INTERACTIVE MIXED REALITY AUDIO TECHNOLOGY

Organization Name

Moea Technologies, Inc.

Inventor(s)

John Rowland Correia of Spokane WA (US)

Candy Lynn Correia of Spokane WA (US)

Justis Damon Simmons of Seattle WA (US)

Anastasia Andreyevna Tajik of Dover DE (US)

Zabi Khan of Dover DE (US)

INTERACTIVE MIXED REALITY AUDIO TECHNOLOGY - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240048934 titled 'INTERACTIVE MIXED REALITY AUDIO TECHNOLOGY

Simplified Explanation

The abstract describes techniques for implementing an Interactive Mixed Reality Audio (IMRA) system. Here are the bullet points explaining the patent/innovation:

• The IMRA system can store multiple sounds and receive sensor input.
• It can detect the occurrence of a fan event based on the received input.
• The system generates audio signals to create an audio environment based on the stored sounds and the detected occurrence of the event.
• An audio output is produced from the generated audio signals, representing the created audio environment.

Potential applications of this technology:

• Virtual reality gaming: The IMRA system can enhance the gaming experience by creating realistic audio environments based on the game events.
• Augmented reality applications: The system can generate audio cues and effects to enhance the user's perception of the augmented reality environment.
• Training simulations: The IMRA system can provide realistic audio feedback in training simulations, improving the immersive experience and effectiveness of the training.

Problems solved by this technology:

• Lack of immersive audio in virtual and augmented reality: The IMRA system addresses the challenge of creating realistic audio environments in these immersive technologies.
• Limited audio customization: The system allows for the creation of unique audio environments by combining different sounds and event detection.

Benefits of this technology:

• Enhanced user experience: The IMRA system provides a more immersive and realistic audio experience, enhancing the overall user experience in virtual and augmented reality environments.
• Improved training effectiveness: The realistic audio feedback in training simulations can improve the effectiveness of the training by providing a more immersive and engaging experience.
• Customizable audio environments: The system allows for the customization of audio environments, providing flexibility in creating unique and tailored experiences.

Original Abstract Submitted

techniques for implementing an interactive mixed reality audio (imra) system are described herein. in some examples, the imra system can store a plurality of sounds, receive sensor input, detect occurrence of fan event based on the input received, generate audio signals to create a created audio environment based on a sound of the plurality of sounds and the detected occurrence of the event; and produce an audio output from the generated audio signals, the audio output representing the created audio environment.