The deep space exploration and technology market is one of the emerging space industries, which is expected to witness numerous developments in the coming years. Since the past three decades, space agencies such as the National Aeronautics and Space Administration (NASA) and European Space Agency (ESA) have carried out numerous uncrewed missions not only to the International Space Station (ISS) but to different planets in the solar system, whereas the number of crewed missions beyond the ISS is comparatively less. In line with deep space exploration missions, the space industry aims to carry out more human spaceflight missions.
Moreover, the space sector is highly focused on finding ways to make the Earth’s moon and Mars favorable for human habitation. Therefore, numerous space missions to understand the sustainable characteristics of these celestial bodies.
The report is a compilation of various segmentations including market breakdown by subsystem, technology mode, application, mission type, end user, and region. The report highlights the key driving and challenging forces for this market. It is based on discussions and interviews with the top management of several leading deep space exploration and technology companies and end users. The global deep space exploration and technology market is not expected to play out the same way for every region. Therefore, this report segments the market accordingly and breaks down the industry geographically as follows: North America (the U.S and Canada), Europe (the U.K., Germany, France and Russia), Asia-Pacific (China, Japan, and India), Rest-of-the-World (Latin America, Middle East, and Africa). Each geographical region analysis details the individual push-and-pull forces in addition to the key players from that particular region.
The space sector has been undergoing numerous developments since the past years, due to several factors such as cost effective systems due to technological advances, increasing private investments by emerging players in the industry, increasing need for better communication and connectivity. Moreover, the increased application of space technologies for investigation on weather, surveillance for the military sector, and real-time imaging requirements by different sectors are also leading to the evolution of the space industry. In order to cater to the aforementioned applications, an increase in the number of satellites are launched every year. For the same, the industry has also witnessed a demand for small satellites, which allow for enhanced operations as well as cost-effective missions. In addition to this, upgraded launch vehicles with heavy lift capabilities are being developed.
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Major space agencies as well as private space companies are focused on developing reusable launch vehicles, which can provide cost efficiency as well as reduce space debris. Prominent space agencies such as the National Aeronautics and Space Administration (NASA), European Space Agency (ESA), China National Space Administration (CNSA), Japan Aerospace Exploration Agency (JAXA), Roscosmos State Corporation for Space Activities (Russian Space Agency) and the Indian Space Research Organisation (ISRO) are looking toward the development of earth independence which includes human presence beyond low Earth orbit and cislunar space and onto Mars. A deep space exploration mission ranges from two to three years with safe return of the crew to Earth.
Deep space exploration includes both planetary explorations as well as human spaceflight and habitation explorations. Both these explorations require extensive support of various systems such as robotic systems to conduct various scientific investigations. The objectives for conducting deep space exploration is to expand human presence into space, increase planetary exploration capabilities, increase the ability to deploy assets and resources, support astronauts during space missions, and enhance effectiveness of human operations.
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