INSTALLATION OF REPEATERS FOR A MILLIMETER WAVE COMMUNICATIONS NETWORK

Organization Name

Pivotal Commware, Inc.

Inventor(s)

Mersad Cavcic of Kirkland WA (US)

Brian Mark Deutsch of Issaquah WA (US)

Brett Daniel Mills of Seattle WA (US)

Sameer Lalwani of San Diego CA (US)

INSTALLATION OF REPEATERS FOR A MILLIMETER WAVE COMMUNICATIONS NETWORK - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240259831 titled 'INSTALLATION OF REPEATERS FOR A MILLIMETER WAVE COMMUNICATIONS NETWORK

The abstract of the patent application discusses the challenges faced by mobile communications base stations, particularly 5G wireless communications base stations operating at millimeter wave frequencies, in terms of limited spatial coverage due to factors like limited line of sight and attenuation from foliage or structures. To address this issue, the abstract proposes modeling line of sight and attenuation to recommend the placement of repeaters for expanded spatial coverage, including open-air repeaters and window repeaters.

• The patent application focuses on improving the spatial coverage of mobile communications base stations, especially those operating at millimeter wave frequencies like 5G.
• It suggests modeling line of sight and attenuation to determine the optimal placement of repeaters for enhanced coverage.
• The repeaters recommended can include open-air repeaters and window repeaters, which can help overcome obstacles like limited line of sight and attenuation from foliage or structures.
• By strategically placing these repeaters, the spatial coverage of the base stations can be expanded, improving the overall performance of the communication network.

Potential Applications: - Enhancing the coverage and performance of 5G wireless communications networks. - Improving connectivity in urban areas with dense foliage or structures that obstruct signals. - Optimizing the placement of repeaters in outdoor environments to maximize coverage.

Problems Solved: - Addressing limited spatial coverage issues faced by mobile communications base stations. - Overcoming obstacles like limited line of sight and attenuation from foliage or structures. - Enhancing the overall performance and reliability of wireless communication networks.

Benefits: - Expanded spatial coverage for mobile communications networks. - Improved connectivity and signal strength in challenging environments. - Enhanced performance and reliability of 5G wireless communications systems.

Commercial Applications: Title: "Enhancing Spatial Coverage of 5G Wireless Communications Networks" This technology can be utilized by telecommunication companies to optimize the placement of repeaters for improved coverage in urban and outdoor environments. It can also benefit infrastructure developers looking to enhance connectivity in areas with signal obstructions.

Questions about the technology: 1. How does the proposed modeling of line of sight and attenuation help in recommending the placement of repeaters for expanded spatial coverage? 2. What are the key advantages of using open-air repeaters and window repeaters in improving the performance of mobile communications base stations?

Original Abstract Submitted

mobile communications base stations, such as 5g wireless communications base stations operating at millimeter wave (mmw) frequencies, may have limited spatial coverage due to issues such as limited line of sight or attenuation from foliage or structures. line of sight and attenuation can be modeled to recommend placement of repeaters for expanded spatial coverage. the repeaters can include open-air repeaters and window repeaters.