17448455. Feedback-Based Frequency Hopping simplified abstract (Apple Inc.)
Contents
Feedback-Based Frequency Hopping
Organization Name
Inventor(s)
Alon Paycher of Beit Hananya (IL)
Feedback-Based Frequency Hopping - A simplified explanation of the abstract
This abstract first appeared for US patent application 17448455 titled 'Feedback-Based Frequency Hopping
Simplified Explanation
Abstract
A user equipment (UE) is able to determine whether a specific channel meets certain criteria before transmitting data to another UE. This is done by tuning the transceiver of the UE to a first frequency associated with the channel and sending a short packet to the other UE. If a specific indication is received from the other UE in response to the short packet, it means that the channel meets the predetermined criteria. The UE can then proceed to transmit the primary data to the other UE on the same channel.
Bullet Points
- User equipment (UE) tunes its transceiver to a specific frequency associated with a channel.
- UE sends a short packet to another UE on the same channel.
- UE determines whether a specific indication is received from the other UE in response to the short packet.
- The indication confirms that the channel meets certain predetermined criteria.
- UE can then transmit primary data to the other UE on the same channel.
Potential Applications
- Wireless communication systems
- Internet of Things (IoT) devices
- Mobile networks
- Machine-to-machine communication
Problems Solved
- Ensures that the channel being used for communication meets certain criteria before transmitting data.
- Reduces the chances of data loss or interference by selecting a suitable channel.
- Improves overall communication reliability and efficiency.
Benefits
- Enhanced performance and reliability of wireless communication systems.
- Optimal channel selection for data transmission.
- Improved user experience with reduced data loss and interference.
Original Abstract Submitted
A user equipment (UE) tunes a transceiver of the UE to a first frequency associated with a first channel, transmits a first short packet to a second UE on the first channel and determines whether a first indication was received from the second UE in response to the first short packet. The first indication indicates that the first channel satisfies one or more predetermined criteria. The UE transmits then the primary data to the second UE on the first channel in response to the first indication being received from the second UE.