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 18340670 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 multiple sensors. Here are the key points:

• The apparatus includes processors, memories, and various units for obtaining and processing data.
• Two sensors are used to detect the movement of a moving apparatus.
• The first calculation unit calculates the orientation of the moving apparatus based on the output of the first sensor.
• The second calculation unit uses a different method to calculate the orientation based on the outputs of both sensors.
• The first determination unit determines the state of movement of the apparatus based on the output of the second sensor.
• The second determination unit determines the orientation of the apparatus based on the determination made by the first determination unit.

Potential applications of this technology:

• Robotics: This apparatus can be used in robotic systems to accurately determine the orientation of the robot, allowing for precise movements and navigation.
• Virtual Reality/Augmented Reality: The apparatus can be used in VR/AR systems to track the orientation of the user's head or body, providing a more immersive experience.
• Motion Capture: This technology can be utilized in motion capture systems to accurately capture and track the movements of actors or objects.

Problems solved by this technology:

• Accurate orientation calculation: By using multiple sensors and different calculation methods, this apparatus can provide more accurate and reliable orientation information.
• Real-time tracking: The ability to determine the state of movement and orientation in real-time allows for immediate feedback and adjustments in various applications.

Benefits of this technology:

• Improved precision: The use of multiple sensors and calculation methods enhances the accuracy of orientation calculations.
• Versatility: The apparatus can be applied to various moving objects and systems, providing flexibility in different applications.
• Real-time feedback: The ability to determine movement and orientation in real-time allows for immediate response and adjustments, improving overall performance.

Original Abstract Submitted

An orientation calculation apparatus includes one or more processors executing instructions in one or more memories to function as an obtaining unit, first and second calculation units, and first and second determination units. The obtaining unit obtains detection signals from a first and second sensor configured to detect movement of a moving apparatus. The first calculation unit calculates first orientation information about the moving apparatus based on an output of the first sensor. The second calculation unit calculates second orientation information about the moving apparatus by a method different from that for the first calculation unit based on the output of the first and second sensor. The first determination unit determines a state of movement of the moving apparatus based on the output of the second sensor. The second determination unit determines an orientation of the moving apparatus based on a result of determination made by the determination unit.