{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9854271","patent":{"patent_number":"US-9854271","title":"Hybrid video coding supporting intermediate view synthesis","assignee":null,"inventors":[],"filing_date":"2016-09-06T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H04N","H04N","H04N","H04N","H04N","H04N","H04N","H04N","H04N","H04N","H04N","H04N","H04N","H04N","H04N","H04N","H04N"],"num_claims":6,"abstract":"Hybrid video decoder supporting intermediate view synthesis of an intermediate view video from a first- and a second-view video which are predictively coded into a multi-view data signal with frames of the second-view video being spatially subdivided into sub-regions and the multi-view data signal having a prediction mode is provided, having: an extractor configured to respectively extract, from the multi-view data signal, for sub-regions of the frames of the second-view video, a disparity vector and a prediction residual; a predictive reconstructor configured to reconstruct the sub-regions of the frames of the second-view video, by generating a prediction from a reconstructed version of a portion of frames of the first-view video using the disparity vectors and a prediction residual for the respective sub-regions; and an intermediate view synthesizer configured to reconstruct first portions of the intermediate view video."},"analysis":{"summary":"The Hybrid Video Coding Supporting Intermediate View Synthesis patent introduces a novel approach to decoding multi-view video, enhancing viewing experiences and data processing efficiency. The core innovation lies in its ability to synthesize intermediate views from first- and second-view videos through a hybrid approach. This technology addresses the growing demand for immersive video applications, such as virtual reality and 3D television, which often suffer from performance bottlenecks due to the computational complexity of rendering intermediate views. The key technical approach involves spatially subdividing frames of the second-view video into sub-regions and extracting disparity vectors and prediction residuals for each sub-region. A predictive reconstructor then uses this information to generate a prediction from a reconstructed version of a portion of frames of the first-view video. Finally, an intermediate view synthesizer reconstructs first portions of the intermediate view video. The business value and applications of this patent are significant. By reducing bandwidth requirements and improving visual quality, this technology can lower the cost of delivering multi-view video content and enhance the user experience. This has implications for various markets, including VR, AR, 3D television, and video streaming platforms. The market opportunity for this technology is substantial, as the demand for immersive video experiences continues to grow. The innovation's ability to efficiently generate intermediate views opens up new possibilities for interactive video experiences, where users can freely navigate and explore 3D environments. The Hybrid Video Coding Supporting Intermediate View Synthesis approach is poised to play a key role in shaping the future of video decoding and immersive video applications.","layman_explanation":"The Hybrid Video Coding Supporting Intermediate View Synthesis patent addresses a common problem in modern video technology: the efficient delivery of multi-view video content. Multi-view video, which is used in applications like 3D television and virtual reality, requires transmitting multiple video streams simultaneously. This places a significant strain on bandwidth resources and can lead to performance issues such as lag and choppy video. Existing solutions often fall short because they are not optimized for the specific challenges of multi-view video. They may require excessive bandwidth or produce lower-quality results. This patent offers a novel approach to solving this problem. Instead of simply transmitting all the video streams directly, it synthesizes intermediate views from a limited number of input streams. This reduces the amount of data that needs to be transmitted, thereby improving efficiency and performance. The system works by analyzing the differences between the input video streams and using this information to reconstruct the missing views. This is achieved through a combination of techniques, including disparity estimation and prediction residual coding. The result is a more efficient and visually appealing multi-view video experience. This technology matters because it has the potential to transform the way we consume multi-view video content. It can enable more immersive and interactive experiences while reducing the cost of delivering this content. This has implications for a wide range of industries, including entertainment, education, and healthcare. The market opportunity for this technology is substantial, as the demand for VR and 3D applications continues to grow. The competitive advantages of this technology include its ability to reduce bandwidth requirements, improve visual quality, and enable more interactive experiences. Potential ROI and business value are high, as this technology can be monetized through licensing agreements with video streaming platforms, VR/AR headset manufacturers, and other companies in the immersive video ecosystem. Future applications of this technology include integration into existing video streaming platforms, development of new VR/AR applications, and use in remote collaboration tools. The market adoption timeline for this technology is likely to be gradual, as it requires changes to existing video coding standards and infrastructure. However, the long-term investment implications are significant, as this technology has the potential to become a key enabler of the immersive video revolution.","technical_analysis":"The Hybrid Video Coding Supporting Intermediate View Synthesis patent presents a detailed system for efficiently decoding multi-view video data. The technical architecture centers around three key components: an extractor, a predictive reconstructor, and an intermediate view synthesizer. The extractor is configured to extract, from the multi-view data signal, disparity vectors and prediction residuals for sub-regions of the frames of the second-view video. This involves parsing the incoming bitstream and identifying the relevant data elements. The predictive reconstructor then reconstructs the sub-regions of the frames of the second-view video. This is achieved by generating a prediction from a reconstructed version of a portion of frames of the first-view video using the disparity vectors and the prediction residual for the respective sub-regions. This step leverages the correlation between the first- and second-view videos to reduce the amount of data that needs to be explicitly transmitted. The intermediate view synthesizer is responsible for reconstructing first portions of the intermediate view video. This involves interpolating between the reconstructed first- and second-view videos to generate the missing views. The implementation details of this system involve several key algorithms and techniques. Disparity estimation is used to determine the correspondence between pixels in the first- and second-view videos. Prediction residual coding is used to efficiently encode the difference between the predicted and actual pixel values. Intermediate view synthesis is used to generate the missing views based on the reconstructed first- and second-view videos. Integration patterns for this technology would involve incorporating it into existing video decoding pipelines. This could be achieved through software libraries or hardware accelerators. The performance characteristics of this system depend on several factors, including the accuracy of the disparity estimation, the efficiency of the prediction residual coding, and the quality of the intermediate view synthesis. Code-level implications would involve optimizing the algorithms for specific hardware platforms and ensuring that the system is compatible with existing video coding standards. The Hybrid Video Coding Supporting Intermediate View Synthesis approach offers a significant improvement in the efficiency and visual quality of multi-view video decoding.","business_analysis":"The Hybrid Video Coding Supporting Intermediate View Synthesis patent holds significant business potential within the rapidly expanding market for immersive video technologies. The market opportunity size for VR, AR, and 3D video is projected to reach billions of dollars in the coming years, driven by increasing consumer demand for more realistic and interactive experiences. This patent provides a competitive advantage by addressing a key challenge in this market: the efficient decoding of multi-view video data. The invention's ability to reduce bandwidth requirements and improve visual quality translates into significant cost savings for video streaming providers and enhanced user experiences for consumers. The revenue potential for this technology is substantial. It can be monetized through licensing agreements with video streaming platforms, VR/AR headset manufacturers, and other companies in the immersive video ecosystem. Potential business models include per-device licensing, subscription-based access, and revenue sharing arrangements. The strategic positioning of this patent is strong. It addresses a critical need in the market and offers a unique solution that is difficult to replicate. This gives the patent holder a strong negotiating position when licensing the technology. ROI projections for this technology are highly favorable. The cost of implementing this system is relatively low, while the potential revenue gains are significant. This makes it an attractive investment for companies looking to capitalize on the growth of the immersive video market. The Hybrid Video Coding Supporting Intermediate View Synthesis approach is well-positioned to capture a significant share of the immersive video market. Its ability to reduce bandwidth requirements, improve visual quality, and enable more interactive experiences makes it a valuable asset for companies looking to stay ahead of the curve.","faqs":null,"topics":["hybrid video coding","intermediate view synthesis","multi-view video decoding","video coding","VR","hybrid","video","coding"],"tech_cluster":null},"seo":{"title":"Hybrid Video Coding Supporting Intermediate View Synthesis - Patent US-9854271","description":"Discover how Hybrid Video Coding Supporting Intermediate View Synthesis enhances multi-view video decoding for VR/AR. Full patent analysis, claims, and technical details.","keywords":["hybrid video coding","intermediate view synthesis","multi-view video decoding","video coding","VR","AR","3D television","patent","patent US-9854271"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9854271","license":"CC-BY-4.0-like","license_terms":"AI-generated analysis on this page (summary, layman_explanation, technical_analysis, business_analysis, faqs) may be reused with attribution and a visible link back to the canonical URL above. Patent abstracts, claims, and bibliographic data are USPTO public domain.","required_link":"https://patentable.app/patents/US-9854271","citation_suggestion":"Patentable. \"Hybrid video coding supporting intermediate view synthesis\" (US-9854271). https://patentable.app/patents/US-9854271","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9854271","json":"https://patentable.app/api/llm-context/US-9854271","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-05-30T10:29:44.966Z"}