AUDIO VIDEO RECEIVER (AVR) ARCHITECTURE

Organization Name

Lenbrook Industries Limited

Inventor(s)

Gregory R. Stidsen of Andover MA (US)

Jens Torben Sonderskov of Toronto (CA)

Taresh Vadgama of Pickering (CA)

Kevin Groeneveld of Bowmanville (CA)

AUDIO VIDEO RECEIVER (AVR) ARCHITECTURE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240284001 titled 'AUDIO VIDEO RECEIVER (AVR) ARCHITECTURE

The abstract describes an AVR device that connects audio and video source devices to rendering devices, with a front panel user interface integrated into the housing. Input-output modules are connected to a backplane board to link source and rendering devices, including at least one network interface. System-on-modules decode and process audio and video data, execute an operating system for GUI display, and a video subsystem module routes data between modules and IO.

• AVR device connects audio and video source devices to rendering devices
• Front panel user interface with display integrated into housing
• Input-output modules linked to backplane board for device connections
• System-on-modules decode and process audio and video data
• Video subsystem module routes data between modules and IO

Potential Applications: - Home entertainment systems - Professional audio/video production studios - Conference room audio/video setups

Problems Solved: - Simplifies the connection and management of audio and video devices - Provides a user-friendly interface for controlling audio and video setups

Benefits: - Streamlined audio and video device connectivity - Enhanced user experience with GUI display - Efficient data processing and routing capabilities

Commercial Applications: Title: "Advanced Audio/Video Device for Seamless Connectivity" This technology can be used in home entertainment systems, professional audio/video production studios, and conference room setups to enhance audio and video connectivity and user control.

Questions about AVR Devices: 1. How does the integration of a front panel user interface improve user experience?

  - The front panel user interface allows for easy control and management of audio and video devices without the need for additional external interfaces.

2. What are the key advantages of using system-on-modules for decoding and processing audio and video data?

  - System-on-modules provide efficient processing capabilities and enable seamless data handling for audio and video rendering.

Original Abstract Submitted

an avr device in accordance with one or more embodiments connects audio and video source devices to audio and video rendering devices. a front panel user interface including a display is integrated in the housing of the avr device. input-output (io) modules are coupled to a backplane board in the housing to be connected to the source devices and the rendering devices. the io modules include at least one network interface. system-on-modules (soms) are mounted on the backplane board. the soms are configured to decode and process audio and video data received from the audio and video source devices for rendering by the audio and video rendering devices and execute an operating system generating a gui displayed on the display of the front panel user interface. a video subsystem module on the backplane board is configured to route the audio and video data between the plurality of soms and the io modules.