{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9852712","patent":{"patent_number":"US-9852712","title":"System for synchronizing display of data transmitted wirelessly","assignee":null,"inventors":[],"filing_date":"2016-04-19T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["G09G","G06F","G06F","G09G"],"num_claims":8,"abstract":"A system for synchronizing displays of data transmitted wirelessly, the system includes a source device outputting a first video signal, a signal processing device connected to the source device, and a plurality of display devices connected to the signal processing device. The signal processing device transforms the first video signal to a second video signal. Display devices receive the second video signal from the signal processing device wirelessly and display the second video signal. The signal processing device includes a timer, the timer is configured to calculate a first time interval for transmitting a signal between the signal processing device and the display devices. The signal processing device transforms the first video signal in accordance with the first control signal, a footage of the second video signal is longer than the first time interval and a file size of the second video signal is smaller than the expected signal."},"analysis":{"summary":"The System for Synchronizing Display of Data Transmitted Wirelessly (US-9852712) is a patent for an innovative system designed to achieve seamless synchronization of visual content across multiple display devices connected wirelessly. The core innovation lies in its intelligent signal processing device, which acts as a central hub for video distribution.\n\nThis system addresses the pervasive problem of desynchronization and latency that often plagues wireless multi-display setups. Traditional methods struggle with varying network conditions, bandwidth limitations, and the inherent delays of wireless transmission, leading to choppy playback, visual inconsistencies, and a poor user experience. The invention seeks to overcome these challenges by proactively optimizing the video stream.\n\nThe key technical approach involves a signal processing device that receives an initial video signal from a source. Crucially, this device incorporates a timer configured to calculate the estimated time interval required for transmitting the signal wirelessly to the connected display devices. Armed with this real-time latency information, the signal processing device intelligently transforms the original video signal into an optimized version. The patent specifies that the 'footage' (temporal length) of this transformed video signal is strategically made longer than the calculated transmission time interval, while its 'file size' is simultaneously reduced to be smaller than what would typically be expected for that footage duration. This dual optimization creates a buffer against wireless delays and ensures efficient data transfer.\n\nFrom a business perspective, this technology offers significant value by enabling highly reliable and high-quality wireless multi-display solutions. It opens up new possibilities for dynamic digital signage, immersive live event experiences, collaborative workspaces, and advanced educational platforms where synchronized visual content is paramount. The system's ability to minimize installation complexity (by reducing the need for extensive wiring) and enhance the visual impact of distributed displays positions it for a wide range of commercial applications.\n\nThe market opportunity for such a system is substantial, spanning industries like advertising, entertainment, retail, corporate AV, and public information displays. By providing a robust and efficient solution to a long-standing technical hurdle, this innovation can drive greater adoption of flexible, wireless display networks, offering a clear competitive advantage to adopters and paving the way for more sophisticated visual communication strategies.","layman_explanation":"### What Problem Does This Solve?\n\nImagine you're at a large event, a retail store, or a corporate conference where multiple screens are displaying the same video content. If these screens are connected wirelessly, there's a common and frustrating problem: they often don't play in perfect unison. One screen might be slightly ahead, another a bit behind, or the video might stutter on some displays. This 'desynchronization' isn't just an annoyance; it can severely detract from the intended message, make a brand look unprofessional, and reduce the impact of dynamic visual content. Existing wireless solutions frequently struggle with the inherent delays (latency) and unpredictable nature of wireless signals, making it difficult to guarantee a perfectly coordinated visual experience without resorting to complex and expensive wired systems.\n\n### How Does It Work?\n\nThe **System for Synchronizing Display of Data Transmitted Wirelessly** patent introduces a clever solution. Think of it like a smart traffic controller for your video signals. Instead of just sending the video out and hoping for the best, this system uses a central 'signal processing device' that's incredibly intelligent. When it receives the original video, it first uses a built-in 'timer' to figure out exactly how long it's going to take for the video signal to travel wirelessly to all the different screens. This is like knowing the precise travel time for a package to reach multiple destinations.\n\nOnce it has this timing information, the system doesn't send the original video. Instead, it *transforms* it. It creates a new, optimized version of the video. The genius here is two-fold: First, it makes the 'footage' (the actual video content) effectively longer than the estimated wireless travel time. This creates a small buffer, ensuring that each screen always has a bit of video 'in reserve,' so even if there's a momentary wireless hiccup, the playback remains smooth and continuous. Second, it makes the 'file size' of this transformed video smaller than what you'd typically expect. By shrinking the data, the video travels much more efficiently and reliably through the wireless airwaves. It's like packing a large, heavy item into a much smaller, lighter box – it's easier and faster to ship.\n\n### Why Does This Matter?\n\nThis technology matters because it unlocks unprecedented reliability and flexibility for multi-screen applications. For businesses, it translates into significant advantages: imagine perfectly synchronized video walls in retail stores that captivate customers, seamless presentations across multiple screens in a boardroom that impress clients, or dynamic digital signage networks that can be easily deployed and updated without the mess and cost of extensive cabling. This system provides a robust solution for delivering high-impact visual experiences, enhancing brand perception, and improving operational efficiency. It enables companies to confidently embrace wireless display solutions for critical applications, ensuring a consistent and professional message across all visual touchpoints. The ability to guarantee synchronization wirelessly reduces installation time and cost, making sophisticated display setups more accessible and adaptable.\n\n### What's Next?\n\nThe **System for Synchronizing Display of Data Transmitted Wirelessly** is poised to become a foundational technology for a new generation of visual communication. We can expect to see its principles integrated into advanced digital signage platforms, next-generation event technology, and collaborative display systems. As wireless networks become even faster and more ubiquitous (e.g., 5G, Wi-Fi 6E), the demand for perfectly synchronized, high-quality content will only grow, making this patent increasingly relevant. Investment in companies leveraging this approach could yield significant returns as industries move towards more dynamic, flexible, and visually engaging wireless display solutions. This innovation paves the way for truly immersive and seamlessly integrated visual environments.","technical_analysis":"The System for Synchronizing Display of Data Transmitted Wirelessly, detailed in patent US-9852712, presents a sophisticated architecture for overcoming the inherent challenges of real-time, synchronized video distribution across multiple wireless display devices. This technical analysis will dissect the core components, algorithmic approach, and operational implications of this innovative system.\n\n**Technical Architecture:**\nAt its fundamental level, the system comprises three primary entities: a source device, a signal processing device, and a plurality of display devices. The source device originates a 'first video signal,' which can be any standard video stream. This signal is fed into the signal processing device. The signal processing device acts as the intelligent intermediary, responsible for optimizing and distributing the video. It is equipped with a crucial internal component: a 'timer.' The output of the signal processing device is a 'second video signal,' which is then transmitted wirelessly to multiple display devices. These display devices are responsible for receiving and rendering the second video signal.\n\n**Implementation Details & Algorithm Specifics:**\n1.  **Source to Signal Processor:** The connection between the source device and the signal processing device can be wired (e.g., HDMI, DisplayPort) or potentially a high-bandwidth wireless link, ensuring a high-fidelity input signal.\n2.  **Timer Configuration:** The timer within the signal processing device is not a simple clock. It is specifically 'configured to calculate a first time interval for transmitting a signal between the signal processing device and the display devices.' This implies an adaptive measurement or estimation process. It could involve:\n    *   **Probing and Latency Estimation:** Periodically sending small test packets to each connected display device and measuring Round Trip Time (RTT) to estimate one-way transmission delay.\n    *   **Network Condition Monitoring:** Analyzing wireless channel quality, congestion, and signal strength to dynamically adjust latency predictions.\n    *   **Device Capability Assessment:** Understanding the processing capabilities and buffering capacities of the connected display devices.\n3.  **Signal Transformation Logic:** This is the nexus of the innovation. The signal processing device 'transforms the first video signal to a second video signal in accordance with the first control signal.' The 'first control signal' likely represents a composite of the calculated time interval, current network conditions, and possibly content-aware parameters. The transformation adheres to two critical conditions:\n    *   **Footage Length Optimization:** 'a footage of the second video signal is longer than the first time interval.' This is a form of temporal buffering. By extending the perceived 'footage' (duration of content) beyond the actual transmission time, the system creates a temporal cushion. This allows the display devices to have a continuous stream of data even if there are micro-interruptions or variable latency in the wireless link, preventing visible stutters or drops. This could be achieved through intelligent re-encoding that slightly slows down playback or by ensuring sufficient data is always ahead of schedule.\n    *   **File Size Reduction:** 'a file size of the second video signal is smaller than the expected signal.' This indicates a highly efficient compression or data packaging algorithm. This reduction is crucial for minimizing bandwidth requirements, reducing transmission time, and improving overall wireless reliability. The compression must be intelligent enough to maintain visual quality while achieving the 'longer footage' criterion. This might involve advanced video codecs (e.g., HEVC, AV1) with adaptive quantization, content-aware encoding, or even frame-rate adjustments where permissible.\n4.  **Wireless Transmission:** The 'second video signal' is transmitted wirelessly to the plurality of display devices. The optimization performed by the signal processing device ensures that this wireless transmission is robust against typical wireless challenges.\n\n**Integration Patterns:**\nThe signal processing device could manifest as a dedicated hardware appliance (e.g., a commercial AV matrix switch with integrated intelligence), a software module running on a powerful server (for software-defined video networks), or even an integrated component within a smart display hub. Its output interface would be a wireless module (Wi-Fi, custom RF, 5G local network) capable of multicasting or unicasting to numerous receivers.\n\n**Performance Characteristics:**\nThe system aims for:\n*   **Near-perfect Synchronization:** Minimizing the visual lag between multiple displays to imperceptible levels.\n*   **Low Perceived Latency:** While there is an inherent transmission interval, the intelligent buffering ensures that playback on the display devices feels instantaneous and smooth.\n*   **High Bandwidth Efficiency:** Reduced file sizes mean more streams can be transmitted over limited wireless spectrum or less bandwidth is required per stream.\n*   **Robustness:** Greater resilience to wireless interference, packet loss, and network congestion due to the adaptive nature of the signal transformation.\n\n**Code-Level Implications:**\nDevelopers implementing this system would need expertise in:\n*   **Real-time Network Programming:** For latency measurement and network state monitoring.\n*   **Advanced Video Encoding/Transcoding:** Implementing adaptive compression algorithms that can manipulate footage duration and file size without significant quality degradation.\n*   **Digital Signal Processing (DSP):** For efficient manipulation of video data at a low level.\n*   **Wireless Communication Protocols:** Optimizing data packetization and transmission over various wireless standards.\n\nIn essence, this patent describes not just a transmission system, but an intelligent, adaptive video distribution engine designed to conquer the persistent synchronization challenges of wireless multi-display environments. For more detailed insights into the claims and technical specifications, refer to the full patent filing US-9852712.","business_analysis":"The System for Synchronizing Display of Data Transmitted Wirelessly (US-9852712) represents a significant leap in wireless display technology, carrying substantial commercial implications across a multitude of industries. This patent addresses a critical pain point in modern visual communication: achieving flawless, synchronized content delivery across multiple screens without the complexities and limitations of wired infrastructure.\n\n**Market Opportunity Size:** The global market for digital signage, professional AV, and event technology is vast and continuously expanding. Digital signage alone is projected to reach tens of billions of dollars in the coming years, driven by demand for dynamic advertising, public information, and immersive brand experiences. Within this, the sub-segment for multi-display and video wall solutions is a high-growth area. This technology directly targets this market, offering a superior wireless solution that can unlock new deployment scenarios previously hindered by cabling costs, installation complexity, and synchronization issues. The ability to easily deploy and manage perfectly synchronized wireless displays dramatically expands the addressable market for these solutions.\n\n**Competitive Advantages:** The core competitive advantage of this system lies in its intelligent, adaptive signal processing. Unlike many existing wireless video solutions that suffer from latency, frame drops, or desynchronization when scaling to multiple displays, this invention proactively optimizes the video stream based on real-time wireless transmission characteristics. By transforming the video signal to have a 'footage' longer than the transmission interval and a 'file size' smaller than expected, it effectively pre-buffers and efficiently transmits content, ensuring seamless synchronization. This provides a distinct edge over competitors relying on less sophisticated buffering or simple point-to-point wireless links. The reduction in cabling requirements also offers a significant advantage in terms of installation flexibility, speed, and cost, especially for temporary setups or environments where aesthetics are paramount.\n\n**Revenue Potential & Business Models:** This patent opens up several revenue streams.\n1.  **Hardware Sales:** The signal processing device itself could be a high-value hardware product sold to AV integrators, event companies, and digital signage providers.\n2.  **Software Licensing:** The proprietary algorithms for signal transformation and timing optimization could be licensed to existing display manufacturers or chipset providers.\n3.  **Service Offerings:** Companies could offer 'synchronized display as a service' for events, retail, or corporate installations, leveraging the technology for reliable, high-impact visual experiences.\n4.  **Integration into OEM Products:** The technology could be integrated into smart TVs, professional monitors, or media players, adding significant value and differentiation.\n\n**Strategic Positioning:** Companies adopting or licensing this technology can strategically position themselves as leaders in advanced wireless AV solutions. This allows them to move beyond commoditized hardware offerings to provide intelligent, value-added services. The System for Synchronizing Display of Data Transmitted Wirelessly enables a shift from reactive problem-solving (e.g., troubleshooting desynchronization) to proactive, reliable content delivery, enhancing brand reputation and customer satisfaction. It aligns perfectly with trends towards wireless connectivity, IoT integration in commercial spaces, and demand for dynamic, immersive visual environments.\n\n**ROI Projections:** For businesses investing in this technology, the ROI can be substantial. Reduced installation costs (no extensive cabling), faster deployment times, and fewer technical issues during operation lead to direct cost savings. More importantly, the ability to deliver flawless, synchronized content enhances audience engagement, improves brand messaging effectiveness, and supports higher-value applications (e.g., premium advertising spaces, critical control room displays). This increased effectiveness translates into higher revenue potential from advertising, ticket sales, or improved operational efficiency. The long-term value lies in establishing a dominant position in the increasingly competitive wireless display market through superior technical performance and reliability.","faqs":[{"answer":"The System for Synchronizing Display of Data Transmitted Wirelessly is an innovative patent (US-9852712) that describes a method and apparatus for achieving seamless, perfectly synchronized visual content across multiple display devices connected wirelessly. At its core, this invention aims to solve the common problem of lag and desynchronization that often occurs when video or data is transmitted over wireless networks to several screens simultaneously.\n\nThis system includes a source device that provides a video signal, a 'signal processing device' that acts as an intelligent intermediary, and a number of display devices that receive the content wirelessly. The unique aspect is how the signal processing device intelligently transforms the video signal to ensure all displays play content in perfect harmony, overcoming the inherent challenges of wireless transmission.\n\nEssentially, it's a smart technology designed to make multi-screen wireless setups as reliable and precise as traditional wired systems, but with all the flexibility and convenience of wireless connectivity. It's a significant advancement for any application requiring multiple screens to show synchronized content, from digital signage to live event production.\n\nKeywords: wireless display synchronization, multi-screen video, patent US-9852712, signal processing, synchronized content.","question":"What is System for Synchronizing Display of Data Transmitted Wirelessly?"},{"answer":"The System for Synchronizing Display of Data Transmitted Wirelessly operates through an intelligent, adaptive process centered around its 'signal processing device.' First, this device receives an initial video signal from a source. Crucially, it contains a 'timer' that is configured to calculate the precise time interval required for the signal to travel wirelessly from the processing device to each connected display.\n\nOnce this transmission time is estimated, the system doesn't just forward the raw video. Instead, it intelligently 'transforms' the original video signal into an optimized version. This transformation is key: the 'footage' (temporal length) of the new video signal is made strategically longer than the calculated transmission time interval, while its 'file size' is simultaneously reduced to be smaller than what would typically be expected for that duration.\n\nThis dual optimization ensures that displays always have enough buffered content to maintain smooth, continuous playback (even if wireless signals fluctuate) and that the data is transmitted efficiently over the wireless network. The result is a robust, proactive synchronization mechanism that delivers perfectly aligned visual content across all connected screens.\n\nKeywords: wireless synchronization mechanism, video signal transformation, adaptive content delivery, latency management, US-9852712 operation.","question":"How does System for Synchronizing Display of Data Transmitted Wirelessly work?"},{"answer":"The System for Synchronizing Display of Data Transmitted Wirelessly primarily solves the pervasive problem of desynchronization and latency in multi-display environments that rely on wireless data transmission. In traditional wireless setups, factors like network congestion, signal interference, varying distances to displays, and device processing differences can cause screens to fall out of sync, leading to choppy video, noticeable lag, and an overall fragmented visual experience.\n\nThis patent addresses the unreliability and complexity associated with achieving precise, frame-accurate synchronization across multiple wireless screens. It mitigates the need for extensive and costly wired infrastructure typically required for guaranteed synchronization, offering a flexible and efficient wireless alternative. By proactively optimizing the video stream, the invention ensures that all displays receive and render content in perfect harmony, enhancing professionalism and viewer engagement.\n\nThis solution is critical for industries where visual coherence is paramount, such as digital signage, live event production, corporate presentations, and educational displays. It removes a significant technical barrier to deploying dynamic, high-impact visual content wirelessly.\n\nKeywords: wireless display problems, video desynchronization, latency issues, multi-screen challenges, US-9852712 solution.","question":"What problem does System for Synchronizing Display of Data Transmitted Wirelessly solve?"},{"answer":"The patent US-9852712, titled System for Synchronizing Display of Data Transmitted Wirelessly, lists inventors, but their names are not provided in the abstract or description for this query. The assignee, which is the entity or company that owns the patent, is also not specified in the provided data. Typically, this information is found in the full patent document filed with the patent office.\n\nPatent filings usually credit individual inventors who conceived the innovation, and the assignee is often the company they work for or to whom they have assigned their rights. This structure encourages innovation within organizations and provides legal protection for new technologies.\n\nTo find the specific inventors and assignee, one would need to refer to the official patent document available through patent databases like the USPTO or Google Patents, using the patent number US-9852712.\n\nKeywords: patent inventors, patent assignee, US-9852712 details, patent ownership, invention credit.","question":"Who invented System for Synchronizing Display of Data Transmitted Wirelessly?"},{"answer":"The System for Synchronizing Display of Data Transmitted Wirelessly offers several compelling benefits that set it apart from conventional multi-display solutions:\n\n1.  **Seamless Synchronization:** The primary benefit is the ability to achieve perfectly synchronized visual content across multiple wirelessly connected displays, eliminating lag and desynchronization for a cohesive viewing experience.\n2.  **Enhanced Reliability:** By proactively adapting the video signal based on calculated transmission intervals, the system is more robust against wireless interference, network congestion, and variable latency, leading to fewer interruptions and higher uptime.\n3.  **Increased Flexibility and Reduced Complexity:** As a wireless solution, it drastically reduces or eliminates the need for extensive cabling, simplifying installation, reducing setup time, and allowing for dynamic reconfiguration of display layouts without physical infrastructure constraints.\n4.  **Optimized Bandwidth Usage:** The intelligent reduction of the video signal's file size ensures efficient use of wireless bandwidth, potentially allowing more streams or higher quality content to be transmitted over existing networks.\n5.  **Improved User Experience and Professionalism:** For applications like digital signage, live events, or corporate presentations, the flawless synchronization enhances audience engagement and projects a highly professional image.\n\nThese benefits collectively make the System for Synchronizing Display of Data Transmitted Wirelessly a powerful tool for modern visual communication.\n\nKeywords: wireless display benefits, synchronized video advantages, multi-screen reliability, flexible AV solutions, US-9852712 benefits.","question":"What are the key benefits of System for Synchronizing Display of Data Transmitted Wirelessly?"},{"answer":"The System for Synchronizing Display of Data Transmitted Wirelessly distinguishes itself from prior art through its innovative, proactive approach to managing wireless transmission challenges. Traditional methods for multi-display synchronization, especially wireless ones, often rely on reactive buffering or basic network timing protocols.\n\nPrior art often struggles with variable latency and bandwidth limitations, leading to visible desynchronization or significant end-to-end delays. Wired solutions offer high precision but lack flexibility and are costly. Basic wireless extenders offer convenience but no reliable synchronization across multiple units. More advanced IP-based systems use buffering, but this can introduce its own latency and still be susceptible to network fluctuations.\n\nIn contrast, this patent's 'signal processing device' actively calculates wireless transmission times and then *transforms* the video signal. Its key difference is the dual optimization: creating a video signal where the 'footage' is longer than the transmission interval (proactive temporal cushioning) and the 'file size' is smaller than expected (efficient bandwidth utilization). This intelligent, adaptive content transformation, performed *before* transmission, is a significant departure from reactive buffering and provides a superior, more reliable synchronization mechanism than previous technologies.\n\nKeywords: patent US-9852712 vs prior art, wireless synchronization innovation, adaptive video processing, multi-display differentiation, advanced AV technology.","question":"How is System for Synchronizing Display of Data Transmitted Wirelessly different from prior art?"},{"answer":"The System for Synchronizing Display of Data Transmitted Wirelessly has the potential to significantly impact a wide array of industries that rely on dynamic and synchronized visual content:\n\n1.  **Digital Signage and Advertising:** Revolutionizing video walls, interactive displays, and distributed advertising networks in retail, public spaces, and transportation hubs, allowing for seamless, dynamic content deployment.\n2.  **Live Events and Entertainment:** Enabling complex, large-scale video backdrops, stage designs, and distributed audience screens at concerts, sports events, and conferences with unprecedented flexibility and synchronization accuracy.\n3.  **Corporate and Education:** Enhancing boardroom presentations, collaborative workspaces, and interactive learning environments with perfectly synchronized multi-monitor setups.\n4.  **Broadcast and Professional AV:** Providing reliable wireless solutions for temporary setups, mobile broadcast units, and complex AV installations where cabling is impractical or undesirable.\n5.  **Command and Control Centers:** Ensuring critical information is displayed in perfect sync across multiple monitors, aiding rapid decision-making.\n\nBy overcoming the limitations of wireless synchronization, this technology will drive innovation and efficiency across these sectors, fostering new creative possibilities for visual communication.\n\nKeywords: industry impact US-9852712, digital signage industry, live events technology, corporate AV, education technology, wireless display applications.","question":"What industries will System for Synchronizing Display of Data Transmitted Wirelessly impact?"},{"answer":"The patent for the System for Synchronizing Display of Data Transmitted Wirelessly (US-9852712) was filed on **2016-04-19** (April 19, 2016). It was subsequently published on **2017-12-26** (December 26, 2017).\n\nThe filing date marks when the patent application was first submitted to the patent office, establishing its priority date. The publication date is when the patent document was made publicly available, allowing others to review the details of the invention. These dates are crucial for understanding the patent's timeline and its position within the landscape of technological development.\n\nKeywords: US-9852712 filing date, patent publication date, System for Synchronizing Display of Data Transmitted Wirelessly timeline, patent history.","question":"When was System for Synchronizing Display of Data Transmitted Wirelessly filed/granted?"},{"answer":"The commercial applications for the System for Synchronizing Display of Data Transmitted Wirelessly are extensive, driven by the increasing demand for dynamic and flexible visual solutions. Its ability to deliver perfectly synchronized content wirelessly opens up numerous opportunities:\n\n1.  **Retail & Advertising:** Creating captivating, synchronized video walls for storefronts, in-store promotions, and interactive brand experiences without visible wiring.\n2.  **Event Management:** Deploying large-scale, multi-screen displays for concerts, conferences, trade shows, and sporting events with rapid setup and breakdown, enhancing audience engagement.\n3.  **Hospitality:** Providing seamless digital menus, information boards, and entertainment systems across hotels, resorts, and cruise ships.\n4.  **Corporate & Education:** Facilitating advanced presentation systems, collaborative workspaces, and immersive learning environments with synchronized content sharing across multiple monitors.\n5.  **Transportation Hubs:** Implementing real-time, synchronized flight/train information displays, advertising, and public service announcements in airports, train stations, and bus terminals.\n6.  **Museums & Exhibitions:** Creating immersive, multi-screen exhibits that tell a cohesive story with perfectly aligned visuals.\n\nThis technology provides a reliable and cost-effective solution for deploying sophisticated visual content, enhancing customer experiences, and improving operational efficiency across these sectors.\n\nKeywords: commercial uses US-9852712, digital signage applications, event technology solutions, corporate display systems, retail AV, synchronized media.","question":"What are the commercial applications of System for Synchronizing Display of Data Transmitted Wirelessly?"},{"answer":"The System for Synchronizing Display of Data Transmitted Wirelessly lays a strong foundation for several exciting future developments in visual technology:\n\n1.  **Integration with AI and Machine Learning:** Future iterations could incorporate advanced AI to predict network conditions even more accurately, dynamically adjust video encoding based on content complexity and viewer demographics, and even self-optimize for energy efficiency across the display network.\n2.  **Edge Computing and Decentralization:** The 'signal processing device' intelligence could evolve to be more distributed, potentially residing closer to or even within the display devices themselves, creating a highly responsive, decentralized synchronization network with ultra-low latency.\n3.  **Support for Emerging Wireless Standards:** As new wireless technologies like Wi-Fi 7 and advanced 5G roll out, the system will adapt to leverage their higher bandwidth and lower latency capabilities, pushing synchronization precision to new levels.\n4.  **Augmented and Virtual Reality Integration:** The principles of precise wireless synchronization could extend to multi-user AR/VR experiences, ensuring perfectly aligned virtual objects and shared virtual spaces across multiple users.\n5.  **Interactive and Context-Aware Displays:** Beyond just synchronization, future systems could dynamically alter content based on real-time environmental data, audience interaction, or specific events, all delivered seamlessly across synchronized wireless displays.\n\nThis patent is a stepping stone towards a future where visual content is not only perfectly synchronized but also intelligently adaptive and omnipresent, creating truly immersive and responsive environments.\n\nKeywords: future US-9852712, wireless display evolution, AI in AV, edge computing displays, multi-screen future, adaptive content technology.","question":"What are the future developments expected for System for Synchronizing Display of Data Transmitted Wirelessly?"}],"topics":["wireless display synchronization","video signal processing","multi-display technology","digital signage","wireless data transmission","challenge","achieving","precise"],"tech_cluster":null},"seo":{"title":"Wireless Display Synchronization System - Patent US-9852712","description":"Discover the System for Synchronizing Display of Data Transmitted Wirelessly patent (US-9852712) for seamless multi-screen video sync. Solves lag and desynchronization with intelligent signal processing.","keywords":["wireless display synchronization","video signal processing","multi-display technology","digital signage","wireless data transmission","patent US-9852712","low latency video","adaptive streaming","synchronized video walls","AV technology","content delivery","display management"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9852712","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-9852712","citation_suggestion":"Patentable. \"System for synchronizing display of data transmitted wirelessly\" (US-9852712). https://patentable.app/patents/US-9852712","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9852712","json":"https://patentable.app/api/llm-context/US-9852712","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T03:53:59.012Z"}