WO2017124785A1 - 显示切换装置及其切换方法、穿戴显示装置及其显示方法 - Google Patents
显示切换装置及其切换方法、穿戴显示装置及其显示方法 Download PDFInfo
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- WO2017124785A1 WO2017124785A1 PCT/CN2016/102348 CN2016102348W WO2017124785A1 WO 2017124785 A1 WO2017124785 A1 WO 2017124785A1 CN 2016102348 W CN2016102348 W CN 2016102348W WO 2017124785 A1 WO2017124785 A1 WO 2017124785A1
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- display device
- collector
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- wearable display
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- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/60—Control of cameras or camera modules
- H04N23/62—Control of parameters via user interfaces
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- G—PHYSICS
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- G02B27/0172—Head mounted characterised by optical features
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- G—PHYSICS
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- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
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- G06F3/14—Digital output to display device ; Cooperation and interconnection of the display device with other functional units
- G06F3/147—Digital output to display device ; Cooperation and interconnection of the display device with other functional units using display panels
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- G—PHYSICS
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- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/001—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes using specific devices not provided for in groups G09G3/02 - G09G3/36, e.g. using an intermediate record carrier such as a film slide; Projection systems; Display of non-alphanumerical information, solely or in combination with alphanumerical information, e.g. digital display on projected diapositive as background
- G09G3/003—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes using specific devices not provided for in groups G09G3/02 - G09G3/36, e.g. using an intermediate record carrier such as a film slide; Projection systems; Display of non-alphanumerical information, solely or in combination with alphanumerical information, e.g. digital display on projected diapositive as background to produce spatial visual effects
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Definitions
- the present disclosure relates to the field of display technologies, and in particular, to a display switching device and a switching method thereof, a wearable display device, and a display method thereof.
- wearable display devices commonly found on the market are mainly classified into an AR-type wearable display device and a VR-type wearable display device.
- the AR-type wearable display device is also referred to as an augmented reality wearable display device, which applies Augmented Reality (AR) technology to a wearable display device to display a VR image on the display screen of the AR-type wearable display device.
- AR Augmented Reality
- the VR-type wearable display device is also referred to as a virtual reality wearable display device, which is a virtual reality (VR) technology applied to the wearable display device to simulate a three-dimensional dynamic view using the VR information processing unit therein.
- VR virtual reality
- the environment is VR information
- the VR image is formed through the display screen, so that the user can immerse into the three-dimensional dynamic scene environment.
- the VR-type wearable display device also realizes human-computer interaction through the VR information processing unit, so that the user experiences an immersive experience.
- An object of the present disclosure is to provide an improved display switching device, a switching method thereof, a wearable display device, and a display method thereof.
- the present disclosure provides a display switching device for a wearable display device, comprising: a collector configured to be operable to enable an enabled display device to acquire an enabled mode of physical information or to prevent wearable display devices from acquiring entity information. a mode; and a first controller configured to determine a display switch of the wearable display device based on an operation mode of the collector, comprising: controlling the wearable display device to be based on the entity letter when the collector is operating in the enable mode The augmented reality AR image is displayed, and when the collector operates in the blocking mode, the wearable display device is controlled to display the virtual reality VR image.
- the present disclosure also provides a wearable display device comprising a virtual reality VR-type wearable display device body, an augmented reality AR information processing unit, the display switching device as described above, wherein the collector is configured to be operable to cause AR information
- the processing unit can acquire an enable mode of the entity information or a blocking mode that prevents the AR information processing unit from acquiring the entity information; and the first controller is configured to determine display switching of the VR-type wearable display device body based on an operation mode of the collector
- the method includes: controlling the VR-type wearable display device body to display an AR image according to the entity information from the AR information processing unit when the collector is operated in the enable mode, and controlling the VR mode when the collector operates in the blocking mode.
- the display device body is displayed to display a VR image.
- the present disclosure further provides a wearable eyeglass comprising a VR-type wearable eyeglass body, the frame of the VR-type wearable eyewear being provided with an AR information processing unit, and the display switching device of the above technical solution; the display The output ends of the first controller of the switching device are respectively connected to the control end of the AR information processing unit and the control end of the VR-type wearable glasses body; the graphic data output end of the AR information processing unit and the VR wearable glasses The image signal input ends of the image display unit in the body are connected.
- the present disclosure also provides a display switching method, which is applied to the display switching device described in the above technical solution.
- the display switching method includes: operating the collector to operate in an enabling mode for enabling the wearable display device to acquire entity information, or preventing a blocking mode in which the wearable display device acquires entity information; determining a mode in which the collector operates; and based on Determining an operation mode of the collector to determine display switching of the wearable display device, comprising: when the collector is operated in an enable mode, controlling, by the first controller, the wearable display device to display an AR image according to the entity information; and when When the collector operates in the blocking mode, the VR image is displayed by the first controller controlling the wearable display device.
- the present disclosure also provides a wearable display method, which is applied to the wearable display device described in the above technical solution.
- the method includes: operating a collector to operate in an enabled mode that enables the wearable display device to acquire entity information, or a blocking mode that prevents the wearable display device from acquiring entity information; determining a mode in which the collector operates; and based on the collector
- An operation mode to determine display switching of the wearable display device comprising: when the collector operates in an enable mode, acquiring entity information by the AR information processing unit and generating AR image data according to the entity information, and by using the first control Controlling the VR-type wearable display device body according to The AR image data from the AR information processing unit displays the AR image; and when the collector operates in the blocking mode, the VR-type wearable display device body is controlled to display the VR image by the first controller.
- the collector is operable in different modes to selectively enable the wearable display device to acquire entity information or prevent the wearable display device from acquiring entity information.
- the first controller can timely know which mode the collector operates in and control the wearable display device to display the AR image or display the VR image according to the entity information based on the mode of the collector. Therefore, the display switching device according to the embodiment of the present disclosure enables free switching between the AR display and the VR display, thereby enabling the wearable display device to be compatible with both the AR display and the VR display, thereby improving the user experience.
- the first controller can control the AR information processing unit to start to acquire the entity information when the collector causes the wearable display device to acquire the entity information, and the AR information processing unit can generate the entity information according to the entity information.
- AR image data, and an AR image is displayed by the VR-type wearable display device body.
- the first controller is further capable of controlling the VR-type wearable display device body to initiate display to display the VR image when the collector prevents the wearable display device from acquiring the entity information. Therefore, the wearable display device provided by the present disclosure is compatible with both the AR display and the VR display, and switches the AR display and the VR display as the user demands, so that the user can view the AR image or the VR without changing the wearable display device. The image greatly enhances the user experience.
- FIG. 1 is a structural block diagram of a display switching apparatus according to an embodiment of the present disclosure
- FIG. 2 is a flowchart of a display switching method according to an embodiment of the present disclosure
- FIG. 3 is a structural block diagram of a wearable display device according to an embodiment of the present disclosure.
- FIG. 6 is a schematic structural diagram of wearable glasses according to an embodiment of the present disclosure.
- FIG. 7 is a diagram showing a display method for a wearable display device according to an embodiment of the present disclosure. flow chart.
- FIG. 1 illustrates a structural block diagram of a display switching apparatus 100 provided in accordance with an embodiment of the present disclosure.
- the display switching device 100 includes a collector 1 and a first controller 3.
- the collector 1 is operable to enable an enabled display mode of the wearable display device or a blocking mode that prevents the wearable display device from acquiring entity information.
- the collector 1 is communicably coupled to the first controller 3.
- the first controller 3 can be configured to control the wearable display device to display the AR image according to the entity information when the collector 1 is operated in the enable mode, and thus the wearable display device can acquire the entity information, and the collector 1 operates in the blocking mode, thus When the wearable display device fails to acquire the entity information, the wearable display device is controlled to display the VR image.
- the collector 1 can operate in different modes according to user requirements, for example, according to the user's selection, ie, enabling the wearable display device to acquire or not acquire entity information.
- the collector 1 can also adaptively switch its mode of operation based on changes in the environment.
- the collector 1 may cause the wearable display device to acquire entity information when the user selects the AR display mode.
- the first controller 3 can timely understand the operation mode of the collector 1, and when determining that the collector 1 is operating in the enable mode, control the wearable display device to display the AR image according to the entity information, and determine that the collector 1 is operating in the blocking mode. At the time, the wearable display device is controlled to display a VR image. Therefore, in the display switching device according to the present embodiment, the first controller 3 can control the wearable display device to selectively display the AR image or the VR image according to the operation mode of the collector 1, thereby realizing the between the AR display and the VR display. Switching.
- the first controller 3 controls the wearable display device to display the AR image or the VR image by performing the display to the wearer when the collector 1 is operated in a mode that enables the wearable display device to acquire the entity information.
- the device transmits an AR display activation command, and when the collector 1 operates in a mode that prevents the wearable display device from acquiring the entity information, the VR display activation command is transmitted to the wearable display device. That is, the first controller 3 can transmit an AR display start command or a VR display start command to the wearable display device according to the operation mode of the collector 1 to control the corresponding image display. It can be understood that this function of the first controller 3 can be It can be realized by software or by some simple dual-control switching circuits.
- display switching device 100 further includes a second controller 4 for controlling the operational mode setting of collector 1.
- the output of the second controller 4 is connected to the control terminal of the collector 1.
- the collector 1 can be set by the second controller 4 to enable the wearable display device to acquire the entity information, and when the user selects the VR display mode, the collector can be used by the second controller 4. 1 is set in a mode in which the wearable display device acquires entity information.
- the second controller 4 can take the form of a switch control circuit, and the type and specific form of the appropriate switch control circuit can be selected according to actual needs.
- the second controller 4 when the second controller 4 sets the collector 1 to operate in a mode that enables the wearable display device to acquire the entity information, the second controller 4 can also notify the first enabled mode to the first mode.
- the controller is configured to transmit an AR display activation command to the wearable display device to control the wearable display device to display the AR image according to the entity information.
- the second controller 4 may also notify the first controller of the set blocking mode to display the wearer.
- the device transmits a VR display activation command to control the wearable display device to display the AR image.
- first controller 3 and the second controller 4 are illustrated as two separate controllers in the above embodiment, the first controller 3 and the second controller 4 are alternatively It can be implemented by a single controller. As long as the control terminal wearing the display device receives the AR display start command or the VR display start command from the controller, the corresponding action can be performed.
- display switching device 100 further includes a sensor 2 for monitoring which mode the collector 1 is operating.
- the collector 1 is coupled to the first controller 3 via a sensor 2. And the first controller 3 determines the operation mode of the collector 1 through the sensor 2.
- sensor 2 can be implemented by selecting a conventional voltage sensor or CCD sensor.
- the mode of the collector 1 is determined by detecting the voltage signal of the collector 1.
- the sensor 2 can also be implemented as a CCD sensor.
- the CCD sensor is a photoelectric sensor capable of detecting an optical signal when a wearable display device acquires physical information and determining an operation mode of the collector 1 accordingly. Because the CCD sensor can directly monitor the physical information acquired by the wearable display device; therefore, compared with the voltage sensor, the CCD sensor can more accurately determine whether the physical information is worn. The display device is acquired.
- the senor is described as a voltage sensor or a CCD sensor in the above embodiments, the sensor may be of other types as long as it is capable of monitoring different modes of operation of the collector 1.
- the sensor 2 is selected to be adapted to the specific kind of the collector 1 in order to be able to better monitor the mode of operation of the collector 1.
- the collector 1 can be a camera or an invertible color device that is convertible between a transparent state and an occluded state.
- the collector 1 When the collector 1 is a camera, the entity information output end of the collector 1 is connected to the entity information input end of the wearable display device.
- the camera can be operated in different modes, for example by controlling the switches of the camera.
- the enabled mode the camera is turned on to acquire the entity information using the camera, and optionally, after the entity information is acquired, the entity information can also be directly sent to the wearable display device for display.
- the camera operating in the enabled mode at this time functions not only as a switch for causing the wearable display device to acquire the entity information, but also as an entity information collecting unit that provides the body information to the wearable display device.
- In blocking mode the camera is turned off and no entity information is obtained.
- the invertible color device When the collector 1 is an invertible color device, the invertible color device enables the wearable display device to acquire physical information in a transparent state, and prevents the wearable display device from acquiring physical information in an occlusion state (eg, an opaque state).
- the invertible color device can be controlled to switch between a transparent state and an occlusion state to operate the invertible color device in different modes.
- the enabled mode the invertible color device is converted into (ie, rendered) a transparent state, so that the wearable display device can acquire the entity information.
- the blocking mode the invertible color device is converted (ie, rendered) to an occlusion state, and thus the wearable display device cannot obtain the entity information.
- the wearable display device can acquire the entity information through the invertible color device when the invertible color device is in a transparent state, and cannot obtain the entity information through the invertible color device when the invertible color device is in the blocking state.
- the invertible color device can take various forms, such as a photochromic device, an electrochromic device, a thermochromic device, or a passive display panel; wherein the passive display panel can be a passive LCD display Panel or passive OLED.
- collector 1 is described as a camera or an invertible color device in the above embodiments, the collector may also select other types of suitable collectors according to actual needs.
- the display switching method 200 includes:
- the collector 1 is operated to operate in an enabling mode that enables the wearable display device to acquire entity information, or to prevent the wearable display device from acquiring a blocking mode of the entity information.
- the collector 1 can operate in different modes depending on the user's selection, or it can adaptively adapt its mode of operation to changes in the environment.
- step 220 it is determined which mode the collector operates in.
- determining display switching of the wearable display device based on the operation mode of the collector includes:
- step 240 when the collector 1 is operated in the enable mode by the first controller 3, the wearable display device is controlled to display the AR image according to the entity information, and
- step 250 the first controller 3 controls the wearable display device to display the VR image when the collector 1 is operating in the blocking mode.
- the display switching method provided by the embodiment of the present disclosure enables free switching between the AR display and the VR display, thereby enabling the wearable display device to be compatible with both the AR display and the VR display, thereby improving the user experience.
- sensors are used to monitor which mode the collector operates in to determine the mode of operation of the collector accordingly.
- the monitored mode of the collector or related information (such as the state of the camera switch or the transparency of the invertible color device) may be periodically transmitted by the sensor to the first controller, or may be queried upon receipt of the first controller The request is transmitted to the first controller.
- the sensor when the sensor monitors that the mode of the collector has changed, it immediately transmits the monitored mode to the first controller.
- the display switching method further includes using the second controller 4 to control the operating mode setting of the collector 1.
- the display switching method further includes:
- the second controller 4 notifies the first controller to send an AR display start to the wearable display device when the collector 1 is set to operate in an operation mode that enables the wearable display device to acquire the entity information.
- the second controller 4 notifies the first controller to transmit a VR display activation command to the wearable display device when the collector 1 is set to operate in an operation mode for preventing the wearable display device from acquiring the entity information.
- the operational mode setting of the collector 1 can be controlled by the second controller 4, for example, according to the user's selection.
- the wearable display device acquires the entity information by turning on the camera to acquire the entity information and transmitting the entity information acquired by the camera to the wearable display device. And prohibiting the wearable display device from acquiring the entity information by turning off the camera to stop acquiring the entity information.
- the wearable when the collector 1 in the display switching device is an invertible color device capable of switching between transparent and occluded states, the wearable is made by converting the invertible color device to a transparent state.
- the display device acquires the entity information; and prevents the wearable display device from acquiring the entity information by converting the invertible color device to the occlusion state.
- the display switching method according to the present disclosure is not limited to only the display switching devices mentioned above, but is also applicable to other types of display switching devices.
- FIG. 3 is a block diagram showing the structure of a wearable display device 300 according to an embodiment of the present disclosure.
- the wearable display device 300 includes a VR-type wearable display device body 6, an AR information processing unit 5, and a display switching device in accordance with the present disclosure, such as the display switching device 100 shown in FIG.
- the output terminals of the first controller 3 in the display switching device 100 are respectively connected to the control terminals of the AR information processing unit 5 and the control terminals of the VR-type wearable display device body 6.
- the image data output end of the AR information processing unit 5 is connected to the image signal input terminal of the image display unit 62 in the VR-type wearable display device body 6.
- the AR information processing unit acquires the entity information and generates AR image data based on the entity information, and displays the AR image through the image display unit.
- the VR-type wearable display device body 6 displays the VR image.
- the output end of the first controller 3 is connected to the control end of the AR information processing unit 5 and the control end of the VR-type wearable display device body 6 by the specific working process of the wearable display device described in the above embodiments.
- the first controller 3 is capable of controlling the AR information processing unit 5 and the VR-type wearable display device body 6 correspondingly based on the operation mode of the collector.
- the collector 1 operates in a mode that enables the wearable display device to acquire the entity information
- the first controller 3 controls the AR information processing unit 5 to activate to acquire the entity information.
- the AR information processing unit 5 can generate AR image data generated based on the entity information. Send to the image display unit 62 to pass It displays the AR image.
- the collector 1 is operating in a mode that prevents the wearable display device from acquiring the entity information
- the first controller 3 controls the VR-type wearable display device body 6 to initiate display to display the VR image. Therefore, the wearable display device provided in this embodiment is compatible with both AR display and VR display. The user can switch between the AR display and the VR display according to requirements, so that the user can view the AR image or the VR image without replacing the wearable display device, which greatly improves the user experience.
- the wearable display device of the above embodiment further includes a power supply unit located outside the viewing angle of the user, for each component of the wearable display device, including the collector 1, the first control The power supply unit 3, the AR information processing unit 5, the VR-type wearable display device body 6, and the like are powered.
- the power supply unit can be a solar power supply unit or a battery power supply unit.
- the solar energy can be continuously converted into electric energy to improve the endurance of the wearable display device while providing power to the wearable display device.
- the display switching device 300 further includes a sensor 2 and a second controller 4 that are located outside of the user's viewing angle range.
- the second controller 4 is used to control the operation mode setting of the collector 1.
- the collector 1 is connected to the input of the first controller 3 via a sensor 2.
- the output of the second controller 4 is connected to the collector 1. Since the output of the second controller 4 is connected to the collector 1, the user can use the second controller 4 to control the collector 1 to operate in an enabling mode that enables the wearable display device to acquire the entity information or to prevent the wearable display device from acquiring the entity.
- the blocking mode of the information is not limited to control the collector 1.
- the collector 1 is operable to cause the AR information processing module 5 to acquire entity information or to prevent the AR information processing module 5 and/or the VR-type wearable display device body 6 from acquiring entity information.
- the second controller 4 is further configured to notify the first controller of the set mode when the collector 1 is set to operate in a mode that causes the AR information processing unit 5 to acquire the entity information.
- the VR-type wearable display device body 6 transmits a VR display start command.
- the VR-type wearable display device body 6 may include a VR information processing unit 61 and an image display unit 62.
- the control end of the VR information processing unit 61 is connected to the output end of the first controller 3, so that the first controller 3 can control the VR information processing unit 61 quickly when the collector 1 operates in a mode that prevents the wearable display device from acquiring the entity information. start up.
- Image data output end of VR information processing unit 61 and image signal input end of image display unit 62 Connected, so that after the VR information processing unit 61 is activated, the VR image data can be transmitted to the image display unit 62 to display the VR image simulating the three-dimensional virtual environment to the user.
- Image display unit 62 can be implemented using any suitable display panel, such as an OLED display panel, an LCD display panel.
- the collector 1 can be implemented in a variety of ways.
- the collector 1 can be implemented as a camera or an invertible color device capable of switching between transparent and occluded states.
- the collector 1 When the collector 1 is a camera, the collector 1, that is, the entity information output end of the camera is connected to the entity information input end of the AR information processing unit 5. In this way, not only the entity information collection unit in the AR information processing unit 5 can be used to acquire the entity information, but also the entity information can be obtained indirectly by the collector 1.
- the entity information acquired by the collector 1 is sent to the AR information processing unit 5.
- the sensor can monitor the mode of operation of the collector, for example by monitoring whether the collector 1 is transmitting entity information to the AR information processing unit 5.
- the invertible color device can be switched between a transparent state and an occlusion state to allow the wearable display device to acquire entity information or to prevent the wearable display device from acquiring entity information.
- the sensor can monitor the mode of operation of the collector by monitoring the status presented by the collector.
- the collector 1 can be placed within the user's viewing angle range.
- the VR-type wearable display device body in the above embodiment may further include an image enlargement unit 63 for enlarging an AR image or a VR image to be presented to the user.
- the image magnifying unit 63 located within the user's viewing angle range may be selected to be increased according to actual needs. Since the image enlarging unit 63 can enlarge the entity information and the image displayed by the image display unit, it makes the user see more clearly, thereby improving the visual experience of the user.
- image magnification unit 63 is a pair of convex lenses.
- the pair of convex lenses are opposite to the user's eyes and the optical axes of the two convex lenses are between 3 and 5 degrees. In this way, the erect virtual image presented by the image after being enlarged by the convex lens can be better seen by the user.
- the image enlarging unit 63 is disposed within a user's viewing angle range, and the AR information processing unit 5, the VR information processing unit 61, and the image display unit 62 are all disposed outside the user's viewing angle range.
- the entity information can be obtained through the reversible color device.
- the first controller 3 can control the AR information processing unit 5 to acquire the entity information when, for example, the sensor 2 finds that the invertible color device is in a transparent state.
- the AR information processing unit 5 generates AR image data based on the entity information to display the AR image to the user through the image display unit 62.
- the first controller 3 can control the VR information processing unit 61 to acquire VR information when, for example, the sensor 2 finds that the invertible color device is in the occlusion state.
- the VR information processing unit 61 generates VR image data to display the VR image to the user through the image display unit 62.
- the reversible color device can allow the user to pass through the line of sight in the transparent state, thereby directly observing the entity information, and in the occlusion state, blocking the user's line of sight from passing, thereby blocking the wearable display device from acquiring the entity information.
- the collector 1, the invertible color device is placed within the user's viewing angle.
- the AR information processing unit 5, the VR information processing unit 61, and the image display unit 62 are all disposed outside the user's viewing angle range so as not to affect the user's viewing of the AR display or the VR display.
- the collector 1 is an invertible color device and the invertible color device is in a transparent state, for the user to see the entity information, the component that blocks the user's line of sight cannot appear. Therefore, the power supply unit, the second controller 4, the sensor 2, and the like mentioned in the above embodiments are all disposed outside the range of the user's viewing angle.
- the wearable display device includes the display switching device provided based on the above embodiments. While in the embodiment of the wearable display device presented above only some of the exemplary structures of the display switching device are described, it should be understood that the wearable display device in accordance with the present disclosure may also include any suitable structure of the display switching device.
- the wearable display device 300 can take a wide variety of forms, such as wearable glasses, wearable head coverings, and the like.
- the VR-type wearable display device body 6 may further include a frame 7, which includes a frame 71 and a temple 72 connected to the frame 71.
- the collector 1 When the collector 1 is a camera, the collector 1, the first controller 3, the second controller 4, and the AR information processing unit 5 may be disposed on the frame 7 of the VR-type wearable glasses body. Anywhere.
- the collector 1 When the collector 1 is an invertible color device capable of switching between a transparent state or an occlusion state, the AR information processing unit 5, the VR information processing unit 61, and the image display unit 62 are prevented from obstructing the user from seeing the entity information.
- the first controller 3 and the second controller are both disposed on the temple 72. These components are generally referred to in FIG. 6 by the electronic integration unit 8.
- the collector 1 can be provided as a lens in the frame 71.
- the image amplifying unit 63 is located within the viewing angle range of the user and is disposed in an area between the collector 1 and the user's eyes to ensure that the entity information can be enlarged by the image amplifying unit 63 after passing through the invertible color device in the transparent state. And then better seen by users.
- the image magnifying unit 63 can be coupled to the temple 72 or the frame 71 in an appropriate manner.
- FIG. 7 illustrates a method 700 for display for use in a wearable display device in accordance with the present disclosure, in accordance with an embodiment of the present disclosure.
- Method 700 includes:
- the collector 1 is operated to operate in an enabled mode that enables the wearable display device to acquire entity information, or to prevent the wearable display device from acquiring a blocking mode of the entity information.
- the collector 1 can operate in different modes depending on the user's selection, or it can adaptively adapt its mode of operation to changes in the environment.
- step 720 it is determined which mode the collector operates in. In some embodiments, this can be done by monitoring the sensor in the display device to monitor which mode the collector is operating in. The determination may be made periodically or triggered when an operational mode switch of the collector occurs.
- determining display switching of the wearable display device based on the operation mode of the collector includes:
- step 740 when it is determined that the collector 1 is operated to enable the wearable display device to acquire the enabled mode of the entity information, the first controller 3 controls the AR information processing unit of the wearable display device to generate AR image data according to the entity information to pass The image display unit displays an AR image;
- step 750 upon determining that the collector 1 is operating in a blocking mode that prevents the wearable display device from acquiring the entity information, the first controller 3 controls the VR-type wearable display device body 6 of the wearable display device to display the VR image.
- the VR image data is generated by controlling the VR information processing unit 61 of the VR-type wearable display device body 6 to display the VR image through the image display unit 62.
- the wearable display device acquires the entity information by turning on the camera to acquire the entity information and transmitting the acquired entity information to the AR information processing unit.
- the collector 1 in the wearable display device is an invertible color device capable of switching between transparent and occluded states
- the AR information processing unit 5 is allowed to pass through by converting it into a transparent state.
- the invertible color device acquires the entity information; and blocks the AR information processing unit 5 and/or the VR information processing unit 61 from acquiring the entity information by converting it into an occlusion state.
- the AR image and the entity information are presented to the user after being enlarged by the image enlarging unit, and in the occlusion state, the VR image is magnified in the image magnifying unit. Then present it to the user.
- the method 700 further includes using the sensor 2 to monitor which mode the collector 1 is operating in order to determine the mode of operation of the collector. In some embodiments, the method 700 further includes using the second controller 4 to control the operational mode setting of the collector 1 to cause the collector 1 to operate in a desired mode.
- the display switching of the wearable display device is also controlled based on the control of the second controller 4.
- the second controller 4 notifies the first controller to transmit the AR display to the AR information processing unit 5 when the collector 1 is set to operate in an operation mode that enables the wearable display device to acquire the entity information.
- the wearable display method provided by the embodiment of the present disclosure enables free switching between the AR display and the VR display, thereby enabling the wearable display device to be compatible with both the AR display and the VR display, thereby improving the user experience.
- 5-AR information processing unit 6-VR type wearable display device body
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Abstract
Description
Claims (20)
- 一种用于穿戴显示装置的显示切换装置,包括:采集器,其被配置为可操作于使得穿戴显示装置能获取实体信息的使能模式或阻止穿戴显示装置获取实体信息的阻止模式;和第一控制器,其被配置为基于采集器的操作模式来确定穿戴显示装置的显示切换,包括:在所述采集器操作于使能模式时,控制穿戴显示装置根据实体信息显示增强现实AR图像,而在所述采集器操作于阻止模式时,控制穿戴显示装置显示虚拟现实VR图像。
- 根据权利要求1所述的显示切换装置,还包括被配置为监控所述采集器操作于何种模式的传感器;且所述第一控制器被配置为基于所述传感器监控到的模式来确定所述采集器的操作模式。
- 根据权利要求1或2所述的显示切换装置,其中所述采集器为摄像头;且所述摄像头被配置为:在使能模式中开启以获取实体信息并向所述穿戴显示装置发送所获取的实体信息,而在阻止模式中关闭以停止获取和发送实体信息。
- 根据权利要求1或2所述的显示切换装置,其中所述采集器为能够在透明状态和遮挡状态间转换的可逆变色器件;且所述可逆变色器件被配置为:在使能模式中转换为所述透明状态,以使所述穿戴显示装置能透过该可逆变色器件获取实体信息,而在阻止模式中转换为所述遮挡状态,以阻止所述穿戴显示装置透过该可逆变色器件获取实体信息。
- 根据权利要求1所述的显示切换装置,还包括被配置为控制所述采集器的操作模式设置的第二控制器;且第二控制器在设置所述采集器使之操作于使能模式时,将所设置的使能模式通知给所述第一控制器以便向所述穿戴显示装置发送AR显示启动指令以显示AR图像,以及在设置所述采集器使之操作于阻止模式时,将所设置的阻止模式通知给所述第一控制器以便向所述穿戴显示装置发送VR显示启动指令以显示VR图像。
- 一种穿戴显示装置,包括:虚拟现实VR式穿戴显示装置本体,增强现实AR信息处理单元,以及如权利要求1-5之一所述的显示切换装置;其中所述采集器被配置为可操作于使得AR信息处理单元能获取实体信息的使能模式或阻止AR信息处理单元获取实体信息的阻止模式;和第一控制器,其被配置为基于采集器的操作模式来确定VR式穿戴显示装置本体的显示切换,包括:在所述采集器操作于使能模式时,控制VR式穿戴显示装置本体根据来自AR信息处理单元的实体信息显示AR图像,而在所述采集器操作于阻止模式时,控制VR式穿戴显示装置本体显示VR图像。
- 根据权利要求6所述的穿戴显示装置,其中所述采集器为摄像头,且所述摄像头被配置为在使能模式中开启以获取实体信息并向所述AR信息处理单元发送所获取的实体信息,而在阻止模式中关闭以停止获取和发送实体信息。
- 根据权利要求6所述的穿戴显示装置,其中所述VR式穿戴显示装置本体包括VR信息处理单元和图像显示单元;所述控制器被配置为在采集器操作于阻止模式中时控制所述VR信息处理单元生成VR图像数据以在所述图像显示单元上显示VR图像;以及所述采集器为能够在透明状态和遮挡状态间转换的可逆变色器件,且所述可逆变色器件被配置为在使能模式中转换为透明状态以使所述穿戴显示装置能透过该可逆变色器件获取实体信息,以及在阻止模式中转换为遮挡状态以阻止所述穿戴显示装置透过该可逆变色器件获取实体信息;其中所述采集器位于用户视角范围内,所述AR信息处理单元、所述VR信息处理单元和所述图像显示单元均位于用户的视角范围外。
- 根据权利要求8所述的穿戴显示装置,其中所述穿戴显示装置为可穿戴眼镜,所述穿戴显示装置中的VR式穿戴显示装置本体还包括镜架,所述镜架包括镜框和与所述镜框相连的镜腿;所述AR信息处理单元、所述VR信息处理单元、所述图像显示单元和所述第一控制器被设在所述镜腿上,而所述采集器作为镜片被设在所述镜框中。
- 根据权利要求9所述的穿戴显示装置,其中所述VR式穿戴显示装置本体还包括能够将实体信息和图像显示单元显示的图像放大的图像放大单元,所述图像放大单元位于用户的视角范围内,所述图像放大单元设在所述采集器和所述用户眼睛之间的区域。
- 根据权利要求6~10中任一项所述的穿戴显示装置,还包括被配置为控制所述采集器的操作模式设置的第二控制器;以及所述第二控制器还被配置为在设置所述采集器使之操作于使能模式时,将所设置的使能模式通知给所述第一控制器以便向所述AR信息处理单元发送AR显示启动指令以显示AR图像,以及在设置所述采集器使之操作于阻止模式时,将所设置的阻止模式通知给所述第一控制器以便向所述VR式穿戴显示装置本体发送VR显示启动指令以显示VR图像。
- 一种用于显示切换的方法,应用于权利要求1-5之一所述的显示切换装置,包括:运行采集器以使其操作于使得穿戴显示装置能获取实体信息的使能模式,或阻止穿戴显示装置获取实体信息的阻止模式;确定采集器操作于何种模式;以及基于采集器的操作模式来确定穿戴显示装置的显示切换,包括:当所述采集器操作于使能模式时,通过第一控制器控制穿戴显示装置根据所述实体信息显示AR图像;和当所述采集器操作于阻止模式时,通过第一控制器控制穿戴显示装置显示VR图像。
- 根据权利要求12所述的方法,还包括:基于用户的选择而通过第二控制器控制所述采集器的操作模式设置;以及当所述第二控制器设置所述采集器使之操作于使能模式时,将所设置的使能模式通知给所述第一控制器以便通过所述第一控制器向所述穿戴显示装置发送AR显示启动指令以显示AR图像;而当所述第二控制器设置所述采集器使之操作于阻止模式时,将所设置的阻止模式通知给所述第一控制器以便通过所述第一控制器向所述穿戴显示装置发送VR显示启动指令以显示VR图像。
- 根据权利要求12所述的方法,其中所述采集器为摄像头;所述方法还包括:在使能模式中,开启所述摄像头以获取实体信息且将实体信息发送给所述穿戴显示装置;以及在阻止模式中,关闭所述摄像头以停止获取和发送实体信息。
- 根据权利要求12所述的方法,其中所述采集器为能够在透明和遮挡两种状态间转换的可逆变色器件;所述方法还包括:在使能模式中,使所述可逆变色器件转换为所述透明状态以便使所述穿戴显示装置能透过可逆变色器件获取实体信息;而在阻止模式中,使所述可逆变色器件转换为所述遮挡状态以便阻止所述穿戴显示装置透过可逆变色器件获取实体信息。
- 一种用于显示的方法,被应用于权利要求6-11之一所述的穿戴显示装置,该方法包括:运行采集器以使其操作于使穿戴显示装置能获取实体信息的使能模式,或阻止穿戴显示装置获取实体信息的阻止模式;确定采集器操作于何种模式;以及基于采集器的操作模式来确定穿戴显示装置的显示切换,包括:当所述采集器操作于使能模式时,由AR信息处理单元获取实体信息且根据实体信息生成AR图像数据,以及通过所述第一控制器控制所述VR式穿戴显示装置本体根据来自AR信息处理单元的AR图像数据显示AR图像;和当所述采集器操作于阻止模式时,通过所述第一控制器控制VR式穿戴显示装置本体显示VR图像。
- 根据权利要求16所述的方法,其中所述采集器为摄像头,所述方法还包括:在使能模式中,开启所述摄像头以获取实体信息且将实体信息发送给所述AR信息处理单元;以及在阻止模式中,关闭所述摄像头以停止实体信息的获取和发送。
- 根据权利要求16所述的方法,其中所述采集器为能够在透明和遮挡两种状态间转换的可逆变色器件;以及所述方法还包括:在使能模式中,使所述可逆变色器件转换为所述透明状态以便使所述AR信息处理单元能透过可逆变色器件获取实体信息;而在阻止模式中,使所述可逆变色器件转换为所述遮挡状态以阻止所述AR信息处理单元透过可逆变色器件获取实体信息;以及控制所述VR式穿戴显示装置本体显示VR图像的步骤包括:控制所述VR式穿戴显示装置本体的VR信息处理单元生成VR图像数据以在所述VR式穿戴显示装置本体的图像显示单元上显示VR图像。
- 根据权利要求18所述的方法,其中所述显示AR图像的步骤还包括:通过所述VR式穿戴显示装置本体的图像放大单元放大在图像显示单元上显示给用户的所述AR图像和所述实体信息;以及所述显示VR图像的步骤还包括:通过所述图像放大单元放大在图像显示单元上显示给用户的所述VR图像。
- 根据权利要求16~19中任一项所述的方法,其中所述方法还包括:基于用户的选择,通过第二控制器来控制所述采集器的操作模式设置;以及当所述第二控制器设置所述采集器使之操作于使能模式时,将所设置的使能模式通知给所述第一控制器以便通过所述第一控制器向所述AR信息处理单元发送AR显示启动指令;而当所述第二控制器设置所述采集器使之操作于阻止模式时,将所设置的使能模式通知给所述第一控制器以便通过所述第一控制器向所述VR式穿戴显示装置本体发送VR显示启动指令。
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