18629165. IMAGING APPARATUS AND CONTROL METHOD THEREFOR simplified abstract (CANON KABUSHIKI KAISHA)
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IMAGING APPARATUS AND CONTROL METHOD THEREFOR
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IMAGING APPARATUS AND CONTROL METHOD THEREFOR - A simplified explanation of the abstract
This abstract first appeared for US patent application 18629165 titled 'IMAGING APPARATUS AND CONTROL METHOD THEREFOR
The abstract describes an imaging apparatus with a display unit that can be turned with respect to the main body unit. It includes sensors to detect gravity accelerations on both the main body unit and the display unit, an angle calculation unit to determine posture angles, and a display switching unit to change the display state based on these angles.
- The imaging apparatus includes a display unit and a turning unit for adjusting its position.
- It has sensors to detect gravity accelerations on the main body unit and the display unit.
- An angle calculation unit determines posture angles based on the gravity accelerations.
- A display switching unit changes the display state according to the posture angles.
Potential Applications: - Medical imaging devices - Virtual reality systems - Augmented reality applications
Problems Solved: - Ensuring accurate display orientation - Enhancing user experience in interactive displays
Benefits: - Improved user interaction - Enhanced display performance - Accurate image rendering
Commercial Applications: Title: Advanced Imaging Systems for Enhanced User Experience This technology can be used in medical imaging equipment, virtual reality headsets, and other display systems to provide a more intuitive and user-friendly experience. It can also be applied in gaming consoles and entertainment devices for enhanced gameplay.
Prior Art: Researchers can explore existing patents related to imaging apparatus with adjustable displays and gravity sensors to understand the evolution of this technology.
Frequently Updated Research: Researchers are constantly working on improving the accuracy and efficiency of posture angle calculations in imaging apparatus to enhance user experience and display performance.
Questions about Imaging Apparatus with Adjustable Display and Gravity Sensors: 1. How does the angle calculation unit determine posture angles accurately? The angle calculation unit uses data from the first and second acceleration sensors to calculate the posture angles of the display unit and the main body unit.
2. What are the potential challenges in implementing this technology in different applications? The challenges may include calibration issues, sensor accuracy, and software integration to ensure seamless operation across various devices and environments.
Original Abstract Submitted
An imaging apparatus includes a display unit, a turning unit configured to turnably hold the display unit with respect to the main body unit, a first acceleration sensor configured to detect a first gravity acceleration applied to the main body unit, a second acceleration sensor configured to detect a second gravity acceleration applied to the display unit, an angle calculation unit configured to calculate posture angles of the display unit and the main body unit from the gravity accelerations acquired from the first acceleration sensor and the second acceleration sensor, and a display switching unit configured to switch a display state of the display unit by determining the display state of the display unit based on the posture angles calculated by the angle calculation unit, wherein it is determined whether to switch the display state of the display unit, based on the display state determined by the display switching unit.