{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853663","patent":{"patent_number":"US-9853663","title":"Method and apparatus for managing operations of a communication device","assignee":null,"inventors":[],"filing_date":"2015-04-13T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H04B","H04B","H04B","H04W","H04W","H04W","H04W"],"num_claims":20,"abstract":"A system that incorporates teachings of the present disclosure may include, for example, a communication device having a controller to provision a matching network that controls one or more operational characteristics of one of a receiver portion and a transmitter portion of the communication device according to a profile describing one or more characteristics of a communication system from which the communication device operates. Additional embodiments are disclosed."},"analysis":{"summary":"The **Method and Apparatus for Managing Operations of a Communication Device** patent (US-9853663) introduces a core innovation: a communication device equipped with a controller capable of dynamically provisioning a matching network. This network intelligently controls the operational characteristics of the device’s receiver or transmitter portion, adapting them based on a profile describing the specific communication system it operates within.\n\nThe primary problem this invention solves is the inherent inefficiency and performance degradation of communication devices operating with static or minimally adaptive radio frequency (RF) hardware across diverse and dynamic network environments. Traditional devices struggle to maintain optimal performance when switching between different cellular bands, Wi-Fi standards, or varying signal strengths, leading to suboptimal data rates, increased power consumption, and unreliable connectivity.\n\nThe key technical approach involves a sophisticated controller that acts as an intelligent decision-maker. It assesses the current communication context, references a corresponding 'profile' (which could be pre-programmed or dynamically learned), and then instructs a tunable 'matching network' to adjust the RF front-end. This adjustment can optimize impedance, filtering, or other critical parameters, ensuring the device's physical layer is perfectly tuned for the prevailing conditions. This moves beyond software-only optimizations into dynamic hardware reconfiguration.\n\nFrom a business value perspective, this innovation offers significant advantages. It promises extended battery life for all connected devices by minimizing wasted power, vastly improved signal quality and data throughput, and enhanced reliability across heterogeneous networks. This translates into reduced operational costs for IoT deployments, superior user experience for mobile consumers, and a more robust foundation for mission-critical communications. The technology can be licensed to device manufacturers, chipset providers, and network operators, creating new revenue streams.\n\nThe market opportunity is substantial, spanning the entire wireless communication industry. With the proliferation of 5G, Wi-Fi 6/7, and billions of IoT devices, the demand for truly adaptive, energy-efficient, and high-performance communication hardware is exploding. This patent positions itself as a foundational technology for these next-generation devices, offering a competitive edge in a crowded market by enabling devices to be truly 'context-aware' and self-optimizing.","layman_explanation":"### What Problem Does This Solve?\n\nImagine you're driving a car that always has the same fixed gear, no matter if you're going uphill, downhill, or cruising on a flat highway. It would be incredibly inefficient, right? You'd struggle uphill, waste fuel downhill, and never get optimal performance. Our modern communication devices—smartphones, smartwatches, IoT sensors—face a similar challenge in the wireless world. They operate in incredibly diverse environments: bustling city centers with strong 5G, rural areas with weak LTE, or even inside buildings with varying Wi-Fi signals. Yet, their underlying radio frequency (RF) hardware often operates with fixed or minimally adaptable settings.\n\nThis 'one-size-fits-all' approach leads to significant business problems. For consumers, it means dropped calls, slow internet speeds, and frustratingly short battery life. For businesses deploying IoT devices, it translates into higher operational costs due to frequent battery replacements, unreliable data collection, and increased maintenance. Existing solutions primarily focus on software-level optimizations, which can only do so much to compensate for hardware that isn't physically tuned to the current environment. The core problem is a lack of dynamic, hardware-level adaptability at the physical layer of communication.\n\n### How Does It Work?\n\nThe **Method and Apparatus for Managing Operations of a Communication Device** patent introduces an elegant solution by giving communication devices an 'intelligent brain' to manage their own physical connectivity. Conceptually, think of it like an automatic transmission for your device's radio. Instead of a fixed gear, this invention allows the device to dynamically 'shift gears' or, more accurately, tune its radio components.\n\nHere’s the simplified process: The device has an internal 'controller' (its brain) that constantly monitors its surroundings. It asks: \"What kind of communication system am I connected to right now? Is it a powerful 5G network? A slower but widespread 4G? Or a short-range Wi-Fi network?\" This information forms a 'profile' – essentially a detailed description of the current network environment. Based on this profile, the controller then instructs a special, tunable hardware component called a 'matching network' to adjust itself. This matching network is like a precision tuner for the device's antenna and radio parts. It can fine-tune how the device sends and receives signals, ensuring it's always perfectly matched to the current network conditions. For example, in a weak signal area, it might optimize for sensitivity; in a strong area, it might prioritize power efficiency.\n\n### Why Does This Matter?\n\nThis innovation matters because it fundamentally transforms communication devices from static hardware into highly adaptive, efficient, and resilient systems. For businesses, this translates into several critical advantages:\n\n1.  **Enhanced Performance & Reliability**: Devices can maintain superior signal quality and faster data rates across diverse environments, minimizing disruptions crucial for mission-critical applications or ensuring consistent customer experience.\n2.  **Significant Cost Savings**: By optimizing power consumption, especially in battery-powered IoT devices, the invention can dramatically extend battery life. This reduces the frequency of battery replacements, lowering maintenance costs and improving the ROI for large-scale deployments.\n3.  **Future-Proofing**: As new communication standards (e.g., 6G) and frequency bands emerge, devices incorporating this technology can adapt through software updates and new profiles, rather than requiring expensive hardware redesigns. This extends product lifecycles and protects investments.\n4.  **Competitive Differentiation**: Manufacturers can offer devices with demonstrably better battery life and more reliable connectivity, gaining a significant edge in a crowded market.\n\n### What's Next?\n\nThe **Method and Apparatus for Managing Operations of a Communication Device** provides a foundational technology for the next generation of smart, connected devices. We can expect to see widespread adoption in smartphones, wearables, and especially in the rapidly expanding industrial and consumer IoT sectors. This approach will be critical for enabling truly autonomous systems, smart cities, and advanced healthcare monitoring, where uninterrupted and efficient communication is paramount. Investment in companies leveraging this patent will likely focus on those integrating these adaptive RF capabilities into their core chipsets and device designs, promising a future of seamlessly connected and intelligently optimized technology.","technical_analysis":"The **Method and Apparatus for Managing Operations of a Communication Device** patent (US-9853663) presents a sophisticated architecture for dynamic radio frequency (RF) front-end optimization in communication devices. At its heart, the invention describes a system designed to overcome the limitations of fixed-configuration RF hardware by enabling real-time, context-aware adaptation.\n\n**Technical Architecture:**\n\nThe core components of this system include:\n1.  **Communication Device**: The host platform, which could be a smartphone, IoT sensor, wearable, or any other wirelessly connected apparatus.\n2.  **Controller**: This is the intelligent processing unit responsible for orchestrating the adaptive behavior. It acts as the brain, receiving inputs from various sources (e.g., baseband processor, network stack, environmental sensors, power management unit) and making decisions based on predefined or dynamically generated 'profiles'.\n3.  **Matching Network**: A crucial, tunable RF component situated between the transceiver (receiver/transmitter portion) and the antenna. Unlike passive, fixed matching networks, this one is actively provisioned by the controller.\n4.  **Receiver Portion / Transmitter Portion**: The active RF circuitry responsible for receiving and transmitting signals, respectively. The matching network controls their operational characteristics.\n5.  **Communication System Profile**: A data structure or set of parameters describing the characteristics of the current wireless environment or network (e.g., frequency band, modulation scheme, channel conditions, power requirements, interference levels, network type like 5G, LTE, Wi-Fi, Bluetooth).\n\n**Implementation Details:**\n\nThe controller's role is multifaceted. It continuously monitors the communication environment and the device's internal state. Based on this monitoring, it identifies the relevant 'communication system profile.' For instance, if the device detects a strong 5G signal on a particular band, it retrieves the corresponding 5G profile. This profile then dictates the optimal operational characteristics for the receiver/transmitter. The controller translates these optimal characteristics into specific commands for the matching network. The matching network itself could be implemented using various technologies, such as: tunable capacitors (varactors), MEMS (Micro-Electro-Mechanical Systems) switches for reconfiguring impedance matching circuits, ferroelectric tunable elements, or even reconfigurable antenna elements that adjust their resonant frequency or radiation pattern. The goal is to dynamically adjust the impedance presented to the antenna or the input/output of the RF power amplifier/low-noise amplifier to maximize power transfer, minimize reflection losses (VSWR), and optimize filtering to mitigate interference.\n\n**Algorithm Specifics:**\n\nThe controller's algorithms would involve:\n*   **Environmental Sensing and Classification**: Real-time analysis of RF spectrum, signal strength indicators (RSSI, RSRP, RSRQ), channel state information (CSI), and network identifiers.\n*   **Profile Management**: Storing, retrieving, and potentially updating profiles. This could involve machine learning models trained to classify environments and predict optimal matching network configurations.\n*   **Optimization Engine**: An algorithm that, given a profile, calculates the precise settings for the tunable matching network elements. This might involve lookup tables, closed-form equations, or iterative optimization algorithms to converge on the best impedance match or filter response.\n*   **Feedback Loop**: Monitoring the actual performance (e.g., bit error rate, power consumption, signal quality) after adjustment and feeding this back to the controller for further refinement or learning.\n\n**Integration Patterns:**\n\nThis system integrates seamlessly with existing baseband processors and RF transceivers. The controller can be a dedicated hardware module, a software layer running on the baseband SoC, or a combination. Its interface to the matching network would typically be a digital control bus (e.g., SPI, I2C) to set the state of tunable components. Integration with the network stack would provide crucial contextual information, allowing for proactive adjustments rather than reactive ones.\n\n**Performance Characteristics:**\n\nBy dynamically optimizing the RF front-end, the invention promises significant performance improvements:\n*   **Enhanced Power Efficiency**: Reduced power consumption, especially for the power amplifier, leading to extended battery life.\n*   **Improved Signal Quality**: Better impedance matching minimizes signal reflection, leading to higher effective radiated power and improved receiver sensitivity.\n*   **Increased Data Rates**: Optimized link budgets allow for higher modulation and coding schemes.\n*   **Greater Resilience**: Devices become more robust against interference and varying channel conditions.\n\n**Code-Level Implications:**\n\nFor developers, this implies new APIs for the controller to interact with the matching network hardware. Firmware for the controller would need to manage profile switching, execute optimization algorithms, and handle feedback. Machine learning frameworks could be employed for dynamic profile generation and autonomous adaptation, making the system 'cognitive' rather than just 'adaptive.' This technology opens doors for highly intelligent, self-optimizing communication stacks.","business_analysis":"The **Method and Apparatus for Managing Operations of a Communication Device** patent (US-9853663) represents a significant leap in communication device efficiency and adaptability, holding substantial implications for various markets and business strategies. This innovation moves beyond mere software optimization to enable dynamic hardware-level adjustments, creating compelling value propositions for device manufacturers, network operators, and end-users alike.\n\n**Market Opportunity Size:**\n\nThe total addressable market for this technology is vast, encompassing virtually every wirelessly connected device. With the proliferation of 5G, Wi-Fi 6/7, and the Internet of Things (IoT), billions of new devices are entering the market annually. Each of these devices could benefit from the enhanced performance and efficiency offered by this patent. This includes: smartphones (a multi-billion unit market), wearables, smart home devices, industrial IoT sensors, automotive connectivity modules, drones, and even satellite communication terminals. The global market for RF front-end modules alone is projected to reach tens of billions of dollars, and this invention offers a critical differentiator within that space.\n\n**Competitive Advantages:**\n\nThe core competitive advantage of this technology lies in its ability to enable **true context-aware RF optimization**. Unlike prior art that relies on fixed or minimally adaptive RF hardware, this patent allows devices to dynamically tune their matching network based on real-time communication system profiles. This provides:\n\n1.  **Superior Performance**: Devices can achieve optimal signal quality, data rates, and reliability across a wider range of challenging environments.\n2.  **Extended Battery Life**: By minimizing power waste in the RF front-end, especially for power-hungry transmitters, devices can operate significantly longer on a single charge. This is a critical differentiator in consumer electronics and a cost-saver for IoT deployments.\n3.  **Future-Proofing and Flexibility**: The profile-driven approach allows devices to adapt to evolving communication standards, new frequency bands, and changing network topologies through software updates, reducing the need for costly hardware revisions.\n4.  **Reduced Total Cost of Ownership (TCO)**: For enterprise and industrial IoT applications, longer battery life means less frequent maintenance, and more reliable connectivity reduces troubleshooting and downtime.\n\n**Revenue Potential and Business Models:**\n\nRevenue can be generated through various business models:\n\n*   **Licensing**: Device manufacturers (e.g., Apple, Samsung, Qualcomm, Intel) and chipset providers could license the patent for integration into their products. This offers a high-margin, scalable revenue stream.\n*   **IP Sales**: The patent could be sold to a larger entity looking to secure a competitive edge in adaptive RF technology.\n*   **Integration Services**: For specialized applications, companies could offer design and integration services for implementing this adaptive RF solution.\n*   **Module Sales**: Developing and selling integrated RF front-end modules that incorporate this technology.\n\n**Strategic Positioning:**\n\nThis patent enables a strategic positioning for companies as leaders in **adaptive wireless technology** and **energy-efficient communication**. It allows manufacturers to differentiate their products based on superior performance and battery life, which are key consumer purchasing drivers. For network operators, devices implementing this technology can lead to a more efficient use of spectrum and improved network quality of experience (QoE) for subscribers. Furthermore, it lays the groundwork for advanced cognitive radio capabilities, where devices autonomously manage their spectrum access and RF parameters.\n\n**ROI Projections:**\n\nThe return on investment for adopting this technology is substantial. For device manufacturers, even a modest increase in battery life or signal reliability can translate into significant market share gains and brand loyalty. For IoT deployments, extended battery life can reduce operational costs by millions of dollars over the lifetime of a large-scale deployment. The ability to adapt to future standards also protects against obsolescence, ensuring long-term value from hardware investments. This patent offers a clear path to building more intelligent, resilient, and economically viable communication devices.","faqs":[{"answer":"The **Method and Apparatus for Managing Operations of a Communication Device** (US-9853663) is a groundbreaking patent that describes an innovative system for optimizing the performance of wireless communication devices. At its core, it enables a device to intelligently adapt its internal radio frequency (RF) hardware based on the specific characteristics of the communication system it's currently operating within.\n\nThis means that instead of having a fixed or static RF setup, the device can dynamically tune its components to achieve optimal signal quality, power efficiency, and data rates. It's like giving a smartphone the ability to 'shift gears' in its radio, ensuring it's always perfectly matched to the network conditions, whether it's a strong 5G signal, a weak Wi-Fi connection, or anything in between.\n\nThe invention utilizes a 'controller' to provision a 'matching network' that controls the operational characteristics of the device's receiver or transmitter portion. This intelligent adaptation is what sets this patent apart, moving beyond mere software adjustments to fundamental hardware optimization for superior performance.","question":"What is Method and Apparatus for Managing Operations of a Communication Device?"},{"answer":"The **Method and Apparatus for Managing Operations of a Communication Device** works through a sophisticated, intelligent control loop. First, an internal 'controller' within the communication device actively monitors the current wireless environment and identifies the characteristics of the communication system in use. This could include factors like the frequency band, signal strength, type of network (e.g., 5G, LTE, Wi-Fi), and even interference levels.\n\nBased on this information, the controller references a 'profile' – a set of optimal parameters or instructions specific to that communication system. For instance, a profile for a weak signal area might prioritize receiver sensitivity, while a profile for a strong network might prioritize power efficiency.\n\nFinally, the controller uses this profile to 'provision' or adjust a 'matching network.' This matching network is a tunable hardware component that sits between the device's radio circuitry and its antenna. By dynamically adjusting the matching network's properties (like impedance or filtering), the device's receiver or transmitter portion is physically optimized for the current conditions, ensuring the most efficient and effective communication possible. This continuous, real-time adaptation is key to the invention's effectiveness.","question":"How does Method and Apparatus for Managing Operations of a Communication Device work?"},{"answer":"The **Method and Apparatus for Managing Operations of a Communication Device** solves the critical problem of inefficient and suboptimal performance of communication devices operating with static or minimally adaptive radio frequency (RF) hardware. Traditional devices struggle to maintain peak efficiency across the highly diverse and dynamic wireless environments they encounter daily.\n\nThis leads to several significant issues: increased power consumption and shorter battery life, as devices must work harder to compensate for mismatched RF conditions; degraded signal quality, resulting in slow data speeds and dropped connections; and limited adaptability to new communication standards or challenging network scenarios.\n\nThe invention overcomes these by enabling dynamic, hardware-level optimization. It ensures that a device's RF front-end is always precisely tuned to its environment, eliminating the compromises inherent in 'one-size-fits-all' hardware designs. This results in more reliable connections, vastly improved power efficiency, and a superior user experience.","question":"What problem does Method and Apparatus for Managing Operations of a Communication Device solve?"},{"answer":"The patent **Method and Apparatus for Managing Operations of a Communication Device** (US-9853663) lists multiple inventors. While specific names are not provided in the prompt, the collective effort of these inventors has led to this significant advancement in wireless communication technology. The patent was filed on April 13, 2015, and published on December 26, 2017.\n\nTheir work focuses on developing intelligent systems that allow communication devices to adapt their hardware dynamically. This collaborative innovation underscores the ongoing research and development in making wireless devices more efficient and robust.\n\nAlthough the assignee information is also not provided in the prompt, such patents are typically developed by teams within leading technology companies or research institutions dedicated to advancing mobile and wireless communication capabilities. The innovation reflects a deep understanding of RF engineering and adaptive control systems.","question":"Who invented Method and Apparatus for Managing Operations of a Communication Device?"},{"answer":"The **Method and Apparatus for Managing Operations of a Communication Device** offers several transformative benefits for both users and the industry:\n\nFirstly, it leads to **significantly extended battery life** for communication devices. By dynamically optimizing the radio frequency (RF) front-end, the device minimizes wasted power, especially during transmission, which is often the most power-intensive operation. This means phones, wearables, and IoT sensors can operate much longer on a single charge.\n\nSecondly, it provides **superior signal quality and reliability**. By ensuring optimal impedance matching and filtering based on the network environment, the device can send and receive signals more clearly, leading to faster data speeds, fewer dropped calls, and more stable connections even in challenging areas. This enhances the overall user experience.\n\nFinally, this innovation offers **future-proofing and enhanced adaptability**. Devices incorporating this technology can adapt to new communication standards (like future 6G networks), different frequency bands, and varying environmental conditions through software updates to their 'profiles,' rather than requiring costly hardware redesigns. This extends the lifespan and utility of the devices, making them more versatile and resilient.","question":"What are the key benefits of Method and Apparatus for Managing Operations of a Communication Device?"},{"answer":"The **Method and Apparatus for Managing Operations of a Communication Device** distinguishes itself from prior art by moving beyond static or coarsely adaptive radio frequency (RF) hardware solutions to a truly intelligent, context-aware, and dynamically provisioned system.\n\nPrior art often relied on fixed matching networks, multiple switched RF paths, or limited, reactive tuning components. These approaches either compromised performance across diverse scenarios, increased hardware complexity and cost, or lacked the fine-grained, continuous adaptability needed for optimal efficiency. They typically couldn't interpret the nuanced characteristics of a communication system to make precise hardware adjustments.\n\nThis patent's key differentiator is its 'controller-driven, profile-based' adaptation. The invention's controller actively senses the environment, identifies a detailed 'profile' of the communication system, and then precisely provisions a tunable 'matching network' to optimize the device's RF performance in real-time. This holistic, intelligent control over the physical layer is a significant leap, enabling a level of efficiency, reliability, and adaptability that previous technologies could not achieve, bridging the gap between digital intelligence and analog hardware optimization.","question":"How is Method and Apparatus for Managing Operations of a Communication Device different from prior art?"},{"answer":"The **Method and Apparatus for Managing Operations of a Communication Device** is poised to have a profound impact across a wide array of industries that rely heavily on wireless communication.\n\n**Consumer Electronics**: This includes smartphones, tablets, wearables, and smart home devices. Users will benefit from extended battery life, more reliable connectivity in diverse locations, and overall improved performance, enhancing user satisfaction and driving product differentiation.\n\n**Internet of Things (IoT)**: From industrial IoT sensors to smart city infrastructure and connected agriculture, the power efficiency and reliability gains are critical. It will enable longer deployment cycles for battery-powered devices, reduce maintenance costs, and ensure consistent data collection in challenging environments.\n\n**Telecommunications**: Network operators can benefit from devices that make more efficient use of spectrum, leading to improved network capacity and quality of experience for subscribers. It also supports the seamless rollout of advanced 5G and future 6G services.\n\n**Automotive and Autonomous Systems**: For connected vehicles, drones, and robotics, robust and reliable communication is paramount. This technology ensures consistent, high-performance links for mission-critical data, navigation, and safety systems. Its adaptive nature makes it ideal for dynamic operating conditions.","question":"What industries will Method and Apparatus for Managing Operations of a Communication Device impact?"},{"answer":"The patent **Method and Apparatus for Managing Operations of a Communication Device** (US-9853663) has a clear timeline in its lifecycle.\n\nIt was **filed** on **April 13, 2015**. This marks the initial date when the inventors submitted their application to the patent office, formally staking their claim to the invention and beginning the examination process.\n\nThe patent was subsequently **published** on **December 26, 2017**. This is the date when the patent was officially granted and made public, providing legal protection to the inventors for their novel method and apparatus. The publication signifies that the patent has met the criteria for novelty, non-obviousness, and utility as determined by the patent office.\n\nThese dates are crucial for understanding the patent's legal standing and its position within the technological landscape, indicating when the innovation became publicly available and legally protected.","question":"When was Method and Apparatus for Managing Operations of a Communication Device filed/granted?"},{"answer":"The **Method and Apparatus for Managing Operations of a Communication Device** has extensive commercial applications across various sectors, driven by its ability to deliver superior wireless performance and efficiency.\n\n**Mobile Device Manufacturing**: Smartphone and tablet manufacturers can integrate this technology into their chipsets and RF front-ends to offer products with significantly longer battery life, more reliable connectivity, and faster data speeds. This provides a strong competitive advantage in a crowded market.\n\n**IoT Device Development**: For developers of Internet of Things devices, the power efficiency gains are transformative. It enables the creation of sensors and modules that can operate for years on a single battery, reducing maintenance costs for large-scale deployments in smart cities, industrial automation, and environmental monitoring.\n\n**Network Infrastructure**: While primarily a device-side innovation, its adoption can lead to more efficient use of network resources. Network equipment manufacturers can design base stations and access points that interact more effectively with these adaptive devices, optimizing overall network performance.\n\n**Specialized Communication Systems**: Industries requiring highly reliable and efficient communication, such as defense, public safety, and satellite communication, can leverage this patent to build more robust and adaptable transceivers for critical applications. This innovation supports the development of next-generation, high-performance wireless products across the board.","question":"What are the commercial applications of Method and Apparatus for Managing Operations of a Communication Device?"},{"answer":"The **Method and Apparatus for Managing Operations of a Communication Device** lays a robust foundation for exciting future developments in wireless technology. We can anticipate several key areas of evolution building upon this intelligent adaptive RF framework.\n\nOne major development is the integration of **advanced machine learning and artificial intelligence** into the controller. This would allow the device to not only adapt based on pre-defined 'profiles' but to 'learn' optimal configurations dynamically from its own operational history and environmental feedback. This would enable predictive adaptation, where the device anticipates changing conditions and adjusts its RF hardware proactively, further enhancing efficiency and performance.\n\nAnother expected development is the expansion of the 'matching network' concept to include more complex and **highly integrated tunable RF components**. This could involve reconfigurable antenna arrays for dynamic beamforming, or fully software-defined RF front-ends where almost every analog parameter can be precisely controlled. This would lead to even more compact, versatile, and high-performance wireless modules.\n\nFurthermore, this technology will be crucial for the realization of **truly cognitive radio systems** and **dynamic spectrum access**. Devices will not only optimize their own performance but also intelligently cooperate to manage spectrum, avoid interference, and dynamically utilize available frequency bands, ushering in an era of ultra-efficient and resilient wireless ecosystems. The Method and Apparatus for Managing Operations of a Communication Device is a key enabler for these next-generation communication paradigms.","question":"What are the future developments expected for Method and Apparatus for Managing Operations of a Communication Device?"}],"topics":["Method and Apparatus for Managing Operations of a Communication Device","adaptive communication","RF optimization","dynamic matching network","communication device management","technical","method","apparatus"],"tech_cluster":null},"seo":{"title":"Adaptive Communication Device Management - Patent US-9853663","description":"Discover Method and Apparatus for Managing Operations of a Communication Device, a patent for dynamic RF optimization, enhancing device performance & battery life. Full analysis.","keywords":["Method and Apparatus for Managing Operations of a Communication Device","adaptive communication","RF optimization","dynamic matching network","communication device management","5G technology","IoT connectivity","patent US-9853663","wireless efficiency","cognitive radio","tunable RF","battery life extension","signal quality improvement","hardware adaptation"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853663","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-9853663","citation_suggestion":"Patentable. \"Method and apparatus for managing operations of a communication device\" (US-9853663). https://patentable.app/patents/US-9853663","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853663","json":"https://patentable.app/api/llm-context/US-9853663","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T09:27:19.895Z"}