SYNCHRONIZATION SIGNAL BLOCK BEAM SWEEP ENABLED DIRECTIONAL REPEATER

Organization Name

Nokia Technologies Oy

Inventor(s)

Simon Svendsen of Aalborg (DK)

Christian Rom of Aalborg (DK)

Samantha Caporal Del Barrio of Aalborg (DK)

Benny Vejlgaard of Aalborg (DK)

Ali Karimidehkordi of Munich (DE)

Morten Toft of Aalborg (DK)

SYNCHRONIZATION SIGNAL BLOCK BEAM SWEEP ENABLED DIRECTIONAL REPEATER - A simplified explanation of the abstract

This abstract first appeared for US patent application 18579407 titled 'SYNCHRONIZATION SIGNAL BLOCK BEAM SWEEP ENABLED DIRECTIONAL REPEATER

Simplified Explanation

The patent application describes a smart meter that uses synchronization signal blocks to enable beam sweeps for improved connectivity. The meter receives information on the allocation of synchronization signal blocks, configures them with random access channel opportunities, and repeats them in specific directions to establish correct synchronization signal block beams.

• The smart meter receives information on synchronization signal block allocation from a network element.
• It configures synchronization signal blocks with corresponding random access channel opportunities.
• The meter repeats synchronization signal blocks in specific angular directions for optimal connectivity.
• It establishes correct synchronization signal block beams at the right time based on random access channel opportunities.
• The network element provides information on user equipment connections within a sector of a repeater element.

Key Features and Innovation

• Utilizes synchronization signal blocks for beam sweep enabled smart meters.
• Configures synchronization signal blocks with random access channel opportunities.
• Repeats synchronization signal blocks in specific angular directions.
• Establishes correct synchronization signal block beams for improved connectivity.
• Provides information on user equipment connections within a sector.

Potential Applications

This technology can be applied in various sectors such as telecommunications, smart grid systems, and IoT devices where efficient connectivity is crucial.

Problems Solved

This technology addresses the need for improved connectivity and synchronization in smart meters, ensuring reliable data transmission and communication.

Benefits

• Enhanced connectivity and communication in smart meters.
• Improved data transmission efficiency.
• Optimal synchronization for better performance.

Commercial Applications

Title: Beam Sweep Enabled Smart Meters for Enhanced Connectivity This technology can be commercially used in the telecommunications industry, utility companies, and IoT device manufacturers to improve connectivity and data transmission efficiency in smart meters.

Prior Art

Further research can be conducted in the field of synchronization signal blocks and beam sweep technology in smart meters to explore existing patents and innovations.

Frequently Updated Research

Stay updated on advancements in synchronization signal block technology and beam sweep applications in smart meters to ensure optimal performance and connectivity.

Questions about Smart Meter Technology

What are the key benefits of using synchronization signal blocks in smart meters?

Using synchronization signal blocks in smart meters helps improve connectivity, enhance data transmission efficiency, and ensure optimal synchronization for better performance.

How does beam sweep technology enhance the functionality of smart meters?

Beam sweep technology in smart meters allows for the repetition of synchronization signal blocks in specific angular directions, enabling correct synchronization signal block beams for improved connectivity.

Original Abstract Submitted

Systems, methods, apparatuses, and computer program products for a synchronization signal block beam sweep enabled smart meter. A method may include receiving information on an allocation of a plurality of synchronization signal blocks from a network element. One or more synchronization signal blocks may be received from the network element. The one or more synchronization signal blocks may be configured with corresponding random access channel opportunities. The one or more synchronization signal blocks may be repeated in specific angular directions. A correct synchronization signal block beam may be configured at a correct time based on the random access channel opportunities. An indication may be received from the network element of which user equipment within a sector of a repeater element has connected on which random access channel opportunities.