{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9854522","patent":{"patent_number":"US-9854522","title":"System and method for semi-persistent and dynamic scheduling and discontinuous reception control","assignee":null,"inventors":[],"filing_date":"2016-09-12T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H04W","H04W","H04W","H04W","H04W","H04W","H04W","H04Q","H04Q","H04Q","H04Q","H04W"],"num_claims":19,"abstract":"Methods of combining semi-persistent resource allocation and dynamic resource allocation are provided. Packets, such as VoIP packets, are transmitted on the uplink and downlink using respective semi-persistent resources. For each mobile device, awake periods and sleep periods are defined. The semi-persistent resources are aligned with the awake periods so that most of the time the mobile device can turn off its wireless access radio during the sleep periods. In addition, signalling to request, and to allocate, resources for additional packets are transmitted during the awake periods, and the resources allocated for the additional packets are within the awake windows."},"analysis":{"summary":"The System and Method for Semi-persistent and Dynamic Scheduling and Discontinuous Reception Control patent introduces an innovative approach to resource allocation in wireless communication systems, aiming to optimize both efficiency and power consumption for mobile devices. The core innovation lies in combining semi-persistent resource allocation with dynamic resource allocation, enabling mobile devices to conserve power while maintaining reliable connectivity. The problem being solved is the inefficient use of network resources and the excessive power consumption of mobile devices in modern wireless networks, particularly in applications like VoIP and IoT. \n\nThe key technical approach involves defining awake and sleep periods for mobile devices. Semi-persistent resources are aligned with the awake periods, allowing devices to turn off their wireless access radio during sleep periods, thus reducing power consumption. Additionally, the system incorporates signaling mechanisms that enable devices to request and allocate additional resources dynamically within the awake windows. This hybrid approach ensures that resources are only allocated when needed, minimizing waste and maximizing efficiency. \n\nThe business value and applications of this technology are significant. It can lead to longer battery life for mobile devices, improved network capacity, and reduced costs for network operators. The technology is particularly well-suited for applications like VoIP, where data traffic is bursty and unpredictable, and IoT, where devices require long-term operation without frequent battery replacements. The market opportunity for this technology is vast, as the demand for wireless data continues to grow and the number of mobile devices increases. This innovation has the potential to transform the wireless communication landscape, enabling new applications and services while improving the performance and sustainability of existing networks. \n\nBy optimizing resource allocation and power consumption, this patent contributes to the development of more sustainable and efficient wireless communication systems. As the demand for mobile data continues to grow, technologies like this will play a crucial role in shaping the future of wireless connectivity. The integration of this technology into existing wireless networks would require careful planning and coordination, but the potential benefits make it a worthwhile endeavor.","layman_explanation":"The System and Method for Semi-persistent and Dynamic Scheduling and Discontinuous Reception Control patent addresses a common problem in modern wireless communication: inefficient use of network resources and excessive power consumption in mobile devices. This inefficiency leads to shorter battery life for smartphones and other wireless devices, as well as potential bottlenecks in network performance.\n\nExisting solutions to this problem often fall short because they rely on either static allocation of resources or fully dynamic allocation. Static allocation, where resources are assigned to a device for a fixed period of time, can be wasteful because the device may not always need those resources. Fully dynamic allocation, where resources are assigned on demand, can be complex and require significant signaling overhead, which also consumes power.\n\nThe System and Method for Semi-persistent and Dynamic Scheduling and Discontinuous Reception Control patent offers a more efficient approach by combining semi-persistent and dynamic resource allocation. In simple terms, the system defines 'awake' and 'sleep' periods for mobile devices. During the 'awake' periods, the device is actively communicating and requires resources. During the 'sleep' periods, the device can turn off its wireless access radio to conserve power. The system aligns semi-persistent resources with the 'awake' periods, ensuring that the device has the necessary resources when it needs them. In addition, the system allows for dynamic allocation of resources within these 'awake' windows to accommodate fluctuating data traffic. Think of it like scheduling regular deliveries of groceries (semi-persistent) but also being able to order extra items on demand (dynamic) when you need them.\n\nThis innovation matters because it has the potential to significantly improve the performance and sustainability of wireless networks. By reducing power consumption in mobile devices, it can extend battery life and reduce the need for frequent charging. By optimizing resource allocation, it can improve network capacity and reduce congestion, leading to faster data speeds and a better user experience. The market impact is substantial, as the demand for mobile data continues to grow and the number of wireless devices increases. The potential ROI for companies that adopt this technology is significant, as it can lead to cost savings, increased revenue, and improved customer satisfaction.\n\nThe future applications of this technology are vast. It can be used in a wide range of wireless devices, from smartphones and tablets to IoT sensors and industrial equipment. The market adoption timeline will depend on the willingness of mobile device manufacturers and network operators to implement this technology. However, the potential benefits are so compelling that widespread adoption is likely in the long term. The investment implications are clear: companies that invest in this technology are likely to see significant returns in the years to come.","technical_analysis":"The System and Method for Semi-persistent and Dynamic Scheduling and Discontinuous Reception Control patent presents a sophisticated approach to resource management in wireless communication systems. At the heart of this technology lies a hybrid architecture that seamlessly integrates semi-persistent and dynamic resource allocation strategies. The technical architecture is designed to optimize both network efficiency and mobile device power consumption. The implementation details involve defining distinct awake and sleep periods for mobile devices, with semi-persistent resources allocated during the awake periods. This allows mobile devices to deactivate their radio transceivers during sleep periods, significantly reducing power consumption.\n\nOne of the key algorithmic aspects of this innovation is the dynamic scheduling algorithm, which determines the optimal allocation of resources within the awake windows. This algorithm takes into account various factors, such as the current network load, the priority of different data streams, and the quality of service requirements of different applications. The integration patterns involve the use of specific signaling protocols for requesting and allocating dynamic resources. These protocols are designed to minimize overhead and latency, ensuring that resources can be allocated quickly and efficiently. The performance characteristics of the system are heavily influenced by the choice of parameters, such as the duration of awake and sleep periods, and the frequency of resource requests. The system is designed to adapt to varying network conditions and traffic patterns, ensuring that it can maintain optimal performance under a wide range of operating conditions.\n\nFrom a code-level perspective, the implementation of this technology requires careful consideration of the interaction between different software and hardware components. The resource scheduler, which is responsible for allocating resources, must be tightly integrated with the radio transceiver and the network protocol stack. The code must be optimized for performance to minimize latency and maximize throughput. The implications for developers are that they need to have a deep understanding of both wireless communication protocols and system-level programming. They also need to be able to work with specialized hardware components, such as radio transceivers and digital signal processors. The successful implementation of this technology requires a multidisciplinary approach, combining expertise in wireless communication, computer science, and electrical engineering.","business_analysis":"The System and Method for Semi-persistent and Dynamic Scheduling and Discontinuous Reception Control patent holds significant commercial potential within the rapidly evolving landscape of wireless communication. The market opportunity size is substantial, driven by the increasing demand for mobile data, the proliferation of IoT devices, and the growing importance of real-time communication services like VoIP. The competitive advantages offered by this technology stem from its ability to optimize both network efficiency and mobile device power consumption. This can lead to improved user experiences, reduced operating costs for network operators, and the development of new applications and services.\n\nThe revenue potential associated with this patent can be realized through various business models. One approach is to license the technology to mobile device manufacturers, network equipment vendors, and telecommunications service providers. Another approach is to integrate the technology into proprietary products and services, such as mobile communication platforms and IoT solutions. The strategic positioning of this technology lies in its ability to address the key challenges facing the wireless communication industry: increasing demand for data, limited network resources, and the need for energy-efficient mobile devices. By providing a solution that optimizes both network efficiency and power consumption, this technology can help companies gain a competitive edge and capture a larger share of the market.\n\nThe ROI projections for this technology are highly dependent on the specific business model and market conditions. However, the potential for significant cost savings, increased revenue, and improved customer satisfaction makes it a worthwhile investment. The key to maximizing ROI is to develop a well-defined commercialization strategy, build strong partnerships with key industry players, and continuously innovate to stay ahead of the competition. The successful commercialization of this technology requires a long-term commitment to research and development, as well as a deep understanding of the evolving needs of the wireless communication market.","faqs":null,"topics":[],"tech_cluster":null},"seo":{"title":"System and method for semi-persistent and dynamic scheduling and discontinuous reception control","description":"Methods of combining semi-persistent resource allocation and dynamic resource allocation are provided. Packets, such as VoIP packets, are transmitted on the uplink and downlink using respective semi-p","keywords":[]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9854522","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-9854522","citation_suggestion":"Patentable. \"System and method for semi-persistent and dynamic scheduling and discontinuous reception control\" (US-9854522). https://patentable.app/patents/US-9854522","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9854522","json":"https://patentable.app/api/llm-context/US-9854522","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-05-30T20:06:59.270Z"}