{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853799","patent":{"patent_number":"US-9853799","title":"Radio communications system and method based on time twisted waves","assignee":null,"inventors":[],"filing_date":"2014-10-29T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H04L","H04L","H04L","H04L","H04W"],"num_claims":19,"abstract":"A radio communications method, includes carrying out, by a transmitter: generating or receiving digital symbols to be transmitted; generating, every S digital symbols generated/received (with S integer higher than three), a corresponding multi-mode digital signal; generating a multi-frame digital signal comprising successive, non-overlapped time frames, each of which has the predefined time length and carries a respective multi-mode digital signal generated; and transmitting a radio frequency signal carrying the multi-frame digital signal. The radio communications method further includes carrying out, by a receiver: receiving the radio frequency signal transmitted by the transmitter; processing the received radio frequency signal to obtain a corresponding incoming digital signal; performing, on the basis of the incoming digital signal, carrier synchronization, clock synchronization, and frame synchronization; and extracting, on the basis of the carrier, clock and frame synchronizations."},"analysis":{"summary":"The Radio Communications System and Method Based on Time Twisted Waves patent introduces a novel approach to radio communication, aiming to enhance efficiency and reliability through the use of multi-mode digital signals and time-twisted waves. This technology addresses the problem of signal degradation and interference in existing systems by generating multi-frame digital signals that comprise successive, non-overlapped time frames, each carrying a respective multi-mode digital signal. The key technical approach involves sophisticated signal processing techniques to optimize carrier, clock, and frame synchronization, ensuring accurate data extraction at the receiver end.\n\nThe business value of this innovation lies in its potential to improve the performance of various wireless communication systems. By enhancing signal integrity and reducing interference, this technology can lead to higher data rates, lower power consumption, and more robust communication in challenging environments. The applications are vast, ranging from telecommunications and IoT to military and defense. The market opportunity for this technology is significant, as the demand for reliable wireless communication continues to grow exponentially. The ability to efficiently pack data into time frames and synchronize the transmission and reception processes allows for more effective use of available bandwidth.\n\nThis innovation has the potential to disrupt the radio communication industry by offering a more efficient and reliable alternative to existing systems. It could lead to the development of new standards and protocols for wireless communication, shaping the future of the industry. The commercialization of this patent could result in significant revenue streams through licensing agreements, product development, and service offerings. The improved reliability and accuracy of data transmission can lead to better decision-making and more efficient resource management. The Radio Communications System and Method Based on Time Twisted Waves represents a significant advancement in radio communication technology, poised to address some of the most pressing challenges in the field. Its ability to adapt to varying channel conditions makes it a valuable asset in dynamic and unpredictable environments.","layman_explanation":"The Radio Communications System and Method Based on Time Twisted Waves patent addresses the challenge of maintaining reliable radio communication in environments with interference or poor signal quality. Existing solutions often fall short because they cannot effectively overcome signal degradation caused by these factors. The invention provides a more robust and efficient method for transmitting and receiving radio signals.\n\nThis technology works by employing a technique called 'time-twisted waves.' Instead of sending a simple radio signal, the system generates a complex signal that is 'twisted' in time. This twisting process makes the signal more resilient to interference and distortion. The system also uses multiple modes of digital signals to further enhance the signal's robustness. At the receiving end, the system carefully synchronizes with the incoming signal to extract the data accurately. This synchronization process is crucial for ensuring that the signal is correctly decoded, even in the presence of noise and interference. Think of it like sending a package through a maze. The time-twisting and synchronization ensure that the package arrives safely and on time, even if there are obstacles along the way.\n\nThis technology matters because it has the potential to significantly improve the reliability and efficiency of wireless communication systems. This could lead to faster data rates, lower power consumption, and more robust connections in a variety of applications. The market impact could be substantial, as the demand for reliable wireless communication continues to grow. The competitive advantages of this technology stem from its unique approach to signal processing, which offers superior performance compared to existing solutions. The potential ROI and business value are significant, as the technology could be licensed to other companies or used to develop new wireless communication products and services.\n\nFuture applications of this technology could include improved wireless internet access, more reliable communication for IoT devices, and enhanced communication systems for emergency services and military applications. The market adoption timeline will depend on factors such as the availability of compatible hardware and the development of industry standards. The investment implications are promising, as the technology has the potential to generate significant returns for investors who are willing to support its development and commercialization.","technical_analysis":"The Radio Communications System and Method Based on Time Twisted Waves patent details a system designed to improve radio communication reliability and efficiency through a novel approach to signal modulation and synchronization. This technical analysis focuses on the key components and processes involved in this system.\n\nThe transmitter section of the system is responsible for generating and encoding the data to be transmitted. It begins by generating or receiving digital symbols. Every 'S' digital symbols (where S is an integer greater than three), the system generates a corresponding multi-mode digital signal. This multi-mode signal is a crucial element, providing redundancy and adaptability to the transmission. The system then generates a multi-frame digital signal, which consists of successive, non-overlapped time frames. Each of these time frames carries a respective multi-mode digital signal. This structured approach to signal construction allows for precise timing and synchronization. Finally, the transmitter modulates this multi-frame digital signal onto a radio frequency (RF) carrier for transmission.\n\nThe receiver section of the system is responsible for recovering the original data from the received RF signal. The receiver first processes the received RF signal to obtain a corresponding incoming digital signal. This step involves demodulation and initial signal conditioning. The core of the receiver's functionality lies in its ability to perform carrier synchronization, clock synchronization, and frame synchronization. These synchronization processes are essential for accurately decoding the received signal. Carrier synchronization ensures that the receiver's local oscillator is aligned with the carrier frequency of the transmitted signal. Clock synchronization ensures that the receiver's timing is aligned with the transmitter's timing. Frame synchronization ensures that the receiver correctly identifies the boundaries of the time frames. Once these synchronization processes are complete, the receiver can extract the original digital symbols from the incoming digital signal. This extraction is based on the carrier, clock, and frame synchronizations. The specific algorithms and techniques used for these synchronization processes are critical to the overall performance of the system.\n\nThe implications of this technology for code-level implementation are significant. Developers would need to implement sophisticated signal processing algorithms for generating and processing the multi-mode digital signals. The synchronization processes would require careful design to ensure accuracy and robustness. The system would also need to be designed to adapt to varying channel conditions, such as multipath fading and Doppler shift. Performance characteristics, such as data rate, power consumption, and error rate, would need to be carefully optimized. The integration of this technology into existing radio communication systems would require careful consideration of compatibility and interoperability. The system's complexity necessitates thorough testing and validation to ensure reliable operation in real-world scenarios.","business_analysis":"The Radio Communications System and Method Based on Time Twisted Waves patent presents a significant business opportunity within the evolving landscape of wireless communication. This technology addresses the growing demand for more reliable, efficient, and secure communication channels, making it relevant to numerous industries and applications.\n\nThe market opportunity for this technology is substantial. The global wireless communication market is projected to reach trillions of dollars in the coming years, driven by the increasing adoption of smartphones, IoT devices, and other wireless technologies. The key driver of this growth is the need for faster, more reliable, and more secure communication channels. The Radio Communications System and Method Based on Time Twisted Waves addresses this need by offering a novel approach to signal modulation and synchronization. This technology has the potential to improve the performance of various wireless communication systems, leading to higher data rates, lower power consumption, and more robust communication in challenging environments.\n\nThe competitive advantages of this technology stem from its unique approach to signal processing. By using multi-mode digital signals and time-twisted waves, the system can achieve better synchronization and reduce interference, leading to more reliable communication. This technology also offers a higher degree of security, as the time-twisted waves make it more difficult for unauthorized parties to intercept and decode the signal. The revenue potential for this technology is significant. The patent holder could generate revenue through licensing agreements, product development, and service offerings. Licensing agreements would allow other companies to incorporate the technology into their products and services, generating royalty income. Product development would involve creating new wireless communication devices and systems that utilize the technology. Service offerings could include providing consulting and support services to companies that are implementing the technology.\n\nThe business models for this technology could include licensing, product sales, and service contracts. A licensing model would involve granting licenses to other companies to use the technology in their products and services. A product sales model would involve selling wireless communication devices and systems that incorporate the technology. A service contract model would involve providing consulting and support services to companies that are implementing the technology. The strategic positioning of this technology is crucial for its success. The patent holder should focus on targeting key industries and applications where the technology can provide the greatest value. These industries could include telecommunications, IoT, military and defense, and healthcare. The ROI projections for this technology are highly promising. The improved performance, security, and efficiency of the system could lead to significant cost savings and revenue increases for companies that implement the technology. The strong patent protection and the growing demand for wireless communication make this a compelling investment opportunity.","faqs":null,"topics":["radio communication","time twisted waves","digital signal processing","wireless technology","synchronization"],"tech_cluster":null},"seo":{"title":"Time Twisted Radio Waves - Patent US-9853799","description":"Explore this radio communications system patent that uses time twisted waves to boost signal reliability. Get the full analysis, claims, and tech specs.","keywords":["radio communication","time twisted waves","digital signal processing","wireless technology","synchronization","patent","patent US-9853799"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853799","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-9853799","citation_suggestion":"Patentable. \"Radio communications system and method based on time twisted waves\" (US-9853799). https://patentable.app/patents/US-9853799","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853799","json":"https://patentable.app/api/llm-context/US-9853799","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-05-30T05:47:32.267Z"}