APPARATUS AND METHOD FOR BLENDING EXTRA OUTPUT PIXELS OF A FILTER AND DECODER-SIDE SELECTION OF FILTERING MODES

Organization Name

Nokia Technologies Oy

Inventor(s)

Jani Lainema of Tampere (FI)

[[:Category:Francesco Cricr� of Tampere (FI)|Francesco Cricr� of Tampere (FI)]][[Category:Francesco Cricr� of Tampere (FI)]]

Ramin Ghaznavi Youvalari of Tampere (FI)

Miska Matias Hannuksela of Tampere (FI)

Honglei Zhang of Tampere (FI)

Maria Claudia Santamaria Gomez of Tampere (FI)

Ruiying Yang of Tampere (FI)

APPARATUS AND METHOD FOR BLENDING EXTRA OUTPUT PIXELS OF A FILTER AND DECODER-SIDE SELECTION OF FILTERING MODES - A simplified explanation of the abstract

This abstract first appeared for US patent application 18470973 titled 'APPARATUS AND METHOD FOR BLENDING EXTRA OUTPUT PIXELS OF A FILTER AND DECODER-SIDE SELECTION OF FILTERING MODES

Simplified Explanation

The abstract describes a method for filtering and blending image or video blocks using input margins and other blocks.

• The method involves receiving an input extended block with an input block and input margins, filtering it to obtain a filtered extended block, and blending it with other blocks that overlap with the filtered margins.
• The blending operation is applied to overlapping pixels to create a seamless integration of the filtered block with the other blocks.

Potential Applications

This technology could be applied in image and video processing software for enhancing and blending different parts of images or video frames seamlessly.

Problems Solved

This technology solves the problem of blending filtered blocks with other blocks in a way that ensures a smooth transition and integration of different parts of images or video frames.

Benefits

The benefits of this technology include improved image and video quality, seamless blending of different elements, and enhanced visual appeal in processed images or video frames.

Potential Commercial Applications

A potential commercial application of this technology could be in video editing software, where users can apply advanced filtering and blending techniques to create professional-looking videos with seamless transitions.

Possible Prior Art

One possible prior art for this technology could be existing image or video processing algorithms that involve filtering and blending techniques, but may not specifically address the use of input margins and overlapping blocks in the blending process.

Unanswered Questions

How does this method compare to existing image or video processing techniques?

This article does not provide a direct comparison to existing techniques in the field of image or video processing. It would be helpful to understand the specific advantages or differences of this method compared to traditional methods.

What impact could this technology have on the field of computer vision?

The article does not discuss the potential implications of this technology on the broader field of computer vision. Exploring how this method could contribute to advancements in computer vision research and applications would be valuable.

Original Abstract Submitted

An example method includes: receiving an input extended block comprising an input block and input margins, wherein the input block is derived from an image or a video frame, and wherein the input block and the input margins are input to a filter, and wherein the input margins comprise pixels of the image or the video frame; filtering the input extended block to obtain a filtered extended block comprising a filtered block and filtered margins; receiving other blocks, wherein the other blocks are derived from the image or video frame, and wherein at least one pixel of the other blocks overlaps with at least one pixel of the filtered margins of the filtered extended block; and blending the filtered extended block with the other blocks, wherein an operation to blend the filtered extended block with the other blocks is applied to two or more overlapping pixels