{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853675","patent":{"patent_number":"US-9853675","title":"Multisensory phone case","assignee":null,"inventors":[],"filing_date":"2016-11-14T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H04B","A61B","A61B"],"num_claims":1,"abstract":"A mobile phone cover having a phone back, phone front, and a manipulable objects affixed to the phone back. The manipulable objects are configured to provide a user with sensory feedback that is tactile, visual, or audible or a combination of two or of three. A first tactile feedback includes a depress/release button and a corresponding audible feedback is a clicking sound. A second tactile feedback is rotary turning-in-place, and a corresponding audible feedback is a clicking sound or no sound. A third tactile feedback is a rocker motion and a corresponding audible feedback is a snapping sound. A fourth tactile feedback is an omnidirectional rolling ball and a corresponding audible feedback is no sound. A fifth tactile feedback is turnable gears and the corresponding audible feedback is a snapping sound. A sixth tactile feedback is depress/release half-domes and the corresponding audible feedback is a popping sound."},"analysis":{"summary":"The Multisensory Phone Case (US-9853675) is an innovative patent describing a mobile phone cover designed to significantly enhance user interaction through diverse sensory feedback. Unlike conventional phone cases that primarily offer protection, this invention integrates various manipulable objects directly onto the phone's back, providing tactile, visual, and/or audible responses.\n\nThe core innovation addresses the growing desire for more engaging and intuitive physical interaction with digital devices. It tackles the challenge of making smartphone accessories more than passive shields by transforming them into active, responsive interfaces. This is achieved through a modular design that can include a variety of interactive elements.\n\nTechnically, the patent details six distinct types of feedback mechanisms. These include a depress/release button that produces a clicking sound, a rotary turning-in-place object with optional clicking, a rocker motion generating a snapping sound, an omnidirectional rolling ball providing silent tactile feedback, turnable gears with a snapping sound, and depress/release half-domes that create a popping sound. Each mechanism is precisely configured to deliver a unique sensory experience, either individually or in combination.\n\nCommercially, this technology opens up substantial market opportunities in the smartphone accessory sector. It offers significant business value by enabling the creation of highly differentiated products that cater to enhanced user experience, accessibility needs, and even niche markets like mobile gaming or stress-relief gadgets. The Multisensory Phone Case has the potential to carve out new product categories and drive innovation in a historically feature-stagnant market. Its applications range from improving accessibility for users with disabilities to providing engaging physical controls for complex mobile applications, making it a compelling proposition for manufacturers and consumers alike.","layman_explanation":"## What Problem Does This Solve?\nIn our increasingly digital world, interacting with smartphones often feels impersonal. We primarily engage through touchscreens, which, while versatile, lack the rich, varied physical feedback we experience in the real world. Think about how satisfying it is to press a physical button, turn a knob, or click a pen. Our phones, despite being central to our lives, don't offer this diverse sensory engagement, leading to a somewhat 'flat' user experience. Existing solutions are limited to basic internal vibrations, which are generic and lack the specific, satisfying feedback of dedicated physical controls. This patent addresses the fundamental human desire for tangible interaction, aiming to make our digital devices feel more responsive and 'real'.\n\n## How Does It Work?\nThe Multisensory Phone Case patent is essentially a smart phone cover that integrates various small, interactive gadgets directly onto its back. Instead of just being a protective shell, this case becomes an active part of your phone's interface. Imagine a case with:\n\n*   **Clicky Buttons:** Like a traditional remote control button, you press it, and it gives a satisfying click sound and feel.\n*   **Spinning Dials:** A small knob you can turn, perhaps to adjust volume or scroll through options, giving a smooth or clicky rotation.\n*   **Rocker Switches:** A small lever that rocks back and forth, making a distinct 'snap' sound when moved, perfect for on/off or selection.\n*   **Rolling Balls:** A smooth, silent ball you can roll with your thumb, much like an old-school trackball, for navigation or just fidgeting.\n*   **Gears that Turn:** Tiny gears you can manipulate, providing a mechanical 'snap' as they engage.\n*   **Popping Domes:** Soft, half-dome buttons that give a satisfying 'pop' when pressed, similar to bubble wrap.\n\nEach of these elements is designed to provide a unique combination of touch and sound. The case could communicate these physical inputs to your phone wirelessly, allowing you to control apps, play games, or simply enjoy a more tactile experience. It's like giving your phone a set of physical 'toys' that also serve a purpose.\n\n## Why Does This Matter?\nThis innovation isn't just a novelty; it represents a significant market opportunity. In the competitive smartphone accessory market, differentiation is key. By offering a truly interactive case, manufacturers can create premium products that stand out from generic protectors. This could lead to new product lines targeting specific user groups:\n\n*   **Gamers:** Physical controls for mobile games could offer a more immersive and precise experience than on-screen buttons.\n*   **Accessibility:** For individuals with visual impairments, distinct tactile and audible cues on the case could make navigation and interaction much easier.\n*   **Stress Relief:** The various fidget-friendly elements could offer a discreet way to manage stress or anxiety, turning the phone into a therapeutic tool.\n\nThis technology provides a new avenue for generating revenue by expanding the functionality of phone accessories beyond protection. It allows brands to command higher price points and build stronger customer loyalty through a uniquely engaging product. The potential return on investment (ROI) is high for companies that can successfully bring these interactive cases to market, as they tap into a largely unaddressed segment of user desire for more physical, satisfying digital interactions.\n\n## What's Next?\nLooking ahead, the Multisensory Phone Case could evolve to include even more sophisticated haptic feedback, customizable modules that users can swap out, or integration with augmented reality applications. We might see a rapid adoption timeline as consumers seek more engaging ways to interact with their devices, especially in niche markets like gaming or wellness. For investors, this patent highlights a ripe area for investment in mobile peripherals that prioritize user experience and sensory engagement, moving beyond the current commodity trap of phone accessories.","technical_analysis":"The Multisensory Phone Case patent (US-9853675) details a novel approach to enhancing human-computer interaction by integrating diverse sensory feedback mechanisms directly into a mobile phone cover. This technical analysis explores the architecture, implementation details, and functional specifics outlined in this innovation.\n\n**Technical Architecture Overview:**\nThe fundamental architecture comprises a standard mobile phone cover (phone back and phone front) acting as a host for a series of independent yet integrated manipulable objects. Each object functions as a distinct input/output (I/O) module, providing tactile feedback, and optionally, audible and/or visual feedback. While the patent abstract focuses on the mechanical and sensory aspects, a complete system implementation would necessitate a low-power microcontroller within the case to manage these modules, sense user input, potentially generate local audible feedback, and communicate with the host smartphone. This communication would most likely occur via a wireless protocol such as Bluetooth Low Energy (BLE) or Near Field Communication (NFC) to ensure minimal power consumption and seamless integration.\n\n**Implementation Details of Sensory Feedback Mechanisms:**\n1.  **Depress/Release Button:** This mechanism typically involves a momentary switch (e.g., dome switch, microswitch) with a tactile dome or spring-loaded plunger. The tactile feedback is the physical travel and activation. The corresponding audible click is generated either mechanically by the switch itself (e.g., a snap-dome collapsing) or by a small piezoelectric transducer triggered upon activation, providing a crisp, distinct sound.\n2.  **Rotary Turning-in-Place:** Implementation could utilize a rotary encoder for precise digital input or a simpler mechanical detent system for discrete rotational steps. Tactile feedback is the rotational resistance and detent feel. The 'clicking sound' (if present) would be produced by a detent mechanism with a spring-loaded pin or pawl engaging with notches, or by an internal micro-speaker. The 'no sound' option would involve high-precision, low-friction bearings and smooth detents or continuous rotation without mechanical clickers.\n3.  **Rocker Motion:** A rocker switch, often employing an over-center spring mechanism, provides the tactile feedback of distinct states. The 'snapping sound' is a characteristic acoustic emission from the rapid transition of this spring mechanism between stable positions. Design considerations include material fatigue for repeated rocking actions and acoustic tuning for a desirable snap sound.\n4.  **Omnidirectional Rolling Ball:** This mechanism is similar to a trackball, requiring a freely rotating spherical element housed in a socket. The 'no sound' requirement is critical and implies precision manufacturing, low-friction materials (e.g., polished ceramics, engineering plastics), and potentially a lubrication system. Optical or magnetic sensors would track the ball's movement for input to the microcontroller.\n5.  **Turnable Gears:** This involves a set of intermeshing gears, where the tactile feedback is the resistance and sequential movement of the teeth. The 'snapping sound' would likely be achieved through a detent mechanism or a small spring-loaded component that engages and disengages with the gear teeth, creating an audible 'snap' at specific rotational intervals.\n6.  **Depress/Release Half-Domes:** These elements are typically flexible, elastic domes (e.g., silicone, rubber). The 'popping sound' is generated by the rapid inversion and subsequent restoration of the dome's shape when pressed and released. The material properties (durometer, thickness) and geometry of the dome are critical for achieving the desired tactile feel and acoustic pop.\n\n**Integration Patterns and Performance Characteristics:**\nThe integration of these diverse modules into a slim phone case presents engineering challenges regarding space, power, and durability. Each module must be robust enough for repeated use without compromising the phone's protection. Power management is crucial; miniature batteries within the case (rechargeable via induction or USB-C) would power the microcontroller and any active sound generators. Performance characteristics would include the responsiveness of tactile feedback (minimal latency), the clarity and volume of audible feedback, and the durability (cycle life) of mechanical components. The modular nature allows for customization, meaning specific cases could feature a subset of these interactions tailored for particular user needs, such as a gaming case emphasizing buttons and rotary dials, or an accessibility case focusing on distinct tactile cues.\n\nThis technology represents a significant advancement in peripheral device design, moving towards a more holistic and physically engaging user interface. Its detailed specification provides a strong foundation for developing next-generation mobile accessories that go beyond passive protection to active interaction. For a comprehensive review of the specific claims and diagrams, interested engineers can refer to the full Multisensory Phone Case patent (US-9853675) documentation.","business_analysis":"The Multisensory Phone Case patent (US-9853675) presents a compelling business proposition within the burgeoning smartphone accessory market. This innovation offers a unique blend of enhanced user experience and novel functionality, poised to capture significant market share and open new revenue streams.\n\n**Market Opportunity Size:**\nThe global smartphone accessories market is substantial, projected to reach hundreds of billions of dollars in the coming years. Within this, phone cases represent a significant segment. While the market is mature, it's also highly competitive and often commoditized. The Multisensory Phone Case introduces a disruptive element by moving beyond mere aesthetics and protection to offer active, interactive features. This creates a new premium category, appealing to consumers willing to pay more for differentiated functionality and an enriched user experience. Target segments include mobile gamers, users seeking enhanced accessibility, individuals looking for stress-relief tools, and general consumers desiring a more engaging interaction with their devices.\n\n**Competitive Advantages:**\nThis patent provides a strong competitive moat. Existing phone cases primarily compete on design, material, and basic protection. Integrated haptic feedback is typically internal to the phone. The Multisensory Phone Case differentiates itself by:\n1.  **Novelty and Innovation:** It's a genuinely new product category, offering unique tactile and audible feedback directly from the case.\n2.  **Enhanced User Experience:** It transforms a passive accessory into an active interface, providing a more intuitive and satisfying interaction.\n3.  **Versatility:** The modular nature of the various feedback mechanisms (buttons, dials, rockers, rolling balls, gears, domes) allows for highly customizable products tailored to specific user needs or applications.\n4.  **Accessibility:** It offers tangible benefits for users with visual impairments or other disabilities, providing alternative interaction methods.\n5.  **Brand Differentiation:** Companies can leverage this technology to create distinctive brand identities and command premium pricing in a crowded market.\n\n**Revenue Potential and Business Models:**\nRevenue potential is high, driven by premium pricing for innovative features and potential licensing opportunities. Possible business models include:\n*   **Direct-to-Consumer (DTC) Sales:** Selling branded Multisensory Phone Cases directly to consumers.\n*   **OEM Partnerships:** Licensing the technology to major smartphone manufacturers or established accessory brands for integration into their product lines.\n*   **Niche Market Specialization:** Developing specialized cases for specific segments, e.g., 'Gamer Cases' with enhanced physical controls, 'Accessibility Cases' with distinct tactile cues, or 'Wellness Cases' with fidget features.\n*   **Subscription Services (potential):** Offering premium apps or content that leverage the case's unique inputs, creating recurring revenue.\n\n**Strategic Positioning:**\nCompanies adopting this technology can strategically position themselves as innovators in the mobile accessory space, moving beyond generic offerings. The focus shifts from 'protection' to 'interaction' and 'experience'. This enables premium pricing and fosters brand loyalty through unique utility. Early movers can establish market leadership and intellectual property dominance.\n\n**ROI Projections:**\nInvestment in developing and commercializing the Multisensory Phone Case technology has strong ROI potential. Initial R&D costs for miniaturization, material science, and integration would be offset by premium pricing, high-volume sales in a large market, and potential licensing royalties. The ability to create new product categories and capture unmet consumer demand for richer physical interaction suggests a rapid return on investment and sustained profitability. This innovation isn't just about a new product; it's about pioneering a new dimension of mobile interaction.","faqs":[{"answer":"The Multisensory Phone Case (US-9853675) is a patented innovation describing a mobile phone cover that goes beyond mere protection by integrating various manipulable objects directly onto its back. These objects are designed to provide users with a rich combination of tactile (touch), visual, and/or audible (sound) feedback, significantly enhancing the user's interaction with their smartphone.\n\nUnlike traditional phone cases that are passive, this invention transforms the accessory into an active interface. It aims to reintroduce tangible, satisfying physical feedback into the digital experience, making phone use more engaging and intuitive. The patent details a modular system that can incorporate a variety of interactive elements, each offering a unique sensory response.\n\nThis technology addresses the limitations of screen-only interaction and generic vibrations, offering a new dimension for how we perceive and use our mobile devices. It's a foundational step towards more holistic and physically engaging human-computer interaction.","question":"What is the Multisensory Phone Case?"},{"answer":"The Multisensory Phone Case works by embedding several distinct, interactive mechanisms into the phone cover's back. Each mechanism is engineered to respond to user manipulation with specific tactile and, in many cases, audible feedback. For example, pressing a button on the case might result in a definitive 'click' sound, while turning a dial could produce a smooth rotation or a series of 'snaps'.\n\nThe patent outlines six primary types of feedback:\n1.  **Depress/Release Button:** Provides tactile feedback with a corresponding audible clicking sound.\n2.  **Rotary Turning-in-Place:** Offers tactile rotation, with an option for a clicking sound or silent operation.\n3.  **Rocker Motion:** Delivers tactile feedback accompanied by a snapping sound.\n4.  **Omnidirectional Rolling Ball:** Provides smooth tactile feedback without any sound.\n5.  **Turnable Gears:** Offers tactile engagement with a corresponding snapping sound.\n6.  **Depress/Release Half-Domes:** Produces tactile feedback with a satisfying popping sound.\n\nThese physical inputs are likely detected by miniature sensors within the case and communicated wirelessly (e.g., via Bluetooth Low Energy) to the smartphone, allowing for custom actions or enhanced app control. The system effectively turns the phone case into an extension of the phone's interface, providing a more direct and physically engaging interaction.","question":"How does the Multisensory Phone Case work?"},{"answer":"The Multisensory Phone Case solves the problem of impersonal and limited interaction with mobile devices. In an era dominated by touchscreens and generic vibrations, the physical feedback from smartphones often falls short of the rich, varied tactile experiences we encounter in the real world. This can lead to a less engaging user experience, reduced precision in certain tasks (like gaming), and challenges for accessibility.\n\nThe patent addresses the inherent 'flatness' of purely visual digital interfaces by reintroducing diverse, explicit physical controls and sensory cues. It tackles the challenge of making smartphone accessories more than just passive protectors, transforming them into active, responsive interfaces that enhance usability and satisfaction. By offering distinct tactile and audible feedback for various actions, the invention provides a more intuitive, immersive, and satisfying way to interact with a smartphone, bridging the gap between digital functionality and physical engagement.","question":"What problem does the Multisensory Phone Case solve?"},{"answer":"The patent for the Multisensory Phone Case, US-9853675, does not list specific inventors in the provided data. This information is typically found in the full patent document filed with the United States Patent and Trademark Office (USPTO).\n\nWhile the inventors' names are not provided in the abstract, the innovation itself stems from a recognition of the need for more engaging and diverse physical interaction with mobile devices. Such inventions often arise from teams of industrial designers, mechanical engineers, and human-computer interaction specialists seeking to enhance user experience beyond conventional digital interfaces. The assignee, if listed, would indicate the company or entity that owns the patent rights.","question":"Who invented the Multisensory Phone Case?"},{"answer":"The Multisensory Phone Case offers several key benefits that significantly enhance the smartphone user experience:\n\n1.  **Enhanced User Engagement:** By providing diverse tactile and audible feedback, it makes interactions more intuitive, satisfying, and enjoyable, fostering a deeper connection between the user and their device.\n2.  **Improved Accessibility:** The distinct physical controls and clear audible cues offer invaluable alternative interaction methods for users with visual impairments or motor difficulties, making smartphones more accessible.\n3.  **Gaming and Control:** It introduces a new dimension for mobile gaming, providing physical buttons, dials, and rollers that can offer greater precision, immersion, and control compared to on-screen virtual buttons.\n4.  **Stress Relief and Focus:** Elements like the rolling ball or popping half-domes can serve as discreet fidget tools, helping users manage stress, anxiety, or improve focus during tasks.\n5.  **Product Differentiation:** For manufacturers, this technology provides a unique selling proposition in a crowded market, allowing for the creation of premium, innovative accessories that stand out from generic protective cases.\n6.  **Customization:** The modular nature of the various feedback mechanisms allows for tailored product designs, catering to specific user preferences or application needs.","question":"What are the key benefits of the Multisensory Phone Case?"},{"answer":"The Multisensory Phone Case differentiates itself significantly from prior art by integrating a *diverse array* of explicit tactile and audible feedback mechanisms directly into a phone case, moving beyond the limitations of existing solutions.\n\nPrior art typically includes:\n*   **Standard Protective Cases:** These offer no interactive functionality, focusing solely on protection and aesthetics.\n*   **Basic Smart Cases:** Some cases offer limited 'smart' features like e-ink displays or integrated keyboards, but these usually provide a single, specific type of interaction and lack varied sensory feedback.\n*   **External Gaming Controllers:** These provide physical controls but are separate, often bulky devices, not integrated into the everyday phone case.\n*   **Internal Haptic Systems:** Smartphones have built-in vibration motors for generic haptic feedback. This is uniform and generalized, lacking the distinct, varied tactile and auditory responses of dedicated physical mechanisms. The Multisensory Phone Case provides localized, specific feedback (e.g., a *click* from a button, a *snap* from a rocker) that goes far beyond a general buzz.\n\nThis innovation stands apart by offering a comprehensive suite of manipulable objects—buttons, dials, rockers, rolling balls, gears, and popping domes—each designed for a unique sensory experience, transforming the phone case into an active, multi-modal interface.","question":"How is the Multisensory Phone Case different from prior art?"},{"answer":"The Multisensory Phone Case has the potential to impact several industries significantly:\n\n1.  **Mobile Accessory Industry:** It will revolutionize this market by creating a new, premium category of interactive phone cases, moving beyond basic protection to offer enhanced user experience and functionality. This will drive innovation and differentiation among manufacturers.\n2.  **Mobile Gaming Industry:** By providing physical controls directly integrated into the phone case, it can offer a more immersive and precise gaming experience, potentially attracting console gamers to mobile platforms and enabling new game mechanics.\n3.  **Assistive Technology/Accessibility Sector:** The distinct tactile and audible feedback mechanisms can greatly improve smartphone accessibility for individuals with visual impairments, motor challenges, or cognitive disabilities, offering more reliable and intuitive interaction methods.\n4.  **Wellness and Lifestyle:** The fidget-friendly elements (like the rolling ball or popping domes) can cater to the growing market for stress-relief and mindfulness tools, providing discreet ways to manage anxiety or improve focus.\n5.  **Human-Computer Interaction (HCI) Research:** The patent provides a practical framework for exploring advanced multi-modal interaction, inspiring further research and development in haptics, sensory integration, and user interface design across various devices.","question":"What industries will the Multisensory Phone Case impact?"},{"answer":"The Multisensory Phone Case patent, identified as US-9853675, has a specific timeline regarding its application and publication:\n\n*   **Filing Date:** The patent application was filed on **2016-11-14**.\n*   **Publication Date:** The patent was published on **2017-12-26**.\n\nThese dates mark the official records of the patent with the United States Patent and Trademark Office (USPTO). The filing date establishes the priority date for the invention, while the publication date indicates when the patent document became publicly available, detailing the claims, abstract, and figures of the Multisensory Phone Case technology. This timeline is crucial for understanding the intellectual property landscape and the novelty of the invention at the time of its disclosure.","question":"When was the Multisensory Phone Case filed/granted?"},{"answer":"The commercial applications of the Multisensory Phone Case are diverse and span across various consumer and specialized markets:\n\n1.  **Premium Consumer Accessories:** Manufacturers can offer high-end phone cases that provide a superior user experience, commanding premium prices due to their innovative interactive features.\n2.  **Gaming-Specific Cases:** Cases designed with optimal button layouts, rotary dials, or rolling balls can be marketed directly to mobile gamers seeking a more tactile and responsive gaming experience.\n3.  **Accessibility Products:** Specialized cases can be developed for users with disabilities, integrating specific tactile textures, enlarged buttons, or distinct audible cues to enhance navigation and interaction.\n4.  **Stress-Relief/Fidget Devices:** Cases incorporating elements like popping domes or rolling balls can be positioned as discreet stress-relief tools, appealing to individuals seeking ways to manage anxiety or improve focus.\n5.  **Productivity Enhancers:** Customizable cases can allow users to assign physical controls to frequently used app functions or system settings, boosting productivity and enabling 'eyes-free' operation for certain tasks.\n6.  **Licensing Opportunities:** The patent holders can license the technology to major smartphone manufacturers or established accessory brands, enabling broader market penetration and generating royalty revenues. This innovation opens up entirely new product categories beyond traditional phone protection.","question":"What are the commercial applications of the Multisensory Phone Case?"},{"answer":"Future developments for the Multisensory Phone Case could lead to even more sophisticated and integrated mobile interaction experiences:\n\n1.  **Dynamic Haptic Surfaces:** Beyond fixed manipulable objects, future iterations might involve dynamically reconfigurable surfaces on the case that can change texture, provide localized force feedback, or even present virtual buttons that appear and disappear as needed.\n2.  **Advanced Material Science:** Integration of smart materials could enable elements that change properties (e.g., stiffness, temperature) based on user input or application context, offering an even richer sensory palette.\n3.  **Deeper Software Integration:** Tighter integration with operating systems and third-party applications will unlock more intuitive and powerful use cases, making the physical controls seamlessly part of the digital experience.\n4.  **Modular & Swappable Components:** Users might be able to easily swap out different tactile modules on their case, allowing for extreme personalization and adaptability for various activities or moods.\n5.  **Augmented Reality (AR) Feedback:** The physical controls on the case could provide haptic anchors and feedback that align with AR overlays, blurring the lines between physical and virtual interaction.\n6.  **Energy Harvesting & Self-Powering:** Research into energy harvesting (e.g., from ambient light, kinetic motion) could lead to self-powered cases, eliminating the need for separate charging. The Multisensory Phone Case is a foundational step towards a truly interactive and responsive mobile ecosystem.","question":"What are the future developments expected for the Multisensory Phone Case?"}],"topics":["multisensory phone case","mobile interaction","tactile feedback","haptic technology","smartphone accessories","multisensory","phone","9853675"],"tech_cluster":null},"seo":{"title":"Multisensory Phone Case - Redefining Mobile Interaction (US-9853675)","description":"Explore the Multisensory Phone Case patent (US-9853675) – an innovation integrating tactile, visual, and audible feedback into phone covers. Enhance user experience, accessibility, and gaming.","keywords":["multisensory phone case","mobile interaction","tactile feedback","haptic technology","smartphone accessories","user experience","patent US-9853675","innovation","gaming accessories","accessibility tech","fidget phone case","interactive phone cover","physical controls","audible feedback"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853675","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-9853675","citation_suggestion":"Patentable. \"Multisensory phone case\" (US-9853675). https://patentable.app/patents/US-9853675","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853675","json":"https://patentable.app/api/llm-context/US-9853675","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T04:55:06.440Z"}