{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9854325","patent":{"patent_number":"US-9854325","title":"Limp-home operation of audio video bridging networks","assignee":null,"inventors":[],"filing_date":"2014-06-16T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H04N","H04L","H04L"],"num_claims":20,"abstract":"Electronic modules in a vehicle may communicate over an Audio/Video Bridging (AVB) network. The modules normally cooperate to send and receive streams of data with a specified quality of service as AVB streams. When conditions are present in which an AVB-quality stream cannot be sent over the network, the modules can communicate with certain limp-home functionality. Sending modules may send streams of data without a stream reservation as multicast messages. Receiving modules may be configured to receive the multicast messages. Network bridge modules may be configured to enable a Talker Pruning feature to facilitate handling of the multicast messages."},"analysis":{"summary":"The Limp-home Operation of Audio Video Bridging Networks patent addresses the critical issue of maintaining communication in automotive networks when the primary network experiences failures. The core innovation lies in enabling electronic modules to communicate using multicast messages without requiring a stream reservation, effectively providing a 'limp-home' mode for essential data transmission. This approach solves the problem of potential data loss and system failures that can occur when Audio/Video Bridging (AVB) networks, commonly used in vehicles, encounter disruptions. The technology involves configuring sending modules to transmit data as multicast messages and receiving modules to listen for these messages, with network bridge modules employing a 'Talker Pruning' feature to manage message flow. The business value is significant, as it enhances the safety and reliability of modern vehicles by ensuring that critical functions, such as braking and steering, can continue operating even in degraded network conditions. This translates to a competitive advantage for automotive manufacturers and opens up market opportunities in safety-critical applications and advanced driver-assistance systems (ADAS). The invention promotes a more resilient and fault-tolerant approach to automotive electronic system design, which can be extended to other industries where reliable communication is paramount, such as industrial automation and aerospace. The market opportunity lies in the increasing demand for safer and more reliable vehicles, driven by advancements in autonomous driving and connected car technologies. This patent enhances the overall performance of automotive systems and provides a critical safety net for drivers and passengers.","layman_explanation":"The Limp-home Operation of Audio Video Bridging Networks patent addresses a critical problem in modern vehicles: ensuring that essential systems continue to function even when the car's internal communication network experiences issues. Today's cars rely on complex networks to coordinate everything from entertainment systems to critical safety features like braking and steering. If this network fails, it can lead to a loss of control and potentially dangerous situations.\n\n**1. What Problem Does This Solve?**\nImagine your car's brain (the network) suddenly stops working. The radio might cut out, but more importantly, critical systems like the brakes or steering could be affected. Existing solutions often lack a robust backup plan, leaving drivers vulnerable in the event of a network failure. The patent solves this by creating a 'limp-home' mode that keeps essential communication channels open.\n\n**2. How Does It Work?**\nThink of your car's network as a set of highways where information travels. Normally, information travels on specific, reserved lanes to ensure it gets there quickly and reliably. But if there's a traffic jam (a network failure), these lanes become blocked. This patent creates a new system where information can travel as a 'multicast message,' like a broadcast sent to everyone who needs it, regardless of the blocked lanes. It's like switching from a direct phone call to a group text message during an emergency. The car switches to this mode automatically when it detects a problem, ensuring that critical systems still receive the information they need to function.\n\n**3. Why Does This Matter?**\nThis technology has a huge impact on vehicle safety and reliability. By ensuring that critical systems continue to operate even in degraded network conditions, it reduces the risk of accidents and increases driver confidence. This translates to a competitive advantage for car manufacturers who can offer safer and more reliable vehicles. The market opportunity is vast, as it applies to all modern vehicles that rely on complex communication networks. The potential ROI is significant, as it reduces the risk of costly recalls and warranty claims associated with network failures.\n\n**4. What's Next?**\nFuture applications of this technology could include integration with autonomous driving systems and advanced driver-assistance systems (ADAS). As cars become increasingly reliant on these systems, the need for reliable communication networks will become even more critical. The market adoption timeline is expected to be relatively short, as car manufacturers are already actively seeking solutions to improve network reliability. Investment implications are positive, as this technology has the potential to generate significant revenue for both car manufacturers and technology providers.","technical_analysis":"The Limp-home Operation of Audio Video Bridging Networks patent presents a robust solution for maintaining communication in automotive networks during periods of network degradation. The technology centers around the implementation of a 'limp-home' mode, which allows electronic modules to communicate using multicast messages in the absence of stream reservations. This approach addresses the inherent vulnerability of Audio/Video Bridging (AVB) networks to failures that can disrupt critical data streams.\n\nThe technical architecture involves configuring sending modules to transmit data as multicast messages, bypassing the normal stream reservation process. Receiving modules are configured to listen for these messages, enabling them to receive critical data even without a dedicated stream. Network bridge modules are configured to enable a 'Talker Pruning' feature, which optimizes the flow of multicast messages by preventing network congestion. The implementation details involve careful consideration of multicast message reliability, traffic management, and fault detection mechanisms.\n\nFrom an algorithmic perspective, the Talker Pruning feature plays a crucial role in managing network congestion. This feature dynamically adjusts the flow of multicast messages based on network conditions and module requirements. The system prioritizes critical data streams to ensure that essential functions, such as braking and steering, continue to operate even in degraded network conditions. The integration patterns involve seamless switching between normal AVB operation and limp-home mode based on real-time network monitoring.\n\nPerformance characteristics are optimized for low latency and high reliability. The system employs error correction codes and redundancy mechanisms to mitigate the inherent unreliability of multicast messages. The code-level implications involve modifications to the network stack and device drivers to support multicast messaging and Talker Pruning functionality. The system is designed to be compatible with existing AVB standards, minimizing the need for extensive hardware and software modifications.\n\nThe technology has significant implications for the design and development of automotive electronic systems. It promotes a more resilient and fault-tolerant approach to network design, which is essential for ensuring the safety and reliability of modern vehicles. The system can be extended to other types of networks and applications where reliable communication is critical, such as industrial automation and aerospace. The implementation of this technology requires a deep understanding of network protocols, embedded systems, and real-time operating systems. Further research is needed to optimize the performance and scalability of the system for large-scale automotive networks.","business_analysis":"The Limp-home Operation of Audio Video Bridging Networks patent presents a significant business opportunity in the automotive industry. The technology addresses the growing need for reliable communication networks in modern vehicles, driven by the increasing complexity of electronic systems and the rise of autonomous driving. The market opportunity size is substantial, as it encompasses the entire automotive industry, including passenger cars, commercial vehicles, and electric vehicles.\n\nThe competitive advantages of this technology are numerous. It enhances the safety and reliability of vehicles by ensuring that critical functions can continue operating even in degraded network conditions. This translates to a competitive advantage for automotive manufacturers who can offer safer and more reliable vehicles to consumers. The technology also reduces the risk of product recalls and warranty claims associated with network failures.\n\nThe revenue potential is significant, as automotive manufacturers can license this technology to improve the performance and reliability of their vehicles. The business model involves licensing the patent to automotive manufacturers and suppliers. The strategic positioning of this technology is in the safety-critical applications and advanced driver-assistance systems (ADAS) segments of the automotive market.\n\nThe ROI projections are favorable, as the cost of implementing this technology is relatively low compared to the potential benefits. The implementation costs are primarily related to software development and testing. The benefits include increased safety, reduced warranty costs, and enhanced brand reputation. The market opportunity is driven by the increasing demand for safer and more reliable vehicles. The technology can be extended to other industries where reliable communication is critical, such as industrial automation and aerospace. The patent provides a strong barrier to entry for competitors, as it protects the core innovation of using multicast messages for limp-home operation. The key risks include potential challenges to the patent validity and the emergence of alternative technologies. The overall business impact of this patent is positive, as it enhances the safety and reliability of vehicles and creates new business opportunities for automotive manufacturers and suppliers.","faqs":null,"topics":[],"tech_cluster":null},"seo":{"title":"Limp-home operation of audio video bridging networks","description":"Electronic modules in a vehicle may communicate over an Audio/Video Bridging (AVB) network. The modules normally cooperate to send and receive streams of data with a specified quality of service as AV","keywords":[]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9854325","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-9854325","citation_suggestion":"Patentable. \"Limp-home operation of audio video bridging networks\" (US-9854325). https://patentable.app/patents/US-9854325","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9854325","json":"https://patentable.app/api/llm-context/US-9854325","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-05-31T14:47:02.864Z"}