The B2B platform for the best purchasing descision. Identify and compare relevant B2B manufacturers, suppliers and retailers
Filter
Locations
Result types
Type of company
Select company type
Industries
Select industry
Company status
Select company status preset
Number of employees
Min.
Max.
Founding year
Lock keywords
Exclude keywords
Optional keywords
Brno, Czechia
11-50 Employees
2014
During our mission we want to cooperate and strengthen relationships between industry, universities, scientific institutions and to create added value, together. We are developing a Flash LiDAR system for vegetation and topography mapping as well as object detection. Each year, we are becoming more reliant on satellites, and space-based applications are now utterly critical to the large and growing range of services on which our citizens and economies depend. We are working on an end-to-end solution for access management and secured communication to protect your assets. We are building a Moon mission to explore Lunar sub-surface structures by 2030. Our mission includes also testing the technologies for space laser communication from the Moon will help build laser communication systems between satellites, ground and deep space missions. By that time we will have our products and services on every continent. Due to our know-how and experience we have capabilities to cover the full project/mission: mission definition and analysis, mechanical design, structural and thermal analysis, development, manufacturing, integration, assembly, testing, qualification and launch.
+
Featured
Deep Space laser communication system
... Deep Space laser communication ...
Helston, United Kingdom
11-50 Employees
2009
Goonhilly are proud to have established the world’s first private deep space communications network. Providing additional capacity to existing NASA and ESA networks, our upgraded GHY-6 32m antenna and associated 24/7 Operational Control Area are supporting a range of deep-space and lunar missions, for both space agencies and private enterprises. Additional services such as radio astronomy are supported on our cryogenically-cooled 30m antenna, GHY-3. Together, the antennas will form part of Goonhilly’s global deep space network, as the company expands internationally. Operating as global industry leaders for more than 60 years, and as a trusted ground station of choice for all the world’s major space companies, there’s no one better suited to providing the satellite communication services that your organisation requires.
+
Featured
Goonhilly Earth Station Ltd
... Lunar and Deep Space Communications ...
India
1-10 Employees
2020
We are developing Modular & Autonomous Robots which will accelerate a thriving lunar economy. We are enabling access to two critical things, Lunar Surface Data and Lunar Resources to help develop necessary infrastructure for identification & excavation of critical resources on the Lunar surface. Resources like water-ice are critical to build a sustainable presence in Space. We’ll offer Payload, Data, Infrastructure and Mining services on the Lunar surface for our clients.
+
Featured
BigDipper Exploration Technologies
... ADVISOR - DEEP SPACE COMMUNICATION ...
Dorval, Canada
501-1000 Employees
1988
Advantech Wireless is a leading wireless broadband communications solution provider for Commercial, Critical Infrastructure & Government and Military clients. With our customized approach, award-winning R&D and innovative engineering, we empower you to achieve excellence in communication, while you experience reduced CAPEX and OPEX overall. At Advantech Wireless Technologies, we design, manufacture and deploy networking for broadband connectivity, broadcast solutions, video contribution and distribution and mobile backhaul, using satellite and terrestrial wireless technologies. Our revolutionary technologies include world-leading GaN technology high power amplifiers, SSPAs, block-up converters (SSPB), frequency converters, fixed and deployable antennas, antenna controllers and terrestrial microwave radios. Our bold and innovative thinking helps a smarter world overcome the most daunting challenges. Winner of the 2014 North American New Product Innovation Leadership Award in Gallium Nitride-Based Devices, 2014 Teleport Technology of the Year Award from the World Teleport Association and Most Innovative Product of the Year Award 2013 from Satellite Markets and Research. Advantech Wireless’ satellite backhaul solutions deliver voice and data to difficult or cost-prohibitive regions around the world. Our innovative technologies empower border patrol in the field, helping keep citizens safe and borders secure.
+
Featured
Wideband C-Band Modular 8500W SSPA System - DeepBlu Series - Advantech Wireless Technologies Inc.
... The Ultimate Solution for very high Effective Isotropic Radiated Power (EIRP) Teleports designed for High Order Modulation Schemes, Deep Space Communication and Sophisticated TT&C applications for LEO/MEO/GEO ...
Pleasanton, United States
251-500 Employees
Today we are highly regarded as a premier provider of BAS and Integration solutions for a wide portfolio of clients across the Western United States. Sunbelt Controls has over 30 years of experience as an independent Building Automation System contractor. Since our inception, we have valued Project Management as the key to implementing successful Building Automation Systems. We Believe There Is A Better Way To Make Your Building More Intelligent And Powerful. Learn how to operate and fully optimize your building systems.
+
Featured
Projects - Sunbelt Controls
... Goldstone Deep Space Communications Complex Mojave Desert, ...
East Hampshire, United Kingdom
1-10 Employees
2017
Scientific European is a popular science magazine geared to disseminate advances in science to scientifically minded general readers. As general population is the ultimate source of researchers, it is important to provide good quality translations to reduce language barriers faced by ‘non-English speakers’ and ‘non-native English speakers’.
+
Featured
MediTrain: A New Meditation Practice Software to Improve Attention Span -
... Deep Space Optical Communications (DSOC): NASA tests Laser ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Deep Space Communication
| Country with most fitting companies | United Kingdom |
| Amount of fitting manufacturers | 5 |
| Amount of suitable service providers | 2 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1988 |
| Youngest suiting company | 2020 |
Deep Space Communication refers to the complex, specialized techniques and technologies employed to facilitate data transmission between Earth and spacecraft or probes that journey beyond the Earth's immediate orbital space, often venturing into the vast reaches of our solar system and beyond. This intricate process relies on a network of large radio antennas and communication facilities, collectively known as the Deep Space Network (DSN), strategically positioned around the globe to maintain constant contact with distant space missions. The core of this communication lies in the utilization of radio waves, modulated to carry signals across the immense distances of space, overcoming the challenges posed by the vast emptiness and the celestial bodies' electromagnetic fields. The significance of Deep Space Communication within the realm of space exploration and science cannot be overstated. It serves as the lifeline for remote spacecraft, enabling the transmission of critical data back to Earth, ranging from basic telemetry to groundbreaking scientific observations and high-resolution images of distant planets, moons, and other celestial phenomena. This flow of information not only propels our understanding of the universe but also ensures the safety and success of missions venturing into the unknown, marking it as a pivotal component in the ongoing quest to explore and comprehend the cosmos.
1. Extended Reach
Deep space communication enables the transmission of data over vast distances, far beyond the capabilities of traditional communication methods. This feature is crucial for interplanetary exploration, allowing spacecraft and satellites to send valuable scientific data back to Earth, despite being millions of miles away.
2. Enhanced Data Quality
Thanks to the advanced technologies employed in deep space communication networks, such as the Deep Space Network (DSN), the integrity and quality of data transmitted over these long distances are remarkably high. This ensures that scientists receive accurate and reliable information for analysis and research.
3. Improved Navigation and Control
Deep space communication systems provide precise tracking and control capabilities for space missions. They enable constant contact with spacecraft, facilitating adjustments to their trajectories and operations in real-time, which is essential for mission success and the safety of exploration activities.
4. Enabling Scientific Discoveries
The ability to communicate effectively over deep space distances opens up new frontiers for scientific discovery. It allows for the study of distant celestial bodies, the search for extraterrestrial life, and the understanding of the universe's fundamental principles, contributing significantly to our knowledge and curiosity.
While evaluating the different suppliers make sure to check the following criteria:
1. Experience and Reputation
Ensure the supplier has a proven track record in deploying deep space communication systems, with positive references and case studies.
2. Technology Compatibility
Verify that their technology is compatible with existing space communication infrastructure and can be integrated seamlessly.
3. Data Security Measures
Assess the supplier's commitment to data security, including encryption and protocols to protect sensitive information transmitted across vast distances.
4. Scalability
The supplier should offer solutions that can scale with your project's growing needs, from initial launches to long-term space exploration missions.
5. Support and Maintenance
Look for comprehensive after-sales support, including maintenance, troubleshooting, and upgrades, to ensure sustained operation.
6. Cost-Effectiveness
While cost should not be the only criterion, the pricing structure should offer value for money, reflecting both initial setup costs and long-term operational expenses.
7. Innovation and Research
A commitment to ongoing research and development indicates the supplier is at the forefront of deep space communication technology, offering advanced solutions.
Deep space communication plays a pivotal role in the aerospace and defense industry, primarily for missions involving unmanned spacecraft, satellites, and interplanetary probes. Companies in this sector rely on advanced communication technologies to transmit vast amounts of data back to Earth, including scientific observations and telemetry information. This data is crucial for mission control operations, scientific research, and ensuring the safety and functionality of spacecraft. In the telecommunications industry, deep space communication technologies enhance the reliability and coverage of networks. By leveraging communication satellites in deep space, telecom companies can provide uninterrupted service to remote areas where terrestrial networks are unfeasible. This application is especially beneficial for B2B clients operating in remote mining sites, oil rigs, or conducting maritime operations, ensuring they stay connected to global networks. The technology sector benefits from deep space communication through the development and testing of cutting-edge technologies. Companies specializing in communication hardware and software use deep space missions as opportunities to innovate and improve the resilience and efficiency of their products. These advancements not only cater to the specific needs of space missions but also trickle down to improve terrestrial communication solutions, offering enhanced services to a wide range of industries.
Deep space communication, vital for data transmission between spacecraft and Earth over vast interplanetary distances, currently operates at a Technology Readiness Level (TRL) of 9. This classification indicates that the technology is fully mature, having been successfully demonstrated in actual mission operations. The achievement of TRL 9 is attributed to several technical advancements and extensive testing in real-world space environments. Over the years, innovations such as the development of high-gain antennas, sophisticated signal processing algorithms, and the deployment of the Deep Space Network (DSN) have significantly enhanced the reliability and quality of communication over millions of miles. These systems utilize X-band and Ka-band frequencies for increased bandwidth, allowing for the transmission of high-volume data, including detailed scientific information and high-resolution imagery. The rigorous process of maturing deep space communication technologies involved iterative design enhancements, ground simulations, and in-space validations across multiple missions. This comprehensive development and testing process ensures that the technology is not only effective but also resilient against the unique challenges posed by deep space, such as signal attenuation, long delay times, and the influence of solar radiation. Collectively, these technological successes underscore why deep space communication occupies its current TRL, underscoring its readiness for supporting ongoing and future missions in exploring the solar system and beyond.
In the Short-Term, advancements in deep space communication are poised to focus on enhancing the bandwidth and reliability of transmissions. This phase is expected to see the implementation of more robust error-correction algorithms that significantly reduce data loss over vast distances. Additionally, the development of laser-based communication systems will begin to replace current radio frequency methods, offering higher data rates and more efficient power usage, thereby enabling more data to be sent back from deep-space missions with reduced delay. The Mid-Term phase will likely witness the establishment of autonomous, AI-driven communication networks in space. These networks will be capable of dynamically adjusting to the changing conditions of space, such as solar storms or cosmic interference, to maintain constant communication with Earth. Furthermore, the mid-term is expected to introduce the deployment of relay satellites in Martian orbit and other strategic locations, facilitating a solar system-wide internet that ensures seamless data flow between Earth and its interplanetary assets. Looking into the Long-Term, the focus shifts towards the development of quantum communication technologies. Quantum entanglement will enable instant communication across any distance, eliminating the time delay issues currently faced. This revolutionary leap would not only redefine deep space communication but also bolster security, as quantum networks are theoretically unhackable. The establishment of a quantum communication infrastructure will be pivotal for supporting human colonization efforts on distant planets and moons, providing a real-time lifeline back to Earth.
