SCHEDULED SCENE MODIFICATION FOR EXTRACTION, PREPROCESSING, AND PUBLISHING OF STREAMING VIDEO DATA

Organization Name

Insight Direct USA, Inc.

Inventor(s)

Amol Ajgaonkar of Chandler AZ (US)

SCHEDULED SCENE MODIFICATION FOR EXTRACTION, PREPROCESSING, AND PUBLISHING OF STREAMING VIDEO DATA - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240040115 titled 'SCHEDULED SCENE MODIFICATION FOR EXTRACTION, PREPROCESSING, AND PUBLISHING OF STREAMING VIDEO DATA

Simplified Explanation

The patent application describes a method for modifying the preprocessing of incoming video data from a camera. The method involves receiving the video data and preprocessing it according to predefined parameters. The preprocessing includes formatting the video data to create a region of interest with a smaller field of view. The first video data is then published to an endpoint for access and processing by a subscriber. The method also includes altering the preprocessing parameters based on a time schedule to create second video data that is different from the first video data. The second video data is then published to the endpoint for access and processing by the subscriber.

• The method involves receiving and preprocessing video data from a camera.
• The preprocessing parameters are defined within a runtime configuration file.
• The preprocessing includes formatting the video data to create a region of interest with a smaller field of view.
• The first video data of the region of interest is published to an endpoint for access and processing by a subscriber.
• The preprocessing parameters are altered based on a time schedule.
• The altered parameters are used to create second video data that is different from the first video data.
• The second video data is published to the endpoint for access and processing by the subscriber.

Potential applications of this technology:

• Surveillance systems: The method can be used in surveillance systems to dynamically adjust the field of view and focus on specific regions of interest based on a time schedule.
• Video analytics: The method can be used in video analytics systems to preprocess video data and extract relevant information from specific regions of interest.
• Remote monitoring: The method can be used in remote monitoring systems to provide real-time access to video data from specific regions of interest.

Problems solved by this technology:

• Efficient preprocessing: The method allows for efficient preprocessing of video data by focusing on specific regions of interest, reducing the amount of data that needs to be processed.
• Dynamic adjustments: The method allows for dynamic adjustments of preprocessing parameters based on a time schedule, providing flexibility in capturing different video perspectives.
• Subscriber access: The method enables subscribers to access and process the video data of specific regions of interest, allowing for targeted analysis and monitoring.

Benefits of this technology:

• Improved efficiency: By preprocessing only the video data from specific regions of interest, the method improves the efficiency of video processing systems.
• Flexibility: The method allows for dynamic adjustments of preprocessing parameters, providing flexibility in capturing different video perspectives.
• Targeted analysis: Subscribers can access and process video data from specific regions of interest, enabling targeted analysis and monitoring.

Original Abstract Submitted

a method of scheduled modifications of preprocessing of incoming video data of at least one region of interest from a camera collecting video data having a first field of view includes receiving incoming video data from the camera and preprocessing the incoming video data, by a computer processor, according to preprocessing parameters defined within a runtime configuration file. the preprocessing includes formatting the incoming video data to create first video data of a first region of interest with a second field of view that is less than the first field of view. the method also include publishing the first video data of the first region of interest to an endpoint to allow access and processing by a subscriber; in response to a time schedule, altering the preprocessing parameters defined within the runtime configuration file dependent upon the time schedule to create second video data that is different from the first video data; and publishing the second video data to the endpoint to allow access and processing by the first subscriber.