20240037892. DYNAMICALLY CONFIGURED EXTRACTION, PREPROCESSING, AND PUBLISHING OF A REGION OF INTEREST THAT IS A SUBSET OF STREAMING VIDEO DATA simplified abstract (Insight Direct USA, Inc.)
DYNAMICALLY CONFIGURED EXTRACTION, PREPROCESSING, AND PUBLISHING OF A REGION OF INTEREST THAT IS A SUBSET OF STREAMING VIDEO DATA
Organization Name
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 20240037892 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 that focuses on a specific region of interest. The method involves receiving the video data, preprocessing it according to defined parameters, and formatting it to create video data of the region of interest with a narrower field of view. The processed video data is then published for access by a subscriber.
- The method preprocesses incoming video data from a camera.
- The preprocessing is done based on parameters defined in a configuration file.
- The preprocessing includes formatting the video data to create video data of a specific region of interest.
- The video data of the region of interest has a narrower field of view compared to the original video data.
- The processed video data is published for access by a subscriber.
Potential applications of this technology:
- Surveillance systems: The method can be used in surveillance systems to focus on specific areas of interest, such as entrances or high-security zones.
- Video analytics: The processed video data can be used for various video analytics applications, such as object detection or tracking within the region of interest.
- Remote monitoring: The method allows for efficient transmission and access of video data from a specific region of interest, enabling remote monitoring of critical areas.
Problems solved by this technology:
- Efficient data processing: The method reduces the amount of video data that needs to be processed by focusing on a specific region of interest, saving computational resources.
- Bandwidth optimization: By transmitting video data with a narrower field of view, the method reduces the amount of data that needs to be transmitted, optimizing bandwidth usage.
- Improved accessibility: The method allows for easy access to video data of a specific region of interest, making it more convenient for subscribers to monitor and analyze the desired areas.
Benefits of this technology:
- Enhanced surveillance capabilities: The method enables more focused surveillance by providing video data specifically tailored to a region of interest.
- Cost-effective solution: By reducing the amount of data processing and optimizing bandwidth usage, the method offers a cost-effective solution for video data preprocessing.
- Improved efficiency: The method streamlines the preprocessing and publishing of video data, improving overall system efficiency.
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.