{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9852766","patent":{"patent_number":"US-9852766","title":"User interface for syncronizing audio with video data","assignee":null,"inventors":[],"filing_date":"2015-12-22T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["G11B","G06F","G11B","G11B","G11B"],"num_claims":10,"abstract":"A method for recording voice samples for video rendered on an electronic device including a display unit and a microphone. The video includes image data and voice data, and the voice data has one or more time intervals when the voice data is to be rendered with corresponding image data. The method is executed by a processor of the electronic device and includes displaying on the GUI a videoplayer element and a graphical or progress element representing progress of the video, the progress element including one or more selectable elements, each being associated to a time interval of the voice data and positioned on the progress element according to the time interval. When a user selection is received on a first selectable element, the microphone records sound data while the video player element is simulataneously played. The image data corresponds to the time interval associated to the first selectable element."},"analysis":{"summary":"The patent titled \"User Interface for Syncronizing Audio with Video Data\" (US-9852766) introduces a core innovation: an intuitive method for recording voice samples directly in sync with specific video segments on an electronic device. This system addresses the common problem of complex and time-consuming audio-video synchronization in content creation.\n\nAt its heart, the technical approach involves a graphical user interface (GUI) that displays a video player alongside a unique progress element. This progress element is enhanced with one or more 'selectable elements,' each precisely associated with a distinct time interval of the video's voice data. These elements are intelligently positioned on the progress bar according to their corresponding time intervals, offering a visual map for content creators.\n\nWhen a user selects one of these graphical elements, the processor of the electronic device executes a dual action: it simultaneously initiates playback of the video's image data corresponding to that specific time interval and activates the device's microphone. This allows the user to record new sound data in real-time, directly aligned with the visual content being displayed.\n\nThe business value and applications of this invention are substantial. It significantly streamlines the workflow for content creators, reducing the need for extensive post-production editing. This makes high-quality video production more accessible to a broader audience, including educators, social media influencers, marketers, and independent filmmakers. Potential applications span e-learning platforms, video messaging apps, interactive tutorial creation, and dynamic voiceover tools.\n\nThis technology taps into a vast market opportunity for enhancing user-generated content platforms and professional media tools. By simplifying a traditionally complex task, it empowers users to create more engaging and polished multimedia content with greater efficiency and precision, potentially disrupting existing video editing software paradigms and fostering new forms of interactive communication.","layman_explanation":"### What Problem Does This Solve?\n\nImagine you're creating a training video, a product demonstration, or even just a fun social media clip. You've got the visuals, but now you need to add your voice – explaining, narrating, or reacting. The challenge? Getting your voice to line up perfectly with what's happening on screen. Traditionally, this is a multi-step, often frustrating process. You record your video, then you record your audio separately, and then you spend hours in complex editing software, dragging audio clips around, zooming in to tiny fractions of a second, and trying to make sure your words match the exact visual cues. For businesses, this means higher production costs, slower content delivery, and often, a barrier for employees who want to create engaging videos but lack professional editing skills. This patent aims to remove that headache entirely.\n\n### How Does It Work?\n\nThe User Interface for Syncronizing Audio with Video Data patent introduces a remarkably intuitive solution. Think of your standard video player on your phone or computer. Below the video, there's usually a progress bar that shows how far along you are. This invention enhances that progress bar. Instead of just a simple line, it displays interactive, selectable segments. Each of these segments is like a pre-defined 'chapter' or 'moment' in your video where you want to add or modify audio. It's almost like the video is prompting you.\n\nHere's the magic: when you tap or click one of these segments, two things happen simultaneously and automatically. First, the video jumps directly to that specific part and starts playing. Second, your device's microphone instantly activates. This means you can start speaking immediately, and your voice is recorded in real-time, perfectly aligned with the visuals you're watching. If you want to record another segment, you just tap the next interactive marker. This eliminates the need for manual alignment after the fact, making the process feel natural and direct, almost like you're performing a live voiceover.\n\n### Why Does This Matter?\n\nThis innovation matters because it dramatically simplifies a crucial aspect of digital content creation, making it more accessible and efficient. For businesses, this translates into several key advantages:\n\n*   **Cost Savings:** Less time spent in post-production editing means lower labor costs for video creation.\n*   **Increased Content Velocity:** Teams can produce engaging video content much faster, allowing for more timely marketing campaigns, rapid internal communications, or agile e-learning module development.\n*   **Empowered Employees:** Non-technical staff can create high-quality, synchronized videos without needing extensive training in complex editing software, democratizing content creation within an organization.\n*   **Enhanced Engagement:** Perfectly synchronized audio leads to more professional and engaging videos, which can improve viewer retention, comprehension, and overall message impact. Imagine a sales team quickly adding personalized voiceovers to product demo videos for specific clients.\n\nThis technology has the potential to become a standard feature in everything from social media apps to corporate training platforms, fundamentally changing how we interact with and create video content. It removes a significant technical hurdle, allowing organizations to focus on the message rather than the mechanics.\n\n### What's Next?\n\nThe immediate future for this technology lies in its integration into existing content creation platforms and new applications. We can expect to see it implemented in e-learning tools, video messaging apps, and even enterprise communication suites. As it gains adoption, it could pave the way for even more sophisticated real-time interaction, such as synchronized graphical annotations or collaborative voiceover projects. The market adoption timeline could be relatively quick, given the clear value proposition and the widespread need for simpler video production tools. For investors, this represents an opportunity in the burgeoning digital media and content technology sectors, offering a solution that directly impacts efficiency and user engagement.","technical_analysis":"The patent \"User Interface for Syncronizing Audio with Video Data\" (US-9852766) describes an innovative method for efficiently recording voice samples in synchronization with video data rendered on an electronic device. This technical analysis will delve into the underlying architecture, implementation details, algorithmic specifics, and performance characteristics that enable this streamlined synchronization process.\n\n**Technical Architecture:**\nThe system operates on an electronic device equipped with a display unit (for the GUI) and a microphone (for audio input). The core intelligence resides within the device's processor, which orchestrates the interactions between the GUI, video playback engine, and audio recording subsystem. The architecture is designed to minimize latency and provide a seamless user experience, making real-time synchronization feasible.\n\n**Implementation Details:**\n1.  **Video Data Processing:** The method begins by processing video data, which includes both image and existing voice data. The processor identifies or defines specific 'time intervals' within the voice data where new audio input is either required or intended to replace existing content. These intervals are crucial for the invention's functionality.\n2.  **Graphical User Interface (GUI) Rendering:** The GUI is central to this innovation. It comprises two primary interactive elements:\n    *   **Videoplayer Element:** A standard video playback component that renders the image data.\n    *   **Graphical or Progress Element:** This is the key differentiator. It represents the overall progress of the video but is augmented with 'selectable elements.' Each selectable element is a distinct interactive region on the progress bar. It is programmatically associated with a specific time interval of the voice data and is graphically positioned on the progress element according to its temporal location within the video. This could be implemented using custom UI controls that overlay a standard video progress bar or as a completely custom component.\n3.  **User Interaction and Event Handling:** The system continuously monitors for user input on the GUI. When a user selection (e.g., a tap or click) is received on a 'first selectable element,' the processor triggers a precise, synchronized sequence of events:\n    *   **Video Seeking and Playback:** The videoplayer element immediately seeks to the start of the time interval associated with the selected element. It then begins playing the image data corresponding to that interval.\n    *   **Microphone Activation and Recording:** Simultaneously and in parallel with video playback, the device's microphone is activated. Sound data is recorded from this point forward, directly into the buffer allocated for that specific time interval.\n    *   **Data Association:** The recorded sound data is then linked to the time interval associated with the selected element. This ensures that the newly recorded audio is perfectly aligned with the visual content it was recorded against.\n\n**Algorithm Specifics:**\n*   **Time-Interval Mapping Algorithm:** This algorithm dynamically parses video metadata or user-defined cues to establish precise start and end timestamps for each selectable interval. It then maps these temporal intervals to spatial positions on the graphical progress element, ensuring visual accuracy.\n*   **Real-time Media Synchronization Algorithm:** This is the most critical component. Upon selection, it must achieve near-instantaneous and perfectly synchronized activation of both video playback and audio recording. This requires low-latency access to media frameworks, efficient buffer management for audio input, and precise control over the video player's `seek` and `play` operations. Techniques like hardware-accelerated media decoding/encoding and direct memory access (DMA) for audio streams would be beneficial for optimal performance.\n*   **Event-Driven Architecture:** The system likely employs an event-driven model where user interactions trigger specific handlers responsible for coordinating the media components.\n\n**Integration Patterns:**\nThis technology can be integrated into various platforms: native mobile applications (iOS, Android) leveraging their respective media frameworks (e.g., AVFoundation, MediaCodec), desktop applications, or even web-based editors utilizing Web Audio API and HTML5 video elements for a browser-based implementation. The choice of platform will influence the specific APIs and performance considerations.\n\n**Performance Characteristics:**\nKey performance indicators for this invention include:\n*   **Latency:** The delay between user selection and the start of synchronized video playback/audio recording must be minimal (ideally <100ms) to maintain a feeling of direct interaction.\n*   **Synchronization Accuracy:** The recorded audio must be frame-perfectly aligned with the video segment. This requires precise timestamping and media clock synchronization.\n*   **Resource Utilization:** Efficient use of CPU, GPU, and memory is crucial, especially on mobile devices, to prevent stuttering or crashes during concurrent media operations.\n\nBy tightly coupling the user's intent (selection) with the system's actions (play/record) at specific time intervals, this patent streamlines a traditionally complex process. It moves beyond passive playback and post-production editing, offering an active, intuitive, and real-time content creation experience that has significant implications for media production workflows.","business_analysis":"The patent \"User Interface for Syncronizing Audio with Video Data\" (US-9852766) presents a significant business opportunity by addressing a pervasive pain point in digital content creation: the complex and time-consuming process of audio-video synchronization. This innovation has the potential to reshape market dynamics, offer competitive advantages, and unlock new revenue streams across various industries.\n\n**Market Opportunity Size:**\nThe market for video content creation tools is vast and rapidly expanding, driven by the proliferation of user-generated content, e-learning, corporate communications, and social media marketing. Billions of hours of video are consumed daily, and the demand for easy-to-use, efficient creation tools is at an all-time high. Existing solutions often involve expensive, complex software requiring specialized skills. This patent targets a broad segment, from casual creators on mobile devices to semi-professional producers and educational institutions, representing a multi-billion dollar market ripe for disruption.\n\n**Competitive Advantages:**\n1.  **Simplified Workflow:** The most significant advantage is the drastic simplification of audio-video synchronization. By integrating real-time recording directly into a segment-selectable video player, it eliminates the need for manual alignment in post-production. This offers a superior user experience compared to traditional timeline-based editors.\n2.  **Accessibility:** The intuitive graphical user interface makes advanced synchronization capabilities accessible to non-technical users, significantly lowering the barrier to entry for high-quality content creation. This can attract a new demographic of creators who were previously intimidated by complex editing software.\n3.  **Efficiency and Speed:** Content creators can produce synchronized audio-visual content much faster, leading to higher output and quicker turnaround times. This efficiency translates directly into cost savings for businesses and increased productivity for individuals.\n4.  **Device Agnostic Potential:** Described for electronic devices with a display and microphone, the technology is inherently adaptable to smartphones, tablets, and computers, providing broad market reach.\n\n**Revenue Potential and Business Models:**\nThis technology can generate revenue through several business models:\n*   **Licensing:** Software companies and platform providers (e.g., social media platforms, e-learning platforms, video conferencing solutions) could license this technology for integration into their existing products.\n*   **Subscription Services:** A standalone application or a feature within a broader content creation suite could be offered on a subscription basis, providing premium synchronization tools.\n*   **Freemium Models:** A basic version could be free, with advanced features (e.g., multi-track recording, advanced audio processing, cloud storage) offered as paid upgrades.\n*   **API/SDK Sales:** Developers could purchase an SDK to integrate the core synchronization functionality into their own applications.\n\n**Strategic Positioning:**\nCompanies leveraging this patent can strategically position themselves as leaders in user-friendly content creation, focusing on 'creation without complexity.' It allows for differentiation in crowded markets by offering a unique and highly valued feature. For e-learning companies, it means enabling educators to produce richer, more engaging content effortlessly. For social media, it could foster new forms of interactive storytelling and commentary. For enterprise, it simplifies internal communication and training video production.\n\n**ROI Projections:**\nInvesting in or licensing this technology offers a strong return on investment through:\n*   **Increased User Acquisition and Retention:** A superior user experience and simplified workflow will attract and retain more creators on platforms.\n*   **Reduced Content Production Costs:** For businesses, the efficiency gains translate directly into lower operational costs for creating marketing, training, or educational videos.\n*   **New Market Penetration:** The accessibility of the tool can open up new market segments previously underserved by complex professional tools.\n*   **Enhanced Content Quality:** Better synchronized audio leads to more professional and engaging content, which can improve audience engagement and brand perception.\n\nThe User Interface for Syncronizing Audio with Video Data is not merely a technical enhancement; it's a strategic asset that can drive significant business growth by democratizing and accelerating the creation of high-quality synchronized media content.","faqs":[{"answer":"The User Interface for Syncronizing Audio with Video Data (US-9852766) is an innovative patent that describes a method for efficiently recording voice samples directly in sync with specific segments of video data. This technology is designed to operate on electronic devices equipped with a display and a microphone, such as smartphones, tablets, or computers.\n\nEssentially, it transforms a traditionally complex, multi-step editing process into an intuitive, real-time interaction. Instead of manually aligning audio and video tracks after recording, this invention allows users to record new audio while watching the corresponding video segment play simultaneously.\n\nThe core of this invention lies in its unique graphical user interface (GUI), which features an interactive video progress bar. This bar displays 'selectable elements,' each representing a distinct time interval within the video where new audio input is desired. This makes the synchronization process visually guided and extremely user-friendly.\n\nThis patent aims to democratize high-quality multimedia content creation, making it accessible to a broader audience by simplifying a critical technical hurdle. Its focus is on enabling seamless and precise audio-video alignment from the moment of capture, rather than through laborious post-production.","question":"What is User Interface for Syncronizing Audio with Video Data?"},{"answer":"The User Interface for Syncronizing Audio with Video Data works by leveraging an intuitive graphical user interface (GUI) on an electronic device. First, the video is displayed on a videoplayer element, and a special progress bar, called a graphical or progress element, is also shown.\n\nThis progress element is unique because it contains 'selectable elements' – visual markers or segments – that are each linked to a specific time interval within the video's existing voice data, or a designated area where new audio is needed. These selectable elements are positioned on the progress bar precisely according to their temporal location in the video.\n\nWhen a user wants to record audio for a particular part of the video, they simply select one of these graphical elements. Upon selection, the device's processor executes two critical actions simultaneously: it starts playing the video's image data corresponding to that exact time interval, and it activates the microphone to begin recording sound data. This real-time, synchronized playback and recording ensure that the newly captured audio is perfectly aligned with the visual content from the moment of creation, eliminating the need for complex post-editing. This process makes audio-video synchronization highly efficient and user-friendly.","question":"How does User Interface for Syncronizing Audio with Video Data work?"},{"answer":"The User Interface for Syncronizing Audio with Video Data patent solves the widespread and often frustrating problem of complex audio-video synchronization in content creation. Traditionally, adding voiceovers, narration, or commentary to video footage involves a multi-step process:\n\n1.  **Separate Recording:** Audio and video are often recorded independently.\n2.  **Manual Alignment:** Users then import both into sophisticated video editing software and manually drag, trim, and align audio tracks on a timeline to match specific visual cues. This is a highly precise and time-consuming task.\n3.  **High Skill Barrier:** This manual process requires specialized editing skills and software proficiency, making high-quality synchronized content inaccessible to many casual creators or business professionals without extensive training.\n\nThis invention addresses these pain points by integrating the recording and synchronization process. It removes the need for laborious post-production alignment, significantly reducing the time, effort, and technical expertise required. The result is a streamlined workflow that empowers a broader range of users to create professional-quality, perfectly synchronized multimedia content with ease. It fundamentally transforms a reactive editing process into a proactive, intuitive creation experience.","question":"What problem does User Interface for Syncronizing Audio with Video Data solve?"},{"answer":"The patent US-9852766, titled \"User Interface for Syncronizing Audio with Video Data,\" was filed on December 22, 2015, and published on December 26, 2017. The patent document lists specific inventors and an assignee, though these details were not provided in the prompt. However, the innovation itself is a testament to the ingenuity of its creators in addressing a significant challenge in digital media production.\n\nTypically, such patents are the result of dedicated research and development teams within technology companies or by individual inventors seeking to solve specific technical problems.\n\nRegardless of the specific individuals or entity behind it, the invention's focus on an intuitive user interface for a complex technical task highlights a commitment to user-centric design and efficiency in multimedia content creation. The User Interface for Syncronizing Audio with Video Data represents a valuable contribution to the field of digital media tools, streamlining workflows for countless creators.","question":"Who invented User Interface for Syncronizing Audio with Video Data?"},{"answer":"The User Interface for Syncronizing Audio with Video Data offers several key benefits that revolutionize content creation:\n\n1.  **Unprecedented Efficiency:** It dramatically reduces the time and effort required for audio-video synchronization. By allowing real-time recording directly aligned with video segments, it virtually eliminates the need for tedious post-production editing, saving hours for creators.\n2.  **Enhanced Accessibility:** The intuitive graphical user interface (GUI) makes sophisticated synchronization capabilities accessible to non-technical users. This lowers the barrier to entry for creating high-quality, synchronized content, empowering a wider audience from educators to social media enthusiasts.\n3.  **Improved Content Quality:** Achieving precise audio-video alignment from the moment of recording results in more professional, coherent, and engaging multimedia content. This can lead to better viewer retention and clearer communication of messages.\n4.  **Boosted Creativity:** By removing the technical hurdles of synchronization, creators are freed to focus on their narrative, delivery, and creative vision. The streamlined workflow fosters spontaneity and allows for a more natural content creation process.\n\nOverall, this patent simplifies a critical aspect of digital media production, making it faster, easier, and more enjoyable for everyone involved in creating video content.","question":"What are the key benefits of User Interface for Syncronizing Audio with Video Data?"},{"answer":"The User Interface for Syncronizing Audio with Video Data distinguishes itself significantly from prior art in multimedia production, primarily by fundamentally altering the workflow for audio-video synchronization.\n\n**Prior Art:** Traditional methods, whether using professional non-linear editing (NLE) software or simpler mobile editors, typically involve recording audio and video as separate, distinct processes. Synchronization then becomes a post-production task, requiring manual manipulation of audio tracks on a timeline to align them with visual cues. This often involves trial-and-error, careful waveform matching, and extensive zooming to achieve precision. This approach is reactive, correcting synchronization *after* content has been captured.\n\n**User Interface for Syncronizing Audio with Video Data:** This invention takes a proactive approach. It integrates the audio recording process directly into the video playback interface. Instead of a passive timeline, it presents an interactive progress bar with 'selectable elements' that correspond to specific video segments. When a user selects a segment, the video plays, and the microphone activates *simultaneously*. This allows for real-time, segment-specific audio recording that is perfectly synchronized from the outset. The User Interface for Syncronizing Audio with Video Data eliminates the need for laborious manual alignment, transforming a complex editing challenge into an intuitive, direct creation experience. It's the difference between editing synchronization and preventing desynchronization.","question":"How is User Interface for Syncronizing Audio with Video Data different from prior art?"},{"answer":"The User Interface for Syncronizing Audio with Video Data patent has the potential to significantly impact a wide array of industries that rely heavily on digital video content:\n\n1.  **E-Learning and Education:** Educators can create highly engaging and precisely narrated video lessons, tutorials, and demonstrations with unprecedented ease, improving the quality and accessibility of online learning materials.\n2.  **Digital Marketing and Advertising:** Marketers can rapidly produce personalized video ads, product demonstrations, and social media campaigns with perfectly timed voiceovers, enhancing message clarity and audience engagement.\n3.  **Social Media and User-Generated Content:** Platforms can integrate this technology to empower users to create more professional and compelling short-form videos, reaction clips, and dubbing content directly on their mobile devices, fostering greater creativity and participation.\n4.  **Corporate Communications and Training:** Businesses can streamline the creation of internal training videos, onboarding modules, and executive communications, making them more efficient to produce and more effective for employees.\n5.  **News and Journalism:** Reporters and news organizations can quickly add on-the-fly commentary or context to breaking news footage, ensuring timely and accurate delivery of information.\n6.  **Accessibility Services:** This technology could simplify the creation of audio descriptions for visually impaired audiences, making video content more accessible.\n\nIn essence, any industry that benefits from efficient, high-quality, and easily produced synchronized audio-visual content stands to gain from the User Interface for Syncronizing Audio with Video Data.","question":"What industries will User Interface for Syncronizing Audio with Video Data impact?"},{"answer":"The patent for \"User Interface for Syncronizing Audio with Video Data\" (US-9852766) has specific dates associated with its lifecycle in the patent office.\n\nIt was **filed on December 22, 2015**. The filing date is when the patent application was initially submitted to the patent office, establishing its priority date.\n\nSubsequently, the patent was **published on December 26, 2017**. The publication date is when the patent office makes the details of the application publicly available. This often occurs before a patent is officially granted, allowing the public and other innovators to review the disclosed technology.\n\nThe granting of a patent typically happens after a period of examination, during which the patent office assesses its novelty, non-obviousness, and utility. While the publication date is available, the exact grant date would follow later in the process. These dates are crucial for understanding the timeline of the User Interface for Syncronizing Audio with Video Data's development and its place within the technological landscape.","question":"When was User Interface for Syncronizing Audio with Video Data filed/granted?"},{"answer":"The commercial applications of the User Interface for Syncronizing Audio with Video Data are extensive, given its ability to simplify a critical and complex aspect of digital content creation. This innovation can be integrated into various products and services across multiple sectors:\n\n1.  **Mobile Video Editing Apps:** It can become a core feature in consumer-facing mobile apps, allowing users to quickly add professional-quality voiceovers and commentary to their videos without needing advanced editing skills.\n2.  **E-Learning Platforms:** Educational technology companies can integrate this to empower educators to create engaging, precisely narrated video lessons and interactive course materials more efficiently.\n3.  **Social Media Platforms:** Integrating the User Interface for Syncronizing Audio with Video Data could enable seamless dubbing, reaction video creation, or personalized commentary for shared video content, boosting user engagement and content variety.\n4.  **Enterprise Communication Tools:** Businesses can use this for internal training, product demonstrations, or marketing video creation, reducing production costs and accelerating content delivery.\n5.  **Video Conferencing and Collaboration Tools:** Future versions could allow for real-time annotation or voice commentary during recorded meetings, enhancing collaboration and knowledge sharing.\n6.  **Interactive Storytelling and Gaming:** Developers could use this to allow users to record their own dialogue or reactions into interactive narratives or games, creating personalized experiences.\n\nThe core value proposition of User Interface for Syncronizing Audio with Video Data – efficiency, accessibility, and quality – makes it a highly attractive feature for any platform or software dealing with synchronized audio-visual content.","question":"What are the commercial applications of User Interface for Syncronizing Audio with Video Data?"},{"answer":"Looking ahead, the User Interface for Syncronizing Audio with Video Data could evolve in several exciting directions, building upon its foundational principle of intuitive, real-time synchronization:\n\n1.  **AI-Assisted Content Creation:** Future developments might integrate artificial intelligence to automatically identify optimal 'selectable elements' based on video content, such as scene changes, speaker detection, or key visual events. AI could also generate initial voiceover suggestions that users then refine using this precise interface.\n2.  **Multi-track and Layered Synchronization:** The system could expand to support recording multiple audio tracks (e.g., separate tracks for narration, background music, sound effects) against the same video segments, all synchronized through the intuitive GUI.\n3.  **Collaborative Editing:** Imagine multiple users, potentially in different locations, simultaneously contributing audio to different segments of a single video project. This would revolutionize remote team collaboration for multimedia production.\n4.  **Integration with Immersive Technologies:** The principles of User Interface for Syncronizing Audio with Video Data could extend to augmented reality (AR) and virtual reality (VR) environments, allowing users to record spatial audio or interactive voice commands directly within immersive experiences.\n5.  **Advanced Audio Processing:** Real-time audio enhancements, such as intelligent noise reduction, voice modulation, or automatic translation, could be integrated into the recording process, further elevating content quality.\n\nThese potential developments underscore the User Interface for Syncronizing Audio with Video Data's role as a foundational technology, poised to drive significant innovation in how digital stories are created and experienced across various platforms and emerging technologies.","question":"What are the future developments expected for User Interface for Syncronizing Audio with Video Data?"}],"topics":["audio-video synchronization","user interface for video","real-time audio recording","video editing technology","content creation patent","challenge","precisely","aligning"],"tech_cluster":null},"seo":{"title":"User Interface for Syncronizing Audio with Video Data - Patent US-9852766","description":"Discover the User Interface for Syncronizing Audio with Video Data patent, streamlining audio-video synchronization with an intuitive GUI. Record voice samples in real-time, perfectly synced to video segments.","keywords":["audio-video synchronization","user interface for video","real-time audio recording","video editing technology","content creation patent","GUI innovation","digital media production","patent US-9852766","video voiceover","multimedia synchronization"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9852766","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-9852766","citation_suggestion":"Patentable. \"User interface for syncronizing audio with video data\" (US-9852766). https://patentable.app/patents/US-9852766","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9852766","json":"https://patentable.app/api/llm-context/US-9852766","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T08:00:41.520Z"}