Insurance Benefits For European Space Exploration And Research – From launchers and spaceships to space habitats, private companies have been invited to participate in Europe’s near-Earth orbit and services in the rocket market.
These commercial operations will coincide with the end of life of the ISS, which may cease operations in the early 2030s.
Insurance Benefits For European Space Exploration And Research
“We are at an unprecedented crossroads. One of the main challenges facing Europe is to maintain influence in low Earth orbit and remain competitive with other space nations,” said David Parker, director of human exploration and robots
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“Shipping cargo and people in space are key opportunities to enter this new economy.” With this in mind, we would like to ask the industry the following question: How can we provide self-sustaining European services in low-Earth orbit and beyond? “Ten years?” said Daniel Neuenschwander, director of space transportation.
With investors gaining record speed in diversifying developing countries and businesses, David Parker added: “Europe needs to deliver, grow and innovate at every opportunity. The moon to close gaps in space capabilities.
This goal is in line with the strategy of creating new commercial opportunities for Europe’s long-term presence in low orbit after the decommissioning of the space station.
It is building its future work around the SciHab (Science and Environment) concept, a modular design around a human care platform open to commercial services.
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SciHab is the beacon of Europe’s presence in Earth orbit, serving as both a scientific and live platform.
The concept of SciHab is expected to enable Europe to achieve a higher level of autonomy and strategic leadership with new transport capabilities.
The move is part of the goals of the Terrae Novae 2030+ Strategic Guidelines, an exploration program that aims to lead Europe’s human journey into the Solar System and return the benefits of exploration to society.
Technologies such as advanced life support systems or telemedicine are expected to improve intelligence and applications on Earth and can monitor every aspect of human life.
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Private sector entities in Member States may respond to a request for information. Non-European providers are encouraged to join European-led alliances and inter-industry collaborations to build the future infrastructure in the low-lying Earth.
The deadline for submitting executive summaries is 2022. January 28 Detailed responses must be submitted by 2022. March 31 Demographic, market and technology trends are making digital transformation increasingly important for the future of healthcare. At the same time, it opens up new opportunities in the field of space technology and health.
The collaboration between health and space is not new. In the early days of space exploration, little was known about the effects of space flight and its effects on human physical and mental health. A personalized approach to space medicine today can also be considered a pioneer in the development of personalized medicine. Technological advances from surveillance devices to robotic weapons have led to medical devices here on Earth. Meanwhile, since the 1980s, satellites have revealed not only the depletion of the ozone layer, which has a major impact on human health and the environment, but also contributes to health problems related to mosquito-borne diseases such as malaria. Telemedicine through communication satellites is often the only solution to ensure communication in remote areas and during emergencies and disasters. Close cooperation between space agencies and their involvement in international agreements and institutions ensures the global application and dissemination of innovative space health solutions.
ESA played a major role in these changes. With new technologies and use cases constantly emerging, ESA is committed to supporting industry and public partners in developing future solutions. Subsequent activities include the organization of workshops to bring together stakeholder groups and further support the use of Earth observation, satellite communication and navigation in health (Space for Smart Health, EO and AI for urban health and resilience, etc.). Emergency communications and support during the COVID-19 pandemic and support for country recovery through RACE are some recent examples of how innovative space solutions are being applied to global health. Various tenders provide technical and financial support to SMEs to further develop their ideas and technical capabilities.
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The following paragraphs provide an overview and summary of current developments in spatial and data technologies for health and wellness. This integration will be driven by 5G connectivity, innovative technologies (robotics, AR, 3D printing, sensors, etc.) and big data and analytics platforms.
The effects of microgravity on biological, chemical and physical processes can be observed in space-based laboratories, allowing public and private institutions to better understand various diseases and to improve and develop new medicines and treatments for humans. Earth. For example, in the absence of sedimentation, cells grow faster, produce more crystals and are of better quality, which makes the place an ideal environment for accelerating research and testing in the pharmaceutical and medical industries. Opportunities include, but are not limited to, protein crystallization, 3-D tissue culture, tissue regeneration, DNA sequencing, drug and vaccine development, stem cells, and the treatment of diseases such as cancer and other dangerous and debilitating diseases. In particular, the formation of protein crystals is very important for the pharmaceutical industry, which uses crystal disassembly to deliver drugs to various diseases associated with protein aggregation (Alzheimer’s disease, diabetes, Parkinson’s disease, etc.). More revenue-generating applications can be found in drug design, structural biology, and biodegradation.
The application of nanotechnology in medicine offers new opportunities for the development of new drug delivery mechanisms, diagnostic methods, antimicrobial agents, and wound and cell repair. In 2019, the Nano Antioxidant Project investigated the use of nanoceramics to treat oxidative stress in muscle tissue and found them to be more effective and longer lasting than traditional antioxidants such as vitamins, leading to new strategies to maintain and improve muscle mass. muscles Hope is coming. Some pathological conditions. The European Space Agency hopes to launch its first commercial research project in 2021 focusing on nanoparticles for targeted delivery and controlled release of cancer treatment and diseases affecting the central nervous system. Other commercial research projects are expected to explore the development of osteoporosis treatment and the provision of personalized medicine.
Understanding more about the physics of fluids, such as the separation of gases and liquids, can help researchers mix liquids that are not normally mixed on Earth and better understand the physical structure of drugs and their drug targets. In the future, with personalized medicine in mind, individual tests may also be flown for testing. Looking ahead, space programs see drug discovery and wound healing as key future markets, followed by stem cell research and development.
International Cooperation & Space Exploration
Telemedicine refers to the use of information and communication technologies to replace traditional face-to-face patient-physician (or physician-physician) communication over long distances. Telemedicine solutions are revolutionizing the healthcare industry with many applications, primarily in healthcare prevention, diagnosis, patient treatment and monitoring. Continued growth in chronic disease, heart failure, asthma, and cardiopulmonary disease is accelerating the development of these advanced real-time patient monitoring solutions. This includes teleradiology, teledermatology, telestroke/teleneurology and remote monitoring of various chronic diseases such as diabetes.
By 2025, 20% of medical services can be replaced by artificial intelligence, especially in the areas of diagnosis, prevention and monitoring. Insurers will also use big data to better understand consumer behavior and tailor policies. During the current COVID-19 pandemic crisis, the adoption of solutions such as virtual visits and monitoring/treatment of patients is not only accelerating, but also becoming the new standard of care, enabling the remote assessment of a large number of patients. In addition, in mental health, the pandemic has cut or suspended vital mental health services in many places, with demand increasing due to fear, isolation, suffering or loss of income.
ESA has long provided connectivity to rural communities through global satellite communications. The increasing use of digital technologies such as mobile phones, social media, wearable devices and sensors is seen as an opportunity to improve healthcare and education in low- and middle-income countries. 5G integration will provide more needed bandwidth and is expected to be a key enabler of these new solutions, providing real-time video capabilities for a variety of telemedicine platforms. Applications such as augmented reality and virtual reality will increase the ability of doctors to provide innovative and minimally invasive treatments, but can also be used for personal development and skills. IoT devices such as wearables will be able to provide real-time remote monitoring and increase patient engagement.
Digital technologies can help public health services integrate care, identify and reduce risk, predict and help manage population health needs, and improve data quality.
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