There is not any other business in Earth that can gives you the profits of a life in a year with not any real business risk.
The future of profitable telecommunication business is 36,000 Km over Equator.
Olympus Satellites
A Satellite Operator is an organization that owns and operates one or more satellites.
Satellites used for communications are typically positioned along the geostationary arc, located 36,000 kilometers above the equator.
At this altitude, satellites orbit the Earth with the same angular velocity as the Earth's rotation, ensuring that they remain fixed over the same point on the equator. These satellites are referred to as geostationary satellites and are primarily used for telecommunications services.
A geostationary communications satellite can cover a large geographic area—approximately one-third of the Earth's surface—simultaneously from a single point in the sky. As a result, three geostationary satellites are required to provide global coverage.
Since the early 1960s, satellites have been used for various communication services, including voice, fax, and television. With advancements in satellite technology and the introduction of new frequency bands, geostationary satellites now provide high-speed internet directly to users, whether on land, at sea, or in the air.
Olympus Satellites Constellation - The Solution
There are more than ten compelling reasons to invest in the Olympus satellite system.
The Olympus project, designed by Dr. Christakis Fellas, a Spacecraft Engineering Consultant, aims to implement (manufacture and launch) a constellation of three or more geostationary satellites. This constellation will provide global coverage, delivering telecommunications and internet services worldwide via Ka Band technology, covering 99% of the Earth’s surface.
With the rise of new internet services and the privatization of many communication and telecommunications companies, the demand for these services is expected to grow far beyond previous projections.
The internet is one of the fastest-growing market segments, providing high-quality digital communications, including data, voice, fax, radio, and television services.
Analysts forecast that the global fixed satellite service market will grow at a compound annual growth rate (CAGR) of 5.15% from 2014 to 2019.
The global fixed satellite service market can be divided into two main segments based on service category: Managed Services and Wholesale Services.
The global wholesale fixed satellite service market is further subdivided into five segments:
- TV channel broadcasting
- Telecom backhaul
- Broadband services
- Content and video distribution
- Military satellite communication
With increasing demand for high-quality video and voice services, satellite TV providers are either launching their own satellites or forming partnerships with other satellite operators.
The primary objective of the three Olympus satellites is to provide high-speed internet (send/receive) on a global scale, ensuring connectivity for internet users across land, sea, and air.
The increasing use of the Internet across various applications has made our products and services some of the most in-demand commodities in today's market.
With the rise of broadband technology, we anticipate exponential growth. As more individuals and corporations invest in faster and more efficient communication systems, productivity will increase, ultimately improving their bottom lines.
Even under the most conservative estimates, satellite communication services are expected to grow by 20% annually.
Similarly, under these same conservative scenarios, global market penetration is projected at 1% per year.
The Olympus satellite system, utilizing Ka Band technology and advanced architecture, will provide competitive rates for high-speed internet, positioning it to compete effectively with existing land-based systems.
As of February 2025, approximately 2.5 billion people worldwide remain unconnected to the internet, accounting for about 31% of the global population. ​
The regions with the largest unconnected populations include:​
Southern Asia: Approximately 956 million individuals are offline. ​
Eastern Africa: Nearly 370 million people lack internet access.
Eastern Asia: About 361 million individuals are not using the internet.
Notably, specific countries with the highest numbers of unconnected individuals are:
India: Approximately 684 million people (47.6% of its population) are offline. ​
China: Around 336 million individuals (23.6% of its population) lack internet access. ​
Pakistan: Approximately 137 million people are unconnected. ​
Efforts to bridge this digital divide are ongoing, focusing on infrastructure development, affordability, and digital literacy to ensure broader internet accessibility
How Effective is the Olympus System for Communications?
The Olympus System is designed as a next-generation satellite communications network, featuring a new architecture and satellite constellation composed of three geostationary satellites operating in the Ka-band (positioned 36,000 km above the equator). This advanced system will provide all the benefits of high-speed internet on a global scale, covering land, sea, and air while offering seamless telecommunications services worldwide.
Each satellite within the Olympus constellation is engineered to support a full range of satellite communications. However, it is projected that 95% of its capacity will be dedicated to broadband internet services, ensuring fast and reliable connectivity across the globe.
Manufacturing, Assembly & Launch
The design, manufacturing, assembly, integration, testing, and deployment of the Olympus satellite constellation will be executed by Airbus Defence and Space or an equivalent high-quality manufacturer.
The satellites will be launched from either Cape Canaveral, Florida, or through the Proton Launcher (ILS Company) in Kazakhstan.
The Proton Launcher option is expected to extend the operational lifespan of the satellites by at least two years.
Advantages of Ka-Band Technology
The Olympus System leverages the latest Ka-band technology, offering significant advantages in satellite communications. The Ka-band, operating within 26.5 GHz to 40 GHz, provides higher bandwidth capacity, enabling faster data transmission rates compared to lower-frequency bands. This frequency range corresponds to a wavelength of 1.11 cm to 7.5 mm, ensuring superior signal performance.
The Ka-band is a subdivision of the K-band in the microwave spectrum and is primarily used for high-speed satellite communications. The 30/20 GHz band is allocated for communications satellites, with uplinks utilizing the 27.5 GHz to 31 GHz range. Additionally, this band is used for high-resolution targeting radars on military aircraft and for vehicle speed detection by law enforcement agencies.
With its cutting-edge satellite architecture and Ka-band capabilities, the Olympus System is set to revolutionize global connectivity, delivering unparalleled broadband services for both civilian and defense applications.
