ORIENTATION CALCULATION APPARATUS, ORIENTATION CALCULATION METHOD, IMAGING APPARATUS INCLUDING ORIENTATION CALCULATION APPARATUS, AND METHOD FOR CONTROLLING SAME

Organization Name

CANON KABUSHIKI KAISHA

Inventor(s)

MASAKI Yamauchi of Tokyo (JP)

ORIENTATION CALCULATION APPARATUS, ORIENTATION CALCULATION METHOD, IMAGING APPARATUS INCLUDING ORIENTATION CALCULATION APPARATUS, AND METHOD FOR CONTROLLING SAME - A simplified explanation of the abstract

This abstract first appeared for US patent application 18341135 titled 'ORIENTATION CALCULATION APPARATUS, ORIENTATION CALCULATION METHOD, IMAGING APPARATUS INCLUDING ORIENTATION CALCULATION APPARATUS, AND METHOD FOR CONTROLLING SAME

Simplified Explanation

The patent application describes an apparatus for calculating the orientation of a moving object using sensors and processors.

• The apparatus includes processors and memories that receive detection signals from two sensors.
• The first calculation determines the orientation of the moving object using the first sensor.
• The second calculation determines the orientation of the moving object using the second sensor.
• The determination of which calculation to use is based on certain criteria.
• The reference angle is updated when switching between the two calculations.

Potential Applications

This technology can have various applications in industries such as:

• Robotics: The apparatus can be used in robotic systems to accurately determine the orientation of the robots, enabling precise movements and navigation.
• Virtual Reality: The technology can be utilized in virtual reality systems to track the orientation of users' movements, enhancing the immersive experience.
• Augmented Reality: By accurately calculating the orientation of objects in the real world, this technology can improve the alignment and interaction of virtual objects in augmented reality applications.
• Gaming: The apparatus can be integrated into gaming consoles or controllers to provide more precise motion tracking for enhanced gameplay.

Problems Solved

The technology addresses several challenges related to orientation calculation:

• Accurate Orientation Determination: By using multiple sensors and calculations, the apparatus can provide more reliable and precise orientation information for moving objects.
• Switching between Sensors: The determination of which sensor to use for orientation calculation ensures that the most suitable sensor is utilized based on specific conditions or requirements.
• Synchronization and Reference Angle Update: The apparatus synchronizes the switching of calculations with the update of the reference angle, ensuring a smooth transition and maintaining accuracy.

Benefits

The technology offers several benefits:

• Improved Accuracy: By using multiple sensors and calculations, the apparatus can provide more accurate orientation information, reducing errors and improving overall performance.
• Flexibility: The ability to switch between sensors allows for adaptability to different situations or environments, ensuring optimal orientation calculation.
• Real-time Updates: The synchronization of calculation switching and reference angle update ensures that the orientation information is continuously updated in real-time.
• Enhanced User Experience: In applications such as virtual reality and gaming, the technology enhances the user experience by providing more precise and responsive orientation tracking.

Original Abstract Submitted

An orientation calculation apparatus includes one or more processors and one or more memories that are configured to obtain detection signals from a first and a second sensor configured to detect the movement of the moving apparatus; calculate, as a first calculation, first orientation information about the moving apparatus; calculate, as a second calculation, second orientation information about the moving apparatus; determine which calculation to calculate an orientation of the moving apparatus is used as a determination; and update the reference angle. The reference angle is updated in synchronization with a timing when the one or more processors and the one or more memories determine that a state where the determination is to be switched from a state where the orientation of the moving apparatus is calculated using the second calculation to a state where the orientation is calculated using the first calculation.