Company Filing History:
Years Active: 2025
Title: Vikas Warudkar: Innovator in Video Frame Encoding
Introduction
Vikas Warudkar is a notable inventor based in Herndon, VA (US). He has made significant contributions to the field of video encoding, holding a total of 2 patents. His work focuses on improving the efficiency and accuracy of video frame processing.
Latest Patents
Warudkar's latest patents include innovative methods for encoding and decoding video frames. The first patent, titled "Block vector predictor candidate selection," describes a technique where encoding and decoding of a video frame block is based on previously decoded reference blocks. This method utilizes a block vector (BV) that is encoded as a difference between a block vector predictor (BVP) and the BV. The selection of the BVP is based on its distance from other BVPs, which enhances the diversity of selected BVPs and improves prediction accuracy.
The second patent, "Intra block copy vector difference wrap around," involves a decoder that receives an indication of a block vector predictor (BVP) and a first block vector difference (BVD) for the current block. The decoder determines a second BVD based on the first BVD and checks if a location displaced from the current block is outside a reference region. It then calculates a block vector (BV) based on the second BVD and the BVP, ultimately reconstructing the current block using a reference block indicated by the BV.
Career Highlights
Throughout his career, Vikas Warudkar has worked with prominent companies such as Ofinno, LLC and Comcast Cable Communications, LLC. His experience in these organizations has allowed him to refine his skills and contribute to advancements in video technology.
Collaborations
One of his notable collaborators is Damian Ruiz Coll, with whom he has worked on various projects related to video encoding.
Conclusion
Vikas Warudkar's innovative patents and career achievements highlight his significant role in the field of video technology. His contributions continue to influence advancements in video frame encoding and decoding.