METHOD FOR ADJUSTING HEAD-MOUNTED DEVICE AND HEAD-MOUNTED DEVICE

Organization Name

Fu Tai Hua Industry (Shenzhen) Co., Ltd.

Inventor(s)

WEN-HUI Huang of Shenzhen (CN)

METHOD FOR ADJUSTING HEAD-MOUNTED DEVICE AND HEAD-MOUNTED DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240012259 titled 'METHOD FOR ADJUSTING HEAD-MOUNTED DEVICE AND HEAD-MOUNTED DEVICE

Simplified Explanation

The patent application describes a method for adjusting a head-mounted device. The method includes several phases such as pupil detection, deviation judging, display guiding, pupillary distance detection, and adjusting.

• Pupil detecting phase: This phase detects the two pupils of the user wearing the head-mounted device.
• Deviation judging phase: This phase determines whether the head-mounted device is worn with or without deviation.
• Display guiding phase: In this phase, a guiding picture is displayed on a first and second monitor to guide the user in adjusting the wearing of the head-mounted device.
• Pupillary distance detecting phase: This phase measures the pupillary distance of the user.
• Adjusting phase: In this phase, a first range corresponding to the pupillary distance is defined, and the distance between the first and second monitors is adjusted within this range. This ensures that the first monitor is aligned with one pupil and the second monitor is aligned with the other pupil, thereby increasing the visual range of the user and improving their experience.

Potential applications of this technology:

• Virtual reality (VR) headsets: The method can be applied to adjust the alignment of the display screens in VR headsets, providing a better viewing experience for users.
• Augmented reality (AR) glasses: By aligning the screens with the user's pupils, AR glasses can enhance the overlay of digital information onto the real world more accurately.

Problems solved by this technology:

• Misalignment: The method solves the problem of misalignment between the user's pupils and the display screens of the head-mounted device, ensuring a more comfortable and immersive experience.
• Limited visual range: By aligning the screens with the user's pupils, the method increases the visual range, allowing users to see a wider field of view.

Benefits of this technology:

• Improved user experience: By aligning the display screens with the user's pupils, the method enhances the visual experience, making it more immersive and comfortable.
• Accurate overlay of digital information: For AR glasses, aligning the screens with the user's pupils ensures that digital information is accurately overlaid onto the real world, improving the effectiveness of AR applications.

Original Abstract Submitted

a method for adjusting a head-mounted device comprises: a pupil detecting phase for detecting two pupils of user; a deviation judging phase for judging whether the head-mounted device is worn with or without deviation; a display guiding phase displaying a guiding picture by a first monitor and a second monitor to guide the user to adjust the wearing of the head-mounted device; a pupillary distance detecting phase for measuring the pupillary distance of the user; and an adjusting phase for defining a first range corresponding to the pupillary distance, and adjusting the distance between the first monitor and the second monitor within the first range, so that the first monitor is aligned with one pupil, and the second monitor is aligned with the other pupil, increasing the visual range of the user, thereby improving the user's experience. a head-mounted device using the method is also disclosed.