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Goonhilly Earth Station
Helston, United Kingdom
A
11-50 Employees
2009
Key takeaway
Goonhilly Earth Station Ltd has established the world's first private deep space communications network, enhancing capacity for deep-space and lunar missions alongside existing NASA and ESA networks. Their GHY-6 32m antenna and 24/7 Operational Control Area are key assets in supporting various space endeavors for both agencies and private enterprises.
Reference
Core business
Goonhilly Earth Station Ltd
Your gateway to space: Goonhilly offers comprehensive satellite LEO/GEO/MEO ground station services and the world’s first commercial deep space network facility.
Solstar Space Company
Santa Fe, United States
B
1-10 Employees
2017
Key takeaway
Solstar Space specializes in providing secure communication solutions between spacecraft and Earth, supporting both crewed and uncrewed missions in various orbital operations, including low Earth orbit and lunar activities. Their innovative services, such as the installation of WiFi Access Points for the Lunar Gateway, enhance persistent communications for a range of space assets, addressing the critical need for reliable connectivity in deep space exploration.
Reference
Core business
Solstar Space Co | WiFi in Space for the New Space Age
WiFi in Space for the New Space Age
STELLAR PCS GmbH
-
11-50 Employees
1998
Key takeaway
Stellar is a leading teleport service provider specializing in satellite communications and data connectivity. They operate a main satellite control station for significant missions, which highlights their expertise in managing complex communication networks.
Reference
Service
Stellar – Communications via satellite and fiber
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RCNTEC
Stupino, Russia
C
1001-5000 Employees
2013
Key takeaway
RCNTEC specializes in the operation of telecommunication networks and information systems, including satellite communication, which is crucial for deep space communication. The company's expertise in maintaining extensive networks and remote data centers highlights its capability in facilitating effective global communication.
Reference
Product
Satellite communication / RCNTEC
DeepSpace Technologies
Laurel, United States
B
1-10 Employees
-
Key takeaway
DeepSpace Technologies specializes in providing advanced solutions for space science and defense applications, including the development of scientific radio systems and low-frequency radar for Earth ionospheric exploration and reconnaissance on other worlds. With a team experienced in digital signal processing and sensor signal processing, the company focuses on enhancing the exploration and utilization of the space environment through innovative technologies.
Reference
Product
Products and Services — DeepSpace Technologies
At DeepSpace Technologies, we research, design, and develop custom spaceflight radio receivers with built-in radio frequency interference (RFI) mitigation. At frequencies < 100 MHz, we develop low-frequency radar systems for Earth ionospheric exploration as well as reconnaissance on other worlds.
SpaceCom
Hobro, Denmark
A
1-10 Employees
1989
Key takeaway
SpaceCom specializes in developing and producing high-quality mechanical tracking antenna systems that are essential for global communication. Their expertise in electronics and mechanics enables them to create advanced solutions tailored to meet the diverse challenges of the communication market.
Reference
Core business
SpaceCom A/S
SpaceCom develops, produces and sells mechanical tracking antenna systems of outstanding quality to ensure communication throughout the world.
DEEP SPACE INITIATIVE
Denver, United States
B
11-50 Employees
-
Key takeaway
Deep Space Initiative is dedicated to enhancing deep space exploration, making it more accessible and providing opportunities for people globally.
Reference
Core business
Deep Space Initiative
National Space Centre
-
11-50 Employees
2010
Key takeaway
The company, National Space Centre (NSC), offers carrier-grade teleport facilities from Elfordstown Earthstation, which could be instrumental for deep space communication. Their strategic location and advanced infrastructure support data transmission for applications in smart agriculture and IoT forestry, highlighting their expertise in reliable communication technologies.
Reference
Core business
National Space Centre – Carrier grade teleport facilities from Elfordstown Earthstation, Ireland
Carrier grade teleport facilities from Elfordstown Earthstation, Ireland
2BCOM Space
Berlin, Germany
A
1-10 Employees
2020
Key takeaway
2BCOM Space is focused on developing software-defined radio (SDR) solutions that enhance ground station communication capabilities, providing cost-effective and flexible alternatives to traditional hardware. Their efforts include supporting bidirectional communication and satellite operations, which are crucial for deep space communication missions.
Reference
Core business
2BCOM Space
Golbriak Space OÜ
Tallinn, Estonia
A
1-10 Employees
2017
Key takeaway
Golbriak Space is developing advanced optical communication solutions for satellites, enabling high-speed data transmission while enhancing security through AI-powered processing. Their focus on innovative communication links between CubeSats positions them as a key player in the future of deep space communication.
Reference
Core business
Golbriak Space – Connecting Flying Machines
Technologies which have been searched by others and may be interesting for you:
Deep space communication refers to the technology and processes used to send and receive signals from spacecraft that are situated far beyond Earth's atmosphere. This form of communication is critical for missions that explore distant planets, moons, and other celestial bodies. It relies on highly sensitive antennas and sophisticated radio frequency systems to transmit data over vast distances, often taking minutes or even hours for signals to travel between Earth and the spacecraft. The challenges involved in deep space communication include signal attenuation, interference from cosmic radiation, and the need for precise timing. To overcome these issues, deep space networks utilize powerful transmitters and large dish antennas to maintain contact, ensuring that data such as scientific findings and telemetry can be relayed back to mission control.
Deep space communication relies on a network of ground stations and satellites that transmit and receive signals over vast distances. Spacecraft, equipped with high-gain antennas, send data back to Earth using radio waves. These signals travel at the speed of light but can take several minutes to reach their destination due to the immense distances involved. The ground stations, often located in remote areas to minimize interference, utilize large dish antennas to capture these weak signals. Advanced technology processes the received data, which can include telemetry, science data, and command information. Error correction techniques and sophisticated signal processing enhance the clarity and reliability of the communication, ensuring that important information is accurately transmitted and received.
Deep space communication relies on several advanced technologies to ensure effective data transmission over vast distances. Radio Frequency (RF) Communication is the primary method used, employing large antennas and powerful transmitters to send signals to spacecraft. These signals are often modulated to carry data, and sophisticated error correction techniques are used to maintain integrity. Another critical technology is Optical Communication, which utilizes lasers to transmit information. This method can achieve higher data rates compared to traditional RF systems but requires precise alignment due to its narrow beam. Additionally, Telemetry, Tracking, and Command (TT&C) systems are essential for monitoring the status of spacecraft and sending commands. These technologies work in concert to facilitate reliable communication with missions exploring the far reaches of our solar system and beyond.
Effective communication with spacecraft is crucial for successful space exploration. Deep space communication enables the transmission of data and commands between Earth and distant missions, ensuring that scientists can monitor spacecraft health, receive scientific data, and perform necessary course corrections. This communication is achieved through advanced technologies like large antennas and sophisticated signal processing systems that can handle the vast distances and time delays involved. Moreover, deep space communication supports the planning and execution of complex missions. Real-time data exchange allows for quick problem-solving and adjustments, which are essential for navigating the challenges of space. As space exploration evolves with missions to Mars and beyond, the importance of reliable deep space communication systems will continue to grow, driving advancements in our understanding of the universe.
Deep space communication presents several significant challenges that impact the effectiveness and reliability of data transmission. One major issue is the vast distances involved, which lead to significant signal delays. As the distance increases, the time it takes for signals to travel back and forth can range from several minutes to hours, complicating real-time communications. Additionally, the weak signals transmitted from deep space probes must contend with interference from cosmic radiation and solar activity. These factors can distort or degrade the signals, making it difficult to receive clear data. Furthermore, the need for advanced technology and infrastructure, such as large antennas and powerful transmitters, adds complexity and cost to deep space communication efforts.
Some interesting numbers and facts about your company results for Deep Space Communication
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 6753 |
| Amount of suitable service providers | 6081 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1989 |
| Youngest suiting company | 2020 |
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Some interesting questions that has been asked about the results you have just received for Deep Space Communication
What are related technologies to Deep Space Communication?
Based on our calculations related technologies to Deep Space Communication are Space Technologies, Military, Commercial Aviation, Airport Security
Which industries are mostly working on Deep Space Communication?
The most represented industries which are working in Deep Space Communication are IT, Software and Services, Telecommunications, Other, Defense, Electronics and Electrical engineering
How does ensun find these Deep Space Communication Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
