IN-PHASE/QUADRATURE SIGNAL FILTERING IN WIRELESS COMMUNICATION

Organization Name

QUALCOMM Incorporated

Inventor(s)

Aviv Regev of Tel Aviv (IL)

Ronen Shaked of Kfar Saba (IL)

IN-PHASE/QUADRATURE SIGNAL FILTERING IN WIRELESS COMMUNICATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 18065388 titled 'IN-PHASE/QUADRATURE SIGNAL FILTERING IN WIRELESS COMMUNICATION

The abstract describes an apparatus for wireless communication that can determine frequency dependent in-phase quadrature imbalance (FDIQI) estimates and transmit them to a network node.

• The apparatus includes a memory and a processor.
• The processor receives signals to determine FDIQI estimates and generates these estimates based on the signals.
• The FDIQI estimates are then transmitted to a network node.

Potential Applications: - This technology can be used in wireless communication systems to improve signal quality and reliability. - It can be applied in various wireless devices such as smartphones, tablets, and IoT devices.

Problems Solved: - Helps in identifying and correcting frequency dependent in-phase quadrature imbalance in wireless communication systems. - Enhances the overall performance and efficiency of wireless networks.

Benefits: - Improved signal quality and reliability. - Enhanced performance of wireless communication systems. - Better user experience with wireless devices.

Commercial Applications: Title: "Enhancing Wireless Communication Systems with FDIQI Estimation Technology" This technology can be utilized by telecommunications companies, device manufacturers, and network operators to optimize wireless networks and improve user experience. It can also be integrated into 5G networks to enhance their performance.

Questions about FDIQI Estimation Technology: 1. How does FDIQI estimation technology impact the overall performance of wireless communication systems?

  - FDIQI estimation technology helps in identifying and correcting imbalance issues, leading to improved signal quality and reliability in wireless networks.

2. What are the potential applications of FDIQI estimation technology beyond wireless communication systems?

  - FDIQI estimation technology can also be applied in radar systems, satellite communication, and other RF applications to enhance signal processing and performance.

Original Abstract Submitted

An apparatus for wireless communication includes a memory and a processor coupled to the memory. The processor is configured to: receive one or more signals for determining frequency dependent in-phase quadrature imbalance (FDIQI) estimates; generate one or more FDIQI estimates based on the one or more signals; and transmit the one or more FDIQI estimates to a network node.