DYNAMICALLY CONFIGURED EXTRACTION, PREPROCESSING, AND PUBLISHING OF A REGION OF INTEREST THAT IS A SUBSET OF STREAMING VIDEO DATA

Organization Name

Insight Direct USA, Inc.

Inventor(s)

Amol Ajgaonkar of Chandler AZ (US)

DYNAMICALLY CONFIGURED EXTRACTION, PREPROCESSING, AND PUBLISHING OF A REGION OF INTEREST THAT IS A SUBSET OF STREAMING VIDEO DATA - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240037893 titled 'DYNAMICALLY CONFIGURED EXTRACTION, PREPROCESSING, AND PUBLISHING OF A REGION OF INTEREST THAT IS A SUBSET OF STREAMING VIDEO DATA

Simplified Explanation

The abstract describes a method for preprocessing video data from a camera to create a smaller region of interest with a reduced field of view. The method involves receiving the video data, preprocessing it according to defined parameters, and publishing the processed data for access by a subscriber.

• The method preprocesses incoming video data from a camera.
• The preprocessing is done by a computer processor based on predefined parameters.
• The preprocessing includes formatting the video data to create a smaller region of interest.
• The smaller region of interest has a reduced field of view compared to the original video data.
• The first video data of the region of interest is published for access by a subscriber.

Potential Applications:

• Surveillance systems: The method can be used to focus on specific areas of interest within a larger field of view, improving the efficiency of surveillance systems.
• Video analytics: By preprocessing the video data to extract relevant regions of interest, the method can enhance video analytics algorithms for object detection, tracking, and analysis.
• Video streaming: The method allows for the efficient transmission of video data by reducing the size of the region of interest, making it suitable for real-time video streaming applications.

Problems Solved:

• Efficient data processing: By preprocessing the video data and focusing on specific regions of interest, the method reduces the amount of data that needs to be processed, improving computational efficiency.
• Bandwidth optimization: The reduced field of view and smaller region of interest help optimize bandwidth usage, especially in scenarios where limited network resources are available.
• Privacy protection: The method allows for the exclusion of irrelevant areas from the published video data, ensuring privacy by only sharing necessary information.

Benefits:

• Improved efficiency: The method reduces the computational load by processing only the relevant regions of interest, leading to improved system performance.
• Enhanced video analysis: By focusing on specific areas, the method improves the accuracy and effectiveness of video analytics algorithms.
• Bandwidth savings: The reduced data size and optimized field of view result in reduced bandwidth requirements, enabling cost-effective video transmission and storage.
• Privacy preservation: The method ensures that only necessary video data is shared, protecting the privacy of individuals and reducing the risk of unauthorized access.

Original Abstract Submitted

a method of preprocessing incoming video data of at least one region of interest from a camera collecting video data having a first field of view is disclosed herein that includes receiving the incoming video data from the camera; preprocessing the incoming video data, by a computer processor, according to preprocessing parameters defined within a runtime configuration file, with the preprocessing including 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; and publishing the first video data of the first region of interest to an endpoint to allow access by a first subscriber.