{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9854585","patent":{"patent_number":"US-9854585","title":"Dynamic medium access control switching","assignee":null,"inventors":[],"filing_date":"2015-11-25T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H04W","H04B","H04L","H04W","H04W","H04W","H04L","H04L","H04L","H04L"],"num_claims":30,"abstract":"Methods, systems, and devices are describe for dynamic medium access control (MAC) algorithm selection in a wireless communication system. A device, e.g., a user equipment or base station, may identify a channel parameter associated with a first channel used for communications in the wireless communication system. The device may dynamically select, based at least in part on the channel parameter, a first MAC algorithm from a plurality of MAC algorithms available for communications using the first channel. The wireless communication system may be a millimeter wave wireless communication system and may, in some examples, use directional or beamformed transmissions."},"analysis":{"summary":"Dynamic Medium Access Control Switching is a novel approach to optimizing wireless communication systems. The core innovation lies in the dynamic selection of medium access control (MAC) algorithms based on real-time channel parameters. This addresses the problem of static MAC protocols failing to adapt to the ever-changing conditions of wireless channels, leading to suboptimal performance and network inefficiencies. The key technical approach involves identifying channel parameters, such as signal strength, interference levels, and data rates, and then using these parameters to dynamically select the most appropriate MAC algorithm from a set of available options. This adaptive selection process allows for optimized communication in various wireless environments, including millimeter-wave systems and directional beamformed transmissions.\n\nThe business value of this technology lies in its ability to improve network efficiency, reduce latency, and enhance the overall user experience. By dynamically adapting to changing channel conditions, the system can maintain optimal performance even in challenging environments. This is particularly important in dense wireless environments where interference is a major concern. Furthermore, the technology can be integrated into existing wireless communication systems with relative ease, making it an attractive option for network operators looking to upgrade their networks without incurring significant infrastructure costs.\n\nThe market opportunity for Dynamic Medium Access Control Switching is substantial, driven by the increasing demand for high-speed wireless communication and the growing adoption of 5G technology. As wireless networks become more complex and congested, the need for dynamic and adaptive solutions will only increase. This technology is poised to play a key role in the future of wireless communication, enabling higher data rates, lower latencies, and a more reliable wireless experience for users.","layman_explanation":"Dynamic Medium Access Control Switching addresses the problem of inefficient wireless communication by dynamically adapting to changing network conditions. Existing wireless systems often rely on fixed protocols that don't adjust to variations in signal strength, interference, or data traffic. This leads to slower speeds, dropped connections, and a frustrating user experience.\n\nThis technology works by continuously monitoring the wireless environment and selecting the most appropriate communication protocol based on current conditions. Think of it like a smart thermostat for your Wi-Fi. Instead of a fixed temperature setting, the system adjusts the protocol in real-time to optimize performance. It's not about changing the physical hardware, but rather using the existing hardware more efficiently. The system analyzes factors like signal strength, interference, and data demand, and then chooses the communication method that will deliver the best results.\n\nThis innovation matters because it can significantly improve the performance of wireless networks. By dynamically adapting to changing conditions, the system can deliver faster speeds, lower latency, and a more reliable connection. This has implications for everything from streaming video to online gaming to industrial automation. In a world that is increasingly reliant on wireless communication, this technology can help to ensure that networks are able to keep up with growing demands.\n\nLooking ahead, this technology could be integrated into a wide range of wireless devices and networks. The adoption timeline will depend on factors such as the availability of compatible hardware and software, and the willingness of network operators to upgrade their infrastructure. However, the potential benefits are clear, and this technology is likely to play a significant role in the future of wireless communication. The investment implications are positive, as this technology has the potential to generate significant returns by improving network performance and enabling new wireless applications.","technical_analysis":"Dynamic Medium Access Control Switching is a significant advancement in wireless communication technology. The technical architecture of this system revolves around the dynamic selection of Medium Access Control (MAC) algorithms based on real-time channel parameters. Traditional wireless systems employ static MAC protocols, which are often suboptimal in dynamic environments. This system addresses this limitation by continuously monitoring channel conditions and adapting the MAC algorithm accordingly.\n\nThe implementation details involve several key components. First, there is a channel monitoring module that measures various channel parameters, such as signal strength, interference levels, and data rates. This module uses sensors and signal processing techniques to accurately assess the current channel conditions. Next, there is a MAC algorithm selection module that chooses the most appropriate MAC algorithm based on the measured channel parameters. This module may employ machine learning algorithms to predict the optimal MAC algorithm for the given conditions. Finally, there is a MAC layer that implements the selected MAC algorithm and manages the communication between devices.\n\nThe algorithm specifics involve a range of MAC algorithms, each optimized for different channel conditions. For example, one MAC algorithm may be optimized for high signal strength and low interference, while another may be optimized for low signal strength and high interference. The selection module chooses the MAC algorithm that is most likely to provide the best performance based on the current channel conditions.\n\nThe integration patterns involve seamless integration with existing wireless communication standards. The system is designed to be compatible with existing hardware and software components, allowing for easy deployment and integration. Performance characteristics are significantly improved by the dynamic adaptation of the MAC algorithm. This results in higher throughput, lower latency, and improved overall network performance. The code-level implications involve the development of efficient algorithms for channel monitoring, MAC algorithm selection, and MAC layer implementation. The system must be designed to minimize overhead and maximize performance.","business_analysis":"Dynamic Medium Access Control Switching presents a significant market opportunity within the wireless communication sector. The core value proposition lies in its ability to optimize network performance by dynamically adapting to changing channel conditions. This offers competitive advantages over traditional static MAC protocols, particularly in dense and dynamic wireless environments.\n\nThe market opportunity size is substantial, driven by the increasing demand for high-speed wireless communication and the proliferation of 5G technology. As wireless networks become more complex and congested, the need for dynamic and adaptive solutions will only increase. This technology addresses this need by enabling devices to dynamically select the most appropriate MAC algorithm based on real-time channel parameters.\n\nThe competitive advantages include improved network efficiency, reduced latency, and enhanced user experience. By dynamically adapting to changing channel conditions, the system can maintain optimal performance even in challenging environments. This is particularly important in dense wireless environments where interference is a major concern. Furthermore, the technology can be integrated into existing wireless communication systems with relative ease, making it an attractive option for network operators looking to upgrade their networks without incurring significant infrastructure costs.\n\nThe revenue potential is significant, with opportunities for licensing the technology to wireless equipment manufacturers, network operators, and other stakeholders. Business models may include upfront licensing fees, royalty payments, and subscription-based services. Strategic positioning involves targeting key players in the wireless communication ecosystem, such as mobile network operators, equipment vendors, and chipset manufacturers.\n\nROI projections are highly favorable, with the potential for significant returns on investment due to the increased network efficiency and reduced operating costs. The technology can also enable new revenue streams by supporting higher data rates and new wireless applications.","faqs":null,"topics":["dynamic MAC","wireless communication","5G","millimeter wave","beamforming","dynamic","medium","access"],"tech_cluster":null},"seo":{"title":"Dynamic MAC Switching - Patent US-9854585","description":"Discover Dynamic Medium Access Control Switching, a patent for dynamically selecting MAC algorithms in wireless systems. Full analysis, claims, and technical details.","keywords":["dynamic MAC","wireless communication","5G","millimeter wave","beamforming","patent","patent US-9854585"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9854585","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-9854585","citation_suggestion":"Patentable. \"Dynamic medium access control switching\" (US-9854585). https://patentable.app/patents/US-9854585","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9854585","json":"https://patentable.app/api/llm-context/US-9854585","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-05-30T01:14:21.904Z"}