{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9854279","patent":{"patent_number":"US-9854279","title":"Transport stream packet header compression","assignee":null,"inventors":[],"filing_date":"2015-09-08T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H04N","H04L","H04L","H04L","H04N","H04N","H04N","H04N","H04L"],"num_claims":4,"abstract":"A demultiplexer 630 routes only one or more transport stream packets with a single packet identifier value to each physical layer pipe. A header compression unit 620 replaces the packet identifier of the transport stream packet with a short packet identifier of one bit length indicating at least whether the transport stream packet is a NULL packet."},"analysis":{"summary":"Transport Stream Packet Header Compression is a patent filing that addresses the inefficiency of transmitting redundant header information in transport stream packets. The core innovation lies in replacing the packet identifier of the transport stream packet with a short packet identifier, typically a single bit, indicating whether the packet is a NULL packet. This approach significantly reduces the overhead associated with each packet, leading to improved bandwidth utilization. The problem being solved is the bandwidth consumption and latency associated with transmitting redundant header information in video streams. The key technical approach involves a demultiplexer that routes transport stream packets with a single packet identifier value to each physical layer pipe. A header compression unit then replaces the packet identifier with the short packet identifier. The business value and applications of this technology are significant, as it enables higher quality video streaming, improved user experiences, and increased capacity for broadcasting infrastructure. The market opportunity is substantial, as video streaming continues to dominate internet traffic, creating a growing need for efficient data transmission technologies. This innovation has the potential to transform the way video is delivered, enabling higher quality experiences and greater efficiency for both service providers and consumers. It also reduces processing requirements, leading to energy efficiency and reduced hardware costs. The market is primed for solutions that can optimize bandwidth usage and enhance the streaming experience, making Transport Stream Packet Header Compression a valuable asset.","layman_explanation":"Transport Stream Packet Header Compression addresses a common problem in video streaming and broadcasting: inefficient use of bandwidth. \n\n**1. What Problem Does This Solve?** (100-150 words)\nImagine sending letters where each envelope has a large, redundant return address, even though all the letters are going to the same place. This wastes space and makes the overall process slower. Similarly, in video streaming, data packets often contain repetitive header information, consuming valuable bandwidth. Existing solutions don't fully address this redundancy, leading to slower streaming speeds and higher data costs.\n\n**2. How Does It Work?** (200-300 words)\nThis technology works by minimizing the size of the header in each data packet. Think of it like replacing the full return address with a simple code or symbol indicating the destination. The system uses a clever method to identify and compress these headers, replacing the standard packet identifier with a shorter one. This short identifier, often just a single bit, signifies whether the packet contains actual data or is simply a placeholder. By removing this unnecessary baggage, the system can transmit more video data within the same bandwidth.\n\n**3. Why Does This Matter?** (150-200 words)\nThis innovation has significant implications for the video streaming industry. It allows streaming services to deliver higher quality video with less buffering, improving the user experience. It also enables broadcasters to transmit more channels within the same spectrum, increasing their capacity and revenue potential. For consumers, it means faster streaming speeds, lower data costs, and a more enjoyable viewing experience. The competitive advantages are clear: companies that adopt this technology can offer superior streaming services and gain a significant edge in the market.\n\n**4. What's Next?** (50-100 words)\nThe future applications of this technology are vast. As video streaming continues to grow, the need for efficient data transmission will become even more critical. This patent provides a foundation for further innovations in video compression and delivery. Market adoption is expected to increase as streaming services and broadcasters seek to optimize their infrastructure and improve the user experience. Investment in this technology could lead to significant returns as it becomes a standard in the video streaming industry.","technical_analysis":"Transport Stream Packet Header Compression offers a technical solution to the problem of inefficient bandwidth utilization in video streaming and broadcasting. The system architecture involves a demultiplexer that routes transport stream packets with a single packet identifier value to each physical layer pipe. The core innovation is the header compression unit, which replaces the standard packet identifier with a short packet identifier, typically a single bit. This bit indicates whether the packet is a NULL packet, allowing the system to significantly reduce the overhead associated with each packet. The implementation details involve careful synchronization between the transmitting and receiving devices to ensure accurate reconstruction of the original transport stream. The algorithm specifics involve a simple but effective method for identifying and compressing packet headers. The integration patterns involve seamless integration with existing transport stream protocols. The performance characteristics show a significant reduction in bandwidth consumption and latency. The code-level implications involve modifications to the transport stream encoding and decoding processes. This technology requires careful consideration of error handling and synchronization to ensure reliable data transmission. It also requires optimization for different video codecs and streaming protocols. The system can be implemented in hardware or software, depending on the specific application requirements. The choice of implementation will depend on factors such as performance, cost, and power consumption.","business_analysis":"Transport Stream Packet Header Compression presents a significant business opportunity in the rapidly growing video streaming and broadcasting market. The market opportunity size is substantial, as video streaming continues to dominate internet traffic, creating a growing need for efficient data transmission technologies. The competitive advantages of this technology include reduced bandwidth consumption, lower latency, and improved streaming quality. The revenue potential is significant, as this technology enables higher quality video streaming, improved user experiences, and increased capacity for broadcasting infrastructure. The business models that can be built around this technology include licensing, subscription services, and hardware integration. The strategic positioning of this technology is strong, as it addresses a critical need in the video streaming and broadcasting market. The ROI projections are favorable, as the technology offers a cost-effective solution for increasing capacity and improving the efficiency of video transmission infrastructure. This technology can be integrated into existing video streaming platforms and broadcasting systems, providing a seamless upgrade path for service providers. It can also be used to develop new video streaming services and applications that require efficient data transmission. The technology has the potential to disrupt the video streaming and broadcasting market by enabling higher quality video experiences and greater efficiency for both service providers and consumers. The technology can be used to create new business models, such as subscription services that offer higher quality video streaming at lower prices. It can also be used to develop new hardware products, such as video encoders and decoders that are optimized for this technology.","faqs":null,"topics":["video streaming","bandwidth optimization","header compression","transport stream","packet identifier","transport","stream","packet"],"tech_cluster":null},"seo":{"title":"Transport Stream Packet Header Compression - Patent US-9854279","description":"Discover how Transport Stream Packet Header Compression reduces bandwidth in video streaming. Full patent analysis, claims, and technical details.","keywords":["video streaming","bandwidth optimization","header compression","transport stream","packet identifier","patent","patent US-9854279"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9854279","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-9854279","citation_suggestion":"Patentable. \"Transport stream packet header compression\" (US-9854279). https://patentable.app/patents/US-9854279","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9854279","json":"https://patentable.app/api/llm-context/US-9854279","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-05-30T10:18:40.293Z"}