, please refer to FIG. 1 . The operating system includes an electronic device 102 , an input device 104 and an auxiliary light source unit 106 . The electronic device can be, for example, an electronic paper display, a TV, a notebook computer, a desktop computer, a touch table, a tablet computer, or a mobile phone. The electronic device 102 includes a display unit 108 , which can be, for example, a display panel or a touch display panel. The display unit 108 has a plurality of coordinate patterns, which are distributed on the display unit 108 without affecting the display quality of the display unit 108 . Each coordinate pattern has a different geometry, so each coordinate pattern can be used to indicate the coordinate position on the display unit 108 . The coordinate pattern is made with a size or material that cannot be recognized by human eyes, and is formed on the surface or inside of the display unit 108 by a process. For example, the coordinate pattern can be produced by printing, etching, stamping, etc., but not limited thereto, and the material of the coordinate pattern can be, for example, indium tin oxide (Indium Tin Oxide, ITO for short) or metal, etc. , but not limited to this.

举例来说，图2A～图2D示出本发明实施例的显示单元的坐标图案的示意图。在图2A、图2B中，显示单元108为显示面板，如图2A所示，坐标图案202为形成于显示面板的内部，而在图2B中，坐标图案202为形成于显示面板的表面。在图2C、图2D中，显示单元108为触控显示面板，其可包括触控面板108A与显示面板108B。在图2C中，坐标图案202为形成于触控面板108A的表面，而在图2D中，坐标图案202为形成于触控面板108A的内部，例如形成于触控层上。For example, FIGS. 2A-2D show schematic diagrams of coordinate patterns of a display unit according to an embodiment of the present invention. In FIGS. 2A and 2B , the display unit 108 is a display panel. As shown in FIG. 2A , the coordinate pattern 202 is formed inside the display panel. In FIG. 2B , the coordinate pattern 202 is formed on the surface of the display panel. In FIG. 2C and FIG. 2D , the display unit 108 is a touch display panel, which may include a touch panel 108A and a display panel 108B. In FIG. 2C , the coordinate pattern 202 is formed on the surface of the touch panel 108A, while in FIG. 2D , the coordinate pattern 202 is formed inside the touch panel 108A, such as on the touch layer.

输入装置104用以检测显示单元108的坐标图案，转换所检测到的坐标图案以得到与其对应的坐标位置信息，并将坐标位置信息传送至电子装置102。如此电子装置102便可得知输入装置104所检测到的坐标图案对应的坐标位置，并执行相对应的动作，例如在与坐标图案相对应的坐标位置上显示游标，亦或者显示输入装置104所检测到的多个坐标图案连成的路径。其中输入装置104可例如为触控笔、触控环、鼠标、遥控器、轨迹球、手机或平板电脑。另外，辅助光源单元106用以发射辅助光照射显示单元108的坐标图案，以辅助输入装置104检测坐标图案，辅助光源单元106可例如为红外线照射单元，或其他可发出不同频段的光的光照射装置。The input device 104 is used for detecting the coordinate pattern of the display unit 108 , transforming the detected coordinate pattern to obtain corresponding coordinate position information, and transmitting the coordinate position information to the electronic device 102 . In this way, the electronic device 102 can know the coordinate position corresponding to the coordinate pattern detected by the input device 104, and perform corresponding actions, such as displaying a cursor on the coordinate position corresponding to the coordinate pattern, or displaying the coordinate position of the input device 104. A path formed by connecting multiple detected coordinate patterns. The input device 104 can be, for example, a stylus, a touch ring, a mouse, a remote controller, a trackball, a mobile phone or a tablet computer. In addition, the auxiliary light source unit 106 is used to emit auxiliary light to illuminate the coordinate pattern of the display unit 108 to assist the input device 104 to detect the coordinate pattern. The auxiliary light source unit 106 can be, for example, an infrared irradiation unit, or other light irradiation units that can emit light of different frequency bands. device.

如此通过在显示单元108上制作坐标图案，并利用辅助光源单元106发射的辅助光辅助输入装置104进行坐标图案的检测，即可使输入装置104获得坐标图案的所对应的坐标位置信息，并将其传送至电子装置102，进而应用于触控操作。其中由于坐标图案可以人眼无法辨识的尺寸或材质制作，例如具透明特性的铟锡氧化物，因此显示单元108可较传统的显示面板或触控显示面板具有更佳的光穿透率，而可提高显示单元的显示品质。另外，由于实现触控操作的硬件架构只需制作在输入装置104上，因此可以减小电子装置102的体积，使电子装置102可更符合现行电子产品倾向轻薄短小的趋势。In this way, by making a coordinate pattern on the display unit 108, and using the auxiliary light emitted by the auxiliary light source unit 106 to assist the input device 104 to detect the coordinate pattern, the input device 104 can obtain the corresponding coordinate position information of the coordinate pattern, and It is transmitted to the electronic device 102, and then applied to the touch operation. Since the coordinate pattern can be made of a size or material that cannot be recognized by human eyes, such as indium tin oxide with transparent properties, the display unit 108 can have better light transmittance than traditional display panels or touch display panels, and The display quality of the display unit can be improved. In addition, since the hardware structure for realizing the touch operation only needs to be fabricated on the input device 104, the volume of the electronic device 102 can be reduced, so that the electronic device 102 can be more in line with the current trend of thin, light and small electronic products.

图3示出本发明另一实施例的操作系统的示意图，请参照图3。详细来说，上述的输入装置104可包括检测单元302、无线传输单元304、处理单元306、状态传感单元308、反射单元310、透镜单元312以及电池314。其中处理单元306耦接辅助光源单元106、检测单元302、无线传输单元304以及状态传感单元308，此外电池314耦接辅助光源单元106、检测单元302、无线传输单元304、处理单元306以及状态传感单元308，为保持图示简洁，在此不示出其耦接关系。FIG. 3 shows a schematic diagram of an operating system according to another embodiment of the present invention, please refer to FIG. 3 . In detail, the aforementioned input device 104 may include a detection unit 302 , a wireless transmission unit 304 , a processing unit 306 , a state sensing unit 308 , a reflection unit 310 , a lens unit 312 and a battery 314 . The processing unit 306 is coupled to the auxiliary light source unit 106, the detection unit 302, the wireless transmission unit 304, and the state sensing unit 308, and the battery 314 is coupled to the auxiliary light source unit 106, the detection unit 302, the wireless transmission unit 304, the processing unit 306, and the state sensing unit 308. The coupling relationship of the sensing unit 308 is not shown here to keep the illustration simple.

其中，检测单元302用以检测坐标图案202，其可例如为互补式金属氧化半导体摄像机或感光耦合元件摄像机。无线传输单元304用以与电子装置102进行数据传输。处理单元306则将检测单元302所检测到的坐标图案202转换为坐标位置信息，并通过无线传输单元304将坐标位置信息传送至电子装置102，以进行相关的触控操作应用。辅助光源单元106的功能已于上述实施例中描述，因而在此不在赘述。此外，状态传感单元308为用以检测输入装置104的状态。反射单元310可节省光路设计，透镜单元312用以聚集反射的辅助光的光线。处理单元306可依据输入装置104的状态决定是否致能辅助光源单元106，以避免在输入装置104未对坐标图案进行检测时辅助光源单元106仍发出辅助光，而造成不必要的电源浪费。其中处理单元306可例如制作于印刷电路板上。Wherein, the detection unit 302 is used to detect the coordinate pattern 202 , which may be, for example, a CMOS camera or a photocoupler device camera. The wireless transmission unit 304 is used for data transmission with the electronic device 102 . The processing unit 306 converts the coordinate pattern 202 detected by the detection unit 302 into coordinate position information, and transmits the coordinate position information to the electronic device 102 through the wireless transmission unit 304 for related touch operation applications. The functions of the auxiliary light source unit 106 have been described in the above-mentioned embodiments, and thus will not be repeated here. In addition, the state sensing unit 308 is used to detect the state of the input device 104 . The reflective unit 310 can save the design of the optical path, and the lens unit 312 is used to collect the reflected auxiliary light. The processing unit 306 can determine whether to enable the auxiliary light source unit 106 according to the state of the input device 104 , so as to avoid unnecessary power waste caused by the auxiliary light source unit 106 still emitting auxiliary light when the input device 104 is not detecting the coordinate pattern. The processing unit 306 can be fabricated on a printed circuit board, for example.

状态传感单元308可例如为加速度传感器、陀螺仪传感器、光传感器、焦电型红外线传感器或笔尖压力传感器，或其他可感应到输入装置104被移动、提取或使用的传感装置。举例来说，若状态传感单元308为笔尖压力传感器，处理单元306可在输入装置104(假设其为触控笔)的笔尖感受到压力才控制辅助光源单元106发出辅助光。或者，例如状态传感单元308为加速度传感器或陀螺仪传感器，当状态传感单元308检测到输入装置104被移动时，处理单元306才控制辅助光源单元106发出辅助光。又或者是，例如状态传感单元308为光传感器、焦电型红外线传感器，当状态传感单元308检测到电子装置102的显示单元发出的光线时，处理单元306才控制辅助光源单元106发出辅助光。此外，电池314用以提供辅助光源单元106、检测单元302、无线传输单元304、处理单元306以及状态传感单元308运作时所需的电源。The state sensing unit 308 can be, for example, an acceleration sensor, a gyroscope sensor, a light sensor, a pyroelectric infrared sensor or a pen tip pressure sensor, or other sensing devices that can sense that the input device 104 is moved, extracted or used. For example, if the state sensing unit 308 is a pen tip pressure sensor, the processing unit 306 can control the auxiliary light source unit 106 to emit auxiliary light when the pen tip of the input device 104 (assuming it is a stylus) senses pressure. Or, for example, the state sensing unit 308 is an acceleration sensor or a gyro sensor, and when the state sensing unit 308 detects that the input device 104 is moved, the processing unit 306 controls the auxiliary light source unit 106 to emit auxiliary light. Alternatively, for example, the state sensing unit 308 is a light sensor or a pyroelectric infrared sensor. When the state sensing unit 308 detects the light emitted by the display unit of the electronic device 102, the processing unit 306 controls the auxiliary light source unit 106 to emit auxiliary light. Light. In addition, the battery 314 is used to provide the power required for the operation of the auxiliary light source unit 106 , the detection unit 302 , the wireless transmission unit 304 , the processing unit 306 and the status sensing unit 308 .

值得注意的是，上述实施例的辅助光源单元106虽皆设置于输入装置104上，然并不以此为限，辅助光源单元106可设置在任何可帮助输入装置104检测坐标图案202的位置。举例来说，图4A～图4C示出为本发明实施例的辅助光源单元设置示意图，请参照图4A～图4C。在图4A中，辅助光源单元106设置于坐标图案202的一侧，在图4B中，辅助光源单元106设置于坐标图案202的下方，在图4C中，辅助光源单元106设置于显示单元108的背光单元402的一侧。It should be noted that although the auxiliary light source unit 106 in the above embodiments is all disposed on the input device 104 , it is not limited thereto, and the auxiliary light source unit 106 can be disposed at any position that can help the input device 104 detect the coordinate pattern 202 . For example, FIG. 4A-FIG. 4C are schematic diagrams showing the arrangement of the auxiliary light source unit according to the embodiment of the present invention, please refer to FIG. 4A-FIG. 4C. In FIG. 4A, the auxiliary light source unit 106 is arranged on one side of the coordinate pattern 202. In FIG. 4B, the auxiliary light source unit 106 is arranged under the coordinate pattern 202. In FIG. One side of the backlight unit 402 .

图5示出本发明一实施例的操作系统的操作方法流程示意图，请参照图5。归纳上述操作系统的操作方法可包括下列步骤。首先，发射辅助光照射电子装置的显示单元的坐标图案(步骤S502)，其中坐标图案为以人眼无法辨识的尺寸或材质制作，此外，辅助光可例如为红外线光，而检测坐标图案的方式则可例如利用互补式金属氧化半导体摄像机或感光耦合元件摄像机来拍摄坐标图案。接着，利用输入装置检测被辅助光照射的坐标图案(步骤S504)，其中辅助光辅助输入装置检测坐标图案，各坐标图案指示显示单元上的坐标位置。然后，将所检测到的坐标图案转换为对应的坐标位置信息(步骤S506)。之后再将坐标位置信息传送至电子装置(步骤S508)，以使电子装置执行相关的操作应用。FIG. 5 shows a schematic flowchart of an operation method of an operating system according to an embodiment of the present invention, please refer to FIG. 5 . The operating method for summarizing the above-mentioned operating system may include the following steps. First, emit auxiliary light to irradiate the coordinate pattern of the display unit of the electronic device (step S502), wherein the coordinate pattern is made of a size or material that cannot be recognized by human eyes. In addition, the auxiliary light can be, for example, infrared light to detect the coordinate pattern The coordinate pattern can then be recorded, for example, with a CMOS camera or an OCD camera. Next, use the input device to detect the coordinate patterns irradiated by the auxiliary light (step S504 ), wherein the auxiliary light assists the input device to detect the coordinate patterns, and each coordinate pattern indicates a coordinate position on the display unit. Then, convert the detected coordinate pattern into corresponding coordinate position information (step S506). Afterwards, the coordinate location information is transmitted to the electronic device (step S508 ), so that the electronic device executes related operation applications.

图6示出本发明另一实施例的操作系统的操作方法流程示意图，请参照图6。本实施例的操作系统的操作方法与图5实施例的不同之处在于，本实施例还先检测输入装置的状态(步骤S602)，然后再依据输入装置的状态判断输入装置是否被移动或被使用(步骤S604)。若输入装置未被移动或被使用，则继续检测输入装置的状态，若输入装置被移动或被使用，才进入步骤S502，发射辅助光照射电子装置的显示单元的坐标图案。如此便可避免在输入装置未对坐标图案进行检测时仍发出辅助光，而造成不必要的电源浪费。FIG. 6 shows a schematic flowchart of an operation method of an operating system according to another embodiment of the present invention, please refer to FIG. 6 . The difference between the operation method of the operating system in this embodiment and the embodiment in FIG. 5 is that this embodiment also first detects the state of the input device (step S602), and then judges whether the input device has been moved or use (step S604). If the input device is not moved or used, continue to detect the state of the input device, if the input device is moved or used, then enter step S502, emit auxiliary light to illuminate the coordinate pattern of the display unit of the electronic device. In this way, the auxiliary light is still emitted when the input device is not detecting the coordinate pattern, which causes unnecessary waste of power.

综上所述，本发明利用人眼无法辨识的尺寸或材质在显示单元上制作坐标图案，并利用辅助光源单元发射的辅助光辅助输入装置进行坐标图案的检测，以使输入装置可将获得的坐标图案转换为对应的坐标位置信息，并将其传送至电子装置执行相关的应用操作。如此便可减小电子装置的体积，使电子装置更符合现行电子产品倾向轻薄短小的趋势，此外亦可使显示单元较传统的显示面板或触控显示面板具有更佳的光穿透率，而具有较高的显示品质。另外，在部分实施例中通过状态传感单元的检测结果来决定是否致能辅助光源单元发出辅助光还可避免造成不必要的电源浪费。To sum up, the present invention utilizes a size or material that cannot be recognized by the human eye to make a coordinate pattern on the display unit, and uses the auxiliary light emitted by the auxiliary light source unit to assist the input device in detecting the coordinate pattern, so that the input device can obtain the coordinate pattern. The coordinate pattern is converted into corresponding coordinate position information, which is transmitted to the electronic device to execute related application operations. In this way, the volume of the electronic device can be reduced, so that the electronic device is more in line with the current trend of thinner and smaller electronic products. In addition, the display unit can have better light transmittance than the traditional display panel or touch display panel. It has high display quality. In addition, in some embodiments, determining whether to enable the auxiliary light source unit to emit auxiliary light according to the detection result of the state sensing unit can also avoid unnecessary waste of power.

最后应说明的是：以上各实施例仅用以说明本发明的技术方案，而非对其限制；尽管参照前述各实施例对本发明进行了详细的说明，本领域的普通技术人员应当理解：其依然可以对前述各实施例所记载的技术方案进行修改，或者对其中部分或者全部技术特征进行等同替换；而这些修改或者替换，并不使相应技术方案的本质脱离本发明各实施例技术方案的范围。Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present invention, rather than limiting them; although the present invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that: It is still possible to modify the technical solutions described in the foregoing embodiments, or perform equivalent replacements for some or all of the technical features; and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the technical solutions of the various embodiments of the present invention. scope.

Claims (9)

1. a kind of operating system, it is characterised in that include：

One electronic installation, with a display unit, the display unit has multiple coordinate patterns, wherein those coordinate patterns be withThe size or material that human eye cannot be recognized makes, and respectively the coordinate pattern indicates the coordinate position on the display unit；

One input equipment, detects those coordinate patterns, changes those detected coordinate patterns to obtain corresponding seatThe co-ordinate position information is sent to the electronic installation by cursor position information；And

One secondary light source unit, transmitting one aid in light irradiation those coordinate patterns, to aid in the input equipment to detect those coordinatesPattern,

The wherein input equipment includes：

One detector unit, detects those coordinate patterns；

One wireless transmission unit, is carried out data transmission with the electronic installation；And

One processing unit, couples the detector unit and the wireless transmission unit, by those seats detected by the detector unitCase of marking on a map is converted to the co-ordinate position information, and the co-ordinate position information is sent to electronics dress by the wireless transmission unitPut,

Wherein the secondary light source unit is arranged in the input equipment, and is coupled to the processing unit, and the input equipment is also wrappedInclude：

One state sensing unit, couples the processing unit, detects the state of the input equipment, and the processing unit is also according to the inputThe Determines of device whether enable secondary light source unit.

2. operating system according to claim 1, it is characterised in that if the input equipment is moved or used, at thisThe reason unit enable secondary light source unit launches the fill-in light.

3. operating system according to claim 1, it is characterised in that the state sensing unit include acceleration transducer,Gyro sensor, optical sensor, burnt electricity type infrared ray sensor or pen point pressure sensor.

4. operating system according to claim 1, it is characterised in that the detector unit includes that complementary metal oxide is partly ledBody video camera or photosensitive coupling element video camera, the secondary light source unit include infrared ray radiation unit.

5. operating system according to claim 1, it is characterised in that the display unit includes that display floater or touch-control showPanel, those coordinate patterns are the surface or inside that the display unit is formed in processing procedure mode.

6. a kind of operational approach, it is adaptable to which an input equipment and an electronic installation with a display unit, the display unit haveThere are multiple coordinate patterns, it is characterised in that the operational approach includes：

Detect the state of the input equipment；

Aid in light irradiation those coordinate patterns according to the condition adjudgement transmitting one of the input equipment, wherein those coordinate patterns be withThe size or material that human eye cannot be recognized makes；

Detect that by those coordinate patterns of the auxiliary light irradiation the wherein fill-in light aids in the input equipment using the input equipmentThose coordinate patterns are detected, respectively the coordinate pattern indicates the coordinate position on the display unit；

Those detected coordinate patterns are converted to into corresponding co-ordinate position information；And

The co-ordinate position information is sent to into the electronic installation.

7. operational approach according to claim 6, it is characterised in that launch this according to the condition adjudgement of the input equipment auxiliaryThe step of helping those coordinate patterns of light irradiation includes：

Whether moved or used according to the condition adjudgement of the input equipment input equipment；And

If the input equipment is moved or used, launch the auxiliary light irradiation those coordinate patterns.

8. operational approach according to claim 6, it is characterised in that the fill-in light includes infrared ray, detects those seatsThe step of case of marking on a map, includes shooting those seats using complementary metal oxide semiconductor pickup camera or photosensitive coupling element video cameraMark on a map case.

9. operational approach according to claim 6, it is characterised in that those coordinate patterns are to be formed at this in processing procedure modeThe surface or inside of display unit.