Cognitive Radio Method and Apparatus for Achieving ad hoc Interference Multiple-Access Wireless Communication
Wireless communication forms the backbone of modern technology, creating the need for essentially uninterruptable and high-quality signal transmission. Traditional radios often fail to handle multiple-frequency usage, while interference can lead to substandard transmission. In this realm, SUOC (second users on channel) radios make a significant breakthrough. Current approaches to radio transmission often encounter issues with interference, which prevents successful wireless communication. Limited decision-making procedures cannot efficiently deal with the dynamic environment of wireless communication, inhibiting optimum usage of frequency opportunities. Further, existing technologies often lack the comprehensive functionality of radio processes required to ensure successful wireless transmission.
Technology Description
The SUOC radio, an advanced technological tool, employs six key features for enhanced wireless communication. These include spectrum sensing and parameter estimation to identify potential first users on channel (FUOC) and a rate pair prediction tool to guide its choice of FUOC to target. It utilizes machine learning methods for quick assimilation of historical data and better decision making. Another feature is a multiuser detection receiver to manage interference after information transmission has started. Lastly, it comprises a comprehensive radio with full transmit-processing and receive-processing chains for modulation and demodulation, plus other functions necessary for successful wireless communication, like networking and medium access control. What differentiates the SUOC radio is its dynamic ability to utilize machine learning for instantaneous decision making and adaptation. Its use of a rate-pair prediction tool makes it stand out, providing a well-guided selection of FUOC. The overall combination of spectrum sensing, specialized decision-making protocols, and multiuser detection gear places it ahead of conventional radios. Additionally, its all-encompassing radio functionality ensures smooth wireless communication processes.
Benefits
- Improved decision-making for better usage of FUOCs
- Enhanced wireless communication through advanced features
- Machine learning for quick adaptation to dynamic wireless environments
- Comprehensive radio functionalities for smooth operations
- Multiuser detection receiver for managing interference
Potential Use Cases
- Telecommunications companies requiring improved wireless communication
- IoT applications demanding uninterrupted, high-quality wireless transmissions
- Emergency services requiring robust wireless communication
- Defense sector, especially in remote and network-critical operations
- Radio broadcasting firms for interference-free and quality transmissions