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Analysis of R&D+i Development of Laser Satellite Antennas Installed in Networks on City Building Rooftops

 

Roberto Guillermo Gomes

Founding CEO of Global Solidarity / Founding CEO of Green Interbanks and Mayday.live / Leader of 2% For The Planet / Architect / Journalist / Writer / Master in Yoga / Mindfulness Expert Consultant. Creator of Neuroyoga

14 de agosto de 2024

The development of laser satellite antennas installed in networks on building rooftops represents a significant advancement in telecommunications and urban connectivity. This approach integrates advanced laser emission and microantenna technologies, enabling an efficient, fast, and high-capacity communication network. Below is an analysis of the development and implications of this system:

1. Laser Satellite Antenna Technology:

• Laser Microantennas: These antennas use laser technology to emit and receive signals. Unlike traditional antennas, which rely on radio waves, laser microantennas operate with greater precision and less interference, allowing high-speed data transmissions with a larger bandwidth capacity.
• Geometric Network: When grouped in geometric patterns, these antennas create a synchronized network that functions as a large-scale satellite antenna. This network is capable of processing and retransmitting data more efficiently, leveraging the alignment and synchronization of the laser emitters.

2. Local Operation:

• Data Interactivity: At low altitudes, the antennas form an interactive system that combines local data processing with Wi-Fi connectivity. This allows the creation of an «interactive cloud» capable of processing data locally at high speeds, optimizing information transmission within the city.
• Satellite Connectivity: This system connects directly to orbiting satellites, facilitating global data transmission. Direct satellite connectivity enables local data to be quickly integrated into the global network, improving communication efficiency.

3. System Advantages:

• Speed and Capacity: The use of lasers instead of radio waves allows for much faster data transmission with significantly greater bandwidth capacity.
• Global Interconnectivity: The ability of these microantennas to connect directly with satellites enhances global communication, enabling unprecedented data transfer between different regions of the planet.
• Redundancy and Security: The geometric structure of the network provides redundancy, meaning if one antenna fails, others can compensate for the loss. Additionally, the precision of the laser can offer higher levels of security in data transmission.

4. Potential Applications:

• Smart Cities: Integrating this system into smart cities would enable a constant and rapid flow of data between different devices and platforms, improving urban management and real-time decision-making.
• Internet of Things (IoT): This type of network is ideal for supporting the growth of IoT, enabling efficient and low-latency connectivity for interconnected devices.
• Advanced Telecommunications: Telecommunications service providers could use this technology to improve connectivity in dense urban areas, offering high-speed, low-latency internet services.

5. Challenges:

• Installation and Maintenance: Installing these antennas on building rooftops would require specific infrastructure and regular maintenance to ensure optimal operation.
• Atmospheric Interference: Despite the advantages of lasers, adverse atmospheric conditions such as dense fog or heavy rain could affect data transmission, so it would be necessary to develop mitigation solutions.

In summary, the development of a network of laser satellite microantennas on building rooftops could revolutionize urban and global connectivity, enabling faster, more secure, and more efficient data transmission. This system would not only benefit smart cities but could also play a crucial role in expanding global telecommunications infrastructure.

This concept was developed by EcoBuddha Maitreya in 2009 and is part of a supertechnology transfer package from aliens originating from Hiranyaloka. This advanced technology integrates into EcoBuddha Maitreya’s broader vision to enhance global interconnectivity and data management in smart cities, driving technological progress and sustainability.

Written and developed in 3 minutes

HIRANYALOKI´S SUPERTECHNOLOGIES

A Better World, Now Possible!

EcoBuddha Maitreya

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