17959012. Methods of Frequency Domain Intra-Orthogonal Frequency-Division Multiplexing (OFDM) Symbol Multi Rx-Beam Measurement and Dynamic Rx Beam Sweeping simplified abstract (Apple Inc.)

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Methods of Frequency Domain Intra-Orthogonal Frequency-Division Multiplexing (OFDM) Symbol Multi Rx-Beam Measurement and Dynamic Rx Beam Sweeping

Organization Name

Apple Inc.

Inventor(s)

Zhibin Yu of Unterhaching (DE)

Michael Ruder of Pommelsbrunn (DE)

Holger Neuhaus of Munich (DE)

Yeong-Sun Hwang of Oberhaching (DE)

Bertram Gunzelmann of Koenigsbrunn (DE)

Methods of Frequency Domain Intra-Orthogonal Frequency-Division Multiplexing (OFDM) Symbol Multi Rx-Beam Measurement and Dynamic Rx Beam Sweeping - A simplified explanation of the abstract

This abstract first appeared for US patent application 17959012 titled 'Methods of Frequency Domain Intra-Orthogonal Frequency-Division Multiplexing (OFDM) Symbol Multi Rx-Beam Measurement and Dynamic Rx Beam Sweeping

Simplified Explanation

The patent application describes a communication device that has multiple receive antennas and is capable of receiving reference signals from base stations at specific transmission times. The device includes a controller that can switch between different receive configurations of the antennas during the reception period of the reference signals. Additionally, there is a signal quality determiner that determines a parameter indicating the signal quality of the received reference signal for each receive configuration.

  • The communication device has multiple receive antennas.
  • It can receive reference signals from base stations at specific transmission times.
  • The device can switch between different receive configurations of the antennas during the reception period.
  • A signal quality determiner determines the signal quality of the received reference signal for each receive configuration.

Potential Applications

This technology can have various applications in the field of wireless communication systems, including:

  • Mobile devices: The communication device can be integrated into smartphones or tablets to improve signal reception and overall communication quality.
  • Internet of Things (IoT): IoT devices can benefit from this technology by enhancing their ability to receive signals from base stations in a more efficient and reliable manner.
  • Wireless networks: The technology can be implemented in wireless routers or access points to optimize signal reception and improve network performance.

Problems Solved

The technology addresses several problems in wireless communication systems, such as:

  • Signal interference: By switching between different receive configurations, the device can mitigate the effects of signal interference and improve the overall signal quality.
  • Weak signal reception: The multiple receive antennas allow for better reception of weak signals, ensuring reliable communication even in areas with poor signal strength.
  • Dynamic signal conditions: The ability to switch between receive configurations enables the device to adapt to changing signal conditions, maintaining a consistent level of signal quality.

Benefits

The use of this technology offers several benefits in the field of wireless communication:

  • Improved signal quality: By determining the signal quality for each receive configuration, the device can select the optimal configuration, resulting in improved overall signal quality.
  • Enhanced reliability: The ability to switch between receive configurations helps in maintaining a reliable connection, even in challenging signal environments.
  • Efficient signal reception: The technology optimizes the reception of reference signals, leading to better performance and increased data throughput in wireless communication systems.


Original Abstract Submitted

A communication device comprises a receiver including at least two receive antennas and configured to receive at least one reference signal of a plurality of reference signals, each reference signal being transmitted from at least one base station at a predefined reference signal transmission time; a controller configured to switch between at least two receive configurations of the at least two antennas during a reception period of the at least one reference signal; and a signal quality determiner configured to determine a parameter indicative of a first signal quality of the received reference signal for each receive configuration.

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