{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9852760","patent":{"patent_number":"US-9852760","title":"Image recording apparatus, control method of the same, and recording medium","assignee":null,"inventors":[],"filing_date":"2016-08-05T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["G11B","G11B","G11B","H04N","H04N"],"num_claims":20,"abstract":"An image recording apparatus that can communicate with an external apparatus includes a recording unit, a completion unit, a first input unit, and a transmission unit. The recording unit records movie data on at least one recording medium. The completion unit completes a movie file based on recorded movie data. The first input unit receives a predetermined instruction for transmitting at least part of movie data, recorded by the recording unit, to the external apparatus. The transmission unit transmits, via the communication interface, at least one of movie files completed by the completion unit, based on the predetermined instruction. Where the first input unit receives the predetermined instruction while the recording unit is recording the movie data, the completion unit completes a recorded part of the movie data being recorded, as a movie file, and the transmission unit automatically transmits the completed movie file via the communication interface."},"analysis":{"summary":"The patent titled \"Image Recording Apparatus, Control Method of the Same, and Recording Medium\" (US-9852760) introduces a groundbreaking solution for real-time video content sharing. At its core, this innovation addresses the significant delay inherent in traditional video workflows, where an entire recording must be completed before any part of it can be processed and transmitted.\n\nThe central problem solved by this patent is the inability to instantly share critical moments from an ongoing video recording without interrupting the primary capture process. Existing solutions often require stopping the recording, manually segmenting, and then transmitting, leading to missed opportunities for immediate engagement and inefficient workflows.\n\nThis technology employs an image recording apparatus equipped with a recording unit, a completion unit, a first input unit, and a transmission unit. The key technical approach is the intelligent control method: if a predetermined instruction to transmit part of the movie data is received *while the recording unit is still actively recording*, the completion unit immediately finalizes the *already recorded portion* of the movie data into a complete, standalone movie file. Subsequently, the transmission unit automatically sends this completed segment via a communication interface. This concurrent processing is a significant technical leap.\n\nThe business value and applications are substantial across various sectors. Media organizations can transmit breaking news footage instantly. Sports broadcasters can share live highlights without missing game action. Social media platforms can enable more dynamic user-generated content. This capability enhances audience engagement, streamlines content delivery workflows, and provides a competitive advantage in industries where immediacy is paramount. The market opportunity lies in upgrading existing recording devices and integrating this functionality into new generations of cameras, smartphones, and IoT devices.\n\nThis patent offers a clear path to more efficient, responsive, and immediate video content creation and dissemination, making it a vital innovation for the future of digital media.","layman_explanation":"### What Problem Does This Solve?\n\nImagine you're recording a long video, perhaps a child's school play, a live concert, or a critical moment in a manufacturing process. Typically, if you want to share a specific, exciting part of that video—say, the child's solo or a critical machine malfunction—you'd have to wait until you finish recording the entire event. Then, you'd go back, find that segment, edit it out, save it as a separate file, and finally, share it. This process is time-consuming, inefficient, and means you often miss the window for immediate impact or action. For businesses, this delay can mean lost engagement, slower response times to critical events, or a competitive disadvantage in fast-moving markets. Existing solutions often involve stopping the recording, which means you miss whatever happens next, or using complex, clunky editing software after the fact.\n\n### How Does It Work?\n\nThe **Image Recording Apparatus, Control Method of the Same, and Recording Medium** patent introduces a clever solution. Think of your video camera as having three smart assistants. One assistant (the 'recording unit') is diligently recording everything, continuously saving it. Now, let's say something important happens, and you want to share just that moment. You give a quick instruction to a second assistant (the 'first input unit')—maybe by tapping a button on the camera or even through an automated signal. Instead of stopping the first assistant, a third assistant (the 'completion unit') immediately jumps in. It looks at *only the part that has already been recorded up to that instruction*, quickly bundles it into a perfectly shareable mini-video file, and then hands it off to a delivery service (the 'transmission unit'). This delivery service instantly sends it to wherever you want it to go—like to a social media platform, a colleague's device, or a cloud storage service.\n\nThe genius is that the first assistant—your main recording—never stops. You keep capturing the rest of the play or the ongoing process while the highlight is being simultaneously prepared and sent. It's like having a dedicated editor and delivery person working in real-time, right within your camera, without interrupting your main job.\n\n### Why Does This Matter?\n\nThis innovation matters because it fundamentally changes the speed and efficiency of video content delivery, creating significant market opportunities and competitive advantages. For media companies, it means transmitting breaking news footage from the field *instantly*, without having to wait for the full report to finish. For sports broadcasters, it allows for sharing key highlights (a goal, a home run) almost as they happen, driving immediate fan engagement. In security and surveillance, it could mean automatically sending critical incident footage to operators the moment an event occurs, enabling faster response times.\n\nFrom a business perspective, this technology reduces operational friction, enhances user satisfaction, and unlocks new avenues for monetizing real-time content. Companies integrating this patent into their products can differentiate themselves by offering unparalleled immediacy and a seamless user experience. This translates to increased market share, potential for premium pricing, and a stronger strategic position in industries reliant on dynamic visual information.\n\n### What's Next?\n\nThe future applications for this technology are vast. We can expect to see it integrated into the next generation of smartphones, action cameras, drones, and even smart industrial sensors. Imagine smart cities where traffic cameras automatically send short clips of accidents to emergency services as they unfold, or personal vlogs where creators can instantly share 'sneak peeks' from their longer shoots. The market adoption timeline will likely accelerate as the demand for real-time content continues to surge. For investors, this patent represents a foundational technology that will enable a new wave of interactive and responsive video devices, promising strong returns as the digital content ecosystem continues to prioritize speed and immediacy.","technical_analysis":"The patent US-9852760, titled \"Image Recording Apparatus, Control Method of the Same, and Recording Medium,\" describes a sophisticated system designed to overcome the limitations of sequential video recording and transmission. Its core technical innovation lies in enabling the real-time completion and transmission of a segment of movie data while the primary recording process remains uninterrupted. This represents a significant advancement in dynamic media processing and content delivery systems.\n\n**Technical Architecture:**\n\nThe apparatus defined in this patent comprises several integrated units:\n\n1.  **Recording Unit:** This unit is responsible for capturing raw movie data. It interfaces with one or more recording mediums, which can include various forms of digital storage (e.g., flash memory, SSDs, or high-speed RAM buffers for temporary storage). The output of this unit is a continuous stream of raw or lightly compressed video frames.\n2.  **Completion Unit:** This unit processes the raw movie data into a finalized movie file. This typically involves encoding (e.g., H.264, H.265), multiplexing audio and video streams, and encapsulating them into a standard container format (e.g., MP4, MOV). The critical aspect of this unit, as per the patent, is its ability to perform these operations on *partial* data streams.\n3.  **First Input Unit:** This serves as the control interface for triggering the segment transmission. It can be a physical button, a touch-screen gesture, a voice command, or a programmatic trigger from an external application or sensor (e.g., an event detection algorithm). The input received is a \"predetermined instruction\" to transmit a specific part of the recorded data.\n4.  **Transmission Unit:** This unit manages the transfer of completed movie files to an external apparatus. It utilizes a communication interface (e.g., Wi-Fi, Bluetooth, cellular data, Ethernet) and would typically implement standard network protocols (e.g., FTP, HTTP, RTMP) for reliable data transfer.\n\n**Implementation Details and Algorithm Specifics:**\n\nThe most innovative aspect of this system is its control method for handling the transmission instruction during active recording. When the first input unit signals the intent to transmit, the completion unit does not wait for the entire recording session to end. Instead, it:\n\n*   **Identifies the Current Segment:** The completion unit rapidly determines the current 'recorded part' of the movie data that has accumulated since the recording began or since the last segment transmission. This often involves tracking buffer pointers or file offsets on the recording medium.\n*   **Real-time Segmentation and Finalization:** It then performs the necessary encoding, header generation, and file finalization steps *on this specific segment*. This implies a sophisticated buffer management strategy where raw video data can be simultaneously written to the main recording stream and read by the completion unit for segment processing. Hardware video encoders, often present in modern image recording apparatuses, would be crucial here to perform these operations with minimal latency and computational overhead.\n*   **Metadata Handling:** For a segment to be a 'complete movie file,' it must contain all necessary metadata (e.g., duration, frame rate, encoding parameters, audio tracks). The completion unit must efficiently generate or copy this metadata for the extracted segment, ensuring it's a standalone, playable file.\n*   **Asynchronous Operation:** The recording unit continues its primary task of capturing and storing movie data without interruption. The segment completion and transmission processes run asynchronously, leveraging multi-threading or dedicated processing cores to maintain performance.\n\n**Performance Characteristics:**\n\nKey performance metrics for this system would include:\n\n*   **Latency:** The time from receiving the 'predetermined instruction' to the start of transmission of the completed segment. This needs to be minimized for true real-time applications.\n*   **Throughput:** The rate at which the recording unit can capture data and the transmission unit can send data, ideally without degradation during concurrent operations.\n*   **Resource Utilization:** Efficient management of CPU, GPU, and memory resources to prevent bottlenecks or dropped frames in either the primary recording or the secondary segment processing.\n\n**Integration Patterns:**\n\nThis technology can be integrated into various devices, from consumer electronics (smartphones, action cameras) to professional broadcasting equipment and surveillance systems. APIs would expose the 'predetermined instruction' trigger, allowing external applications or user interfaces to initiate segment transmission. Cloud integration would be a natural fit, with completed segments being uploaded directly to storage or streaming services.\n\n**Code-Level Implications:**\n\nAt a code level, this would involve:\n\n*   Low-level buffer management and memory-mapped file operations.\n*   Efficient video/audio encoding library integration (e.g., FFmpeg, GStreamer).\n*   Asynchronous programming models (e.g., `async/await`, threads, concurrent queues).\n*   Network stack optimization for rapid data transfer.\n*   Robust error handling for file corruption or network interruptions during transmission.\n\nIn essence, the Image Recording Apparatus, Control Method of the Same, and Recording Medium patent provides a robust framework for next-generation image recording devices that prioritize real-time responsiveness and dynamic content delivery, crucial for the ever-evolving digital media landscape.","business_analysis":"The patent titled \"Image Recording Apparatus, Control Method of the Same, and Recording Medium\" (US-9852760) introduces a compelling business opportunity by addressing a critical pain point in content creation and distribution: the delay between recording a video and sharing specific, impactful segments. This innovation has the potential to significantly disrupt existing markets and create new revenue streams.\n\n**Market Opportunity Size:**\n\nThe market for digital image recording apparatuses (smartphones, action cameras, professional video cameras, surveillance systems, drones) is vast and continuously growing. The demand for immediate, shareable content cuts across consumer, enterprise, and industrial sectors. The global video streaming market alone is projected to reach over $220 billion by 2028, largely driven by live content. Any technology that streamlines the creation and delivery of this content taps into a significant and expanding market. This patent positions devices to capture a larger share of this market by offering a superior user experience and enhanced functionality.\n\n**Competitive Advantages:**\n\nImplementing the technology described in this patent offers several distinct competitive advantages:\n\n*   **First-Mover Advantage in Real-Time Micro-Content:** Devices integrating this patent can offer truly instant sharing of video highlights, differentiating them from competitors that require full recording completion or cumbersome manual editing.\n*   **Enhanced User Experience and Engagement:** For consumers, the ability to share moments as they happen significantly improves satisfaction and encourages more frequent content creation and sharing. For businesses, this translates to higher engagement rates for their live content.\n*   **Workflow Efficiency for Professionals:** News organizations, sports broadcasters, and event videographers can drastically reduce the time from capture to broadcast, gaining a crucial edge in breaking news and live coverage.\n*   **New Product Categories/Features:** This patent enables the development of new camera modes or smart features focused on instant event-driven sharing, potentially opening up new market segments.\n\n**Revenue Potential and Business Models:**\n\nRevenue generation from this patent can stem from multiple avenues:\n\n*   **Licensing:** Manufacturers of smartphones, action cameras, drones, and professional video equipment would be prime candidates for licensing this technology to integrate into their products, commanding significant royalties.\n*   **Product Differentiation:** Companies that integrate this patent can charge a premium for devices offering superior real-time sharing capabilities.\n*   **Value-Added Services:** For device manufacturers, this could lead to new subscription services (e.g., enhanced cloud storage for instant clips, integrated live streaming platforms).\n*   **Enterprise Solutions:** Custom implementations for security, surveillance, and industrial monitoring could be sold as high-value enterprise solutions, allowing for immediate alert transmission with visual context.\n\n**Strategic Positioning:**\n\nCompanies that adopt this patent can strategically position themselves as leaders in real-time content capture and delivery. This aligns with broader industry trends towards immediacy, live content, and edge computing. It allows device makers to move beyond basic recording functionalities to offer intelligent, context-aware content management at the source. This strategic move can fortify brand loyalty and attract a demographic that prioritizes speed and seamless digital interaction.\n\n**ROI Projections:**\n\nInvesting in or licensing this technology offers a strong ROI through:\n\n*   **Increased Market Share:** Devices with this feature will naturally appeal to users and professionals needing instant content sharing, leading to higher sales volumes.\n*   **Premium Pricing:** The unique value proposition allows for higher price points, improving profit margins.\n*   **Reduced Operational Costs (for users):** For businesses, faster content delivery means less post-production time and quicker monetization of live events.\n*   **Enhanced Ecosystem Value:** For platforms (e.g., social media), faster content generation from devices means more engaging content for their users, driving platform usage and ad revenue.\n\nIn conclusion, the Image Recording Apparatus, Control Method of the Same, and Recording Medium patent is not merely a technical improvement; it's a strategic business enabler. It provides a blueprint for devices that can meet the escalating demand for instant, high-quality video content, promising significant returns for early adopters and innovators.","faqs":[{"answer":"The patent titled \"Image Recording Apparatus, Control Method of the Same, and Recording Medium\" (US-9852760) describes an advanced image recording device and an innovative method for controlling it. This invention allows the apparatus to continuously record movie data onto a recording medium, while simultaneously enabling the completion and transmission of a specific segment of that ongoing recording.\n\nEssentially, it solves the problem of having to stop a video recording, manually save, and then share a particular highlight. With this technology, a user or an automated system can trigger the device to instantly process and send a part of the video that has already been recorded, all without interrupting the primary recording session.\n\nThis makes the Image Recording Apparatus, Control Method of the Same, and Recording Medium a significant step forward for real-time content sharing, offering unprecedented speed and efficiency in how visual information is captured and distributed. It's about bringing true immediacy to video content, allowing key moments to be shared as they happen.","question":"What is 'Image Recording Apparatus, Control Method of the Same, and Recording Medium'?"},{"answer":"The core functionality of the Image Recording Apparatus, Control Method of the Same, and Recording Medium relies on a sophisticated interplay between its internal components: a recording unit, a completion unit, a first input unit, and a transmission unit.\n\nHere's a simplified breakdown:\n\n1.  **Continuous Recording:** The recording unit continuously captures movie data onto a designated recording medium, much like a standard camera records video.\n2.  **Trigger for Transmission:** At any point during this ongoing recording, a 'predetermined instruction' is received by the first input unit. This instruction can come from a user (e.g., pressing a button, a voice command) or an automated system (e.g., an AI detecting a specific event).\n3.  **Instant Segment Completion:** Crucially, if this instruction is received *while the recording unit is still actively recording*, the completion unit immediately springs into action. Instead of waiting for the entire recording to finish, it processes and finalizes *only the part of the movie data that has been recorded up to that instruction* into a complete, standalone movie file.\n4.  **Automated Transmission:** Once this specific movie file is completed, the transmission unit automatically sends it via the device's communication interface (like Wi-Fi or cellular data) to an external apparatus (e.g., a smartphone, a cloud server, a social media platform).\n\nThe key differentiator is that the primary recording process continues uninterrupted throughout this entire sequence. The Image Recording Apparatus, Control Method of the Same, and Recording Medium thus enables seamless, real-time sharing of highlights without compromising the integrity of the full recording.","question":"How does 'Image Recording Apparatus, Control Method of the Same, and Recording Medium' work?"},{"answer":"The Image Recording Apparatus, Control Method of the Same, and Recording Medium patent primarily solves the problem of latency and inefficiency in sharing specific video segments from an ongoing recording. In traditional video workflows, users must typically:\n\n1.  Record an entire video session.\n2.  Stop the recording.\n3.  Manually process or edit the footage to isolate a desired segment.\n4.  Then, finally, transmit or upload that segment.\n\nThis multi-step, sequential process creates significant delays. For breaking news, live sports, social media trends, or critical surveillance events, these delays can diminish the impact and relevance of the content. The need to stop recording also means potentially missing subsequent important moments.\n\nThis invention eliminates these bottlenecks by allowing for the instantaneous completion and transmission of a recorded segment *during* the continuous recording. It ensures that crucial moments can be shared almost as they happen, without interruption, thereby enhancing immediacy, streamlining workflows, and maximizing content impact. Keywords: video latency, real-time sharing, content efficiency, uninterrupted recording, media workflow.","question":"What problem does 'Image Recording Apparatus, Control Method of the Same, and Recording Medium' solve?"},{"answer":"The patent document (US-9852760) for \"Image Recording Apparatus, Control Method of the Same, and Recording Medium\" does not list specific inventors or an assignee in the provided abstract. This information is typically found in the full patent document, usually under the 'Inventors' and 'Assignee' fields.\n\nPatent filings often originate from individual inventors, teams within corporations, or research institutions. The assignee is the entity to whom the patent rights are legally transferred or assigned. Without access to the full patent details, the specific individuals or company behind the Image Recording Apparatus, Control Method of the Same, and Recording Medium cannot be identified from the provided abstract alone.\n\nTo find this information, one would need to consult the complete patent filing on a patent database, where details like inventors, assignee, and legal history are publicly available. Keywords: patent inventors, patent assignee, US-9852760, patent ownership, invention origin.","question":"Who invented 'Image Recording Apparatus, Control Method of the Same, and Recording Medium'?"},{"answer":"The Image Recording Apparatus, Control Method of the Same, and Recording Medium offers several transformative benefits across various applications:\n\n1.  **Instantaneous Content Sharing:** The primary benefit is the ability to share specific video highlights almost as they happen, significantly reducing the delay between capture and distribution. This is crucial for maximizing the impact of time-sensitive content.\n2.  **Uninterrupted Recording:** Unlike traditional methods, this technology allows the main recording to continue seamlessly while a segment is extracted and transmitted. This ensures that no subsequent crucial moments are missed.\n3.  **Enhanced Workflow Efficiency:** For professionals in media, broadcasting, and surveillance, the patent streamlines workflows by automating the segmenting and transmission process, reducing manual post-production efforts and speeding up content delivery.\n4.  **Improved User Experience:** For general consumers, it simplifies the process of sharing engaging moments, making advanced video capabilities more accessible and intuitive. This leads to more dynamic and interactive content creation.\n5.  **Competitive Advantage:** Manufacturers and service providers integrating this patent can differentiate their products and services by offering unique real-time capabilities that set them apart from competitors. Keywords: patent benefits, real-time video, content delivery, workflow optimization, user experience, competitive edge, Image Recording Apparatus, Control Method of the Same, and Recording Medium.","question":"What are the key benefits of 'Image Recording Apparatus, Control Method of the Same, and Recording Medium'?"},{"answer":"The Image Recording Apparatus, Control Method of the Same, and Recording Medium distinguishes itself from prior art primarily through its concurrent processing capabilities and intelligent control method. Traditional image recording systems typically follow a sequential process:\n\n1.  Record entire video.\n2.  Stop recording.\n3.  Process and finalize the complete video file.\n4.  Then, manually select and transmit segments.\n\nPrior art solutions often required interrupting the main recording to extract a segment, or relied on extensive post-production, introducing significant delays. Even basic live streaming often transmitted the entire raw feed without smart segmentation.\n\nIn contrast, this patent's innovation lies in its ability to perform these actions simultaneously: the recording unit continues to capture movie data, while the completion unit *during ongoing recording* processes and finalizes a *recorded part* of that data into a standalone file, which is then automatically transmitted. This non-disruptive, real-time segmentation and transmission is a fundamental departure from previous methods, offering unparalleled immediacy and efficiency. Keywords: patent differentiation, prior art, real-time segmentation, concurrent processing, video technology, Image Recording Apparatus, Control Method of the Same, and Recording Medium, US-9852760.","question":"How is 'Image Recording Apparatus, Control Method of the Same, and Recording Medium' different from prior art?"},{"answer":"The Image Recording Apparatus, Control Method of the Same, and Recording Medium has the potential to significantly impact a wide array of industries that rely on timely and efficient visual content:\n\n1.  **Media and Broadcasting:** News organizations can transmit breaking footage and sports broadcasters can share game highlights almost instantaneously, gaining a crucial competitive edge in fast-paced content delivery.\n2.  **Social Media and Content Creation:** Influencers and everyday users can create more dynamic and engaging content by sharing 'micro-moments' from longer recordings in real-time, boosting virality and audience interaction.\n3.  **Security and Surveillance:** Cameras can be configured to automatically transmit critical incident footage (e.g., unauthorized entry, suspicious activity) as it happens, providing immediate alerts and enhancing response capabilities.\n4.  **Event Management:** Organizers can provide real-time updates and highlights from conferences, concerts, or festivals, enhancing attendee experience and promotional efforts.\n5.  **Automotive and Logistics:** Dashcams or vehicle monitoring systems could instantly transmit footage of accidents or critical events to insurance providers or fleet managers, without interrupting continuous recording.\n\nThis technology is set to transform any sector where the speed and relevance of video content are paramount. Keywords: industry impact, media, social media, security, broadcasting, content creation, Image Recording Apparatus, Control Method of the Same, and Recording Medium, real-time applications.","question":"What industries will 'Image Recording Apparatus, Control Method of the Same, and Recording Medium' impact?"},{"answer":"The patent \"Image Recording Apparatus, Control Method of the Same, and Recording Medium\" (US-9852760) has specific dates associated with its lifecycle:\n\n*   **Filing Date:** The application for this patent was filed on **2016-08-05** (August 5, 2016).\n*   **Publication Date:** The patent was published on **2017-12-26** (December 26, 2017).\n\nThe filing date marks when the patent application was submitted to the patent office, establishing its priority date. The publication date is when the patent's details, including its abstract and claims, were made publicly available. This timeline indicates a relatively swift progression from filing to publication, underscoring the potential urgency or perceived importance of the innovation described in the Image Recording Apparatus, Control Method of the Same, and Recording Medium. Keywords: patent dates, filing date, publication date, US-9852760, patent timeline, invention history.","question":"When was 'Image Recording Apparatus, Control Method of the Same, and Recording Medium' filed/granted?"},{"answer":"The commercial applications of the Image Recording Apparatus, Control Method of the Same, and Recording Medium are extensive, spanning various industries and market segments:\n\n1.  **Consumer Electronics:** Integration into smartphones, action cameras, drones, and home security cameras to provide 'instant clip' functionality for social sharing, personal vlogging, and quick alerts.\n2.  **Professional Media Equipment:** Deployment in broadcast cameras, field reporting gear, and sports analysis systems to enable real-time highlights, breaking news footage transmission, and rapid content for live shows.\n3.  **Surveillance and Security Systems:** Smart security cameras and bodycams can automatically transmit short, high-resolution clips of detected incidents (e.g., motion, intrusion) to monitoring centers or mobile devices for immediate response.\n4.  **Automotive and Transportation:** Integration into dashcams and autonomous vehicle sensor systems to instantly record and transmit accident footage or critical operational data to cloud services, emergency services, or fleet managers.\n5.  **Industrial Monitoring:** Use in factory cameras or remote inspection drones to send real-time visual alerts of equipment malfunctions, safety incidents, or production anomalies to operators.\n\nThese applications demonstrate how the Image Recording Apparatus, Control Method of the Same, and Recording Medium can create new product features, enhance existing services, and drive significant value by delivering visual content with unprecedented speed and efficiency. Keywords: commercial applications, product features, market segments, consumer electronics, professional media, security systems, Image Recording Apparatus, Control Method of the Same, and Recording Medium.","question":"What are the commercial applications of 'Image Recording Apparatus, Control Method of the Same, and Recording Medium'?"},{"answer":"The Image Recording Apparatus, Control Method of the Same, and Recording Medium lays a robust foundation for exciting future developments in visual technology:\n\n1.  **AI-Powered Automation:** The 'predetermined instruction' can evolve to be triggered by advanced AI. Future devices could use on-device machine learning to automatically detect 'highlight' moments (e.g., a specific facial expression, a sports play, an anomaly) and instantly generate/transmit clips without any manual user input.\n2.  **Adaptive Streaming and Encoding:** Future iterations might incorporate adaptive streaming technologies that optimize the quality and size of the transmitted segment based on available network bandwidth and the external apparatus's capabilities, ensuring faster delivery under varying conditions.\n3.  **Enhanced Edge Processing:** As edge computing advances, more sophisticated video analysis and processing capabilities will reside directly on the recording device. This could lead to richer, more intelligent segments being transmitted, potentially with embedded metadata or AI-generated summaries.\n4.  **Integration with AR/VR:** Imagine AR glasses that can record and instantly share a user's augmented reality experience, clipping specific interactions or overlaid digital content in real-time.\n5.  **Multi-Source Synchronization:** Future systems could extend this concept to synchronize and instantly clip segments from multiple recording apparatuses (e.g., several cameras at an event), creating multi-angle highlight reels on the fly.\n\nThese developments will push the boundaries of real-time content creation and consumption, making devices even more intelligent, responsive, and seamlessly integrated into our digital lives, all building upon the principles outlined in the Image Recording Apparatus, Control Method of the Same, and Recording Medium patent. Keywords: future technology, AI integration, edge computing, adaptive streaming, AR/VR, multi-source video, Image Recording Apparatus, Control Method of the Same, and Recording Medium.","question":"What are the future developments expected for 'Image Recording Apparatus, Control Method of the Same, and Recording Medium'?"}],"topics":["Image Recording Apparatus, Control Method of the Same, and Recording Medium","real-time video sharing","movie data transmission","image recording patent","video content delivery","technical","background","landscape"],"tech_cluster":null},"seo":{"title":"Image Recording Apparatus, Control Method of the Same, and Recording Medium - Patent US-9852760","description":"Discover the Image Recording Apparatus, Control Method of the Same, and Recording Medium patent. Real-time video segment sharing while recording, enhancing content delivery.","keywords":["Image Recording Apparatus, Control Method of the Same, and Recording Medium","real-time video sharing","movie data transmission","image recording patent","video content delivery","US-9852760","live streaming technology","content creation innovation","recording medium control","patent analysis"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9852760","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-9852760","citation_suggestion":"Patentable. \"Image recording apparatus, control method of the same, and recording medium\" (US-9852760). https://patentable.app/patents/US-9852760","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9852760","json":"https://patentable.app/api/llm-context/US-9852760","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T13:35:56.007Z"}