Category Archives: Space Exploration

Market Study Report: The Report 2021-2026 Global Deep Space Exploration and Technology Market Report explores the essential factors of the Deep Space Exploration and Technology market considering such as industry situations, market demands, market players adopted business strategies and their growth scenario. The Global Deep Space Exploration and Technology market has been separated by this report based on the key players profiles, Type, Application and Regions.

The new Deep Space Exploration and Technology market research report delivers an in-depth analysis of the industry vertical and covers a comprehensive overview pertaining to market share, market size, and growth opportunities based on product type, application, manufacturers, and regional contribution.

This study specially analyses the impact of Covid-19 outbreak on the Deep Space Exploration and Technology , covering the supply chain analysis, impact assessment to the Deep Space Exploration and Technology market size growth rate in several scenarios, and the measures to be undertaken by Deep Space Exploration and Technology companies in response to the COVID-19 epidemic.

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Key features of Deep Space Exploration and Technology market report:

Regional Analysis of Deep Space Exploration and Technology market:

Deep Space Exploration and Technology Market Segmentation:

Americas (United States, Canada, Mexico, Brazil)

APAC (China, Japan, Korea, Southeast Asia, India, Australia)

Europe (Germany, France, UK, Italy, Russia)

Middle East & Africa (Egypt, South Africa, Israel, Turkey, GCC Countries)

Overview of the regional terrain of Deep Space Exploration and Technology market:

Product types and application scope of Deep Space Exploration and Technology market:

Product landscape:

Product types:

Key factors enclosed in the report:

Application Landscape:

Application segmentation:

Details stated in the report:

Other details specified in the report:

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Competitive landscape of Deep Space Exploration and Technology market:

Major features as per the report:

Key features of this report are:

The key questions answered in the report:

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Deep Space Exploration and Technology market to showcase strong CAGR between 202 - Fractovia News

The Global Deep Space Exploration and Technology Market Research Report to Facilitate Your Decisions by Analysis of Top Industry Players with Their Growth Overview on product type, application, key regional Size, Share and Trends.

The Deep Space Exploration and Technology Market global share will register approximate CAGR 5.4% till the Forecast year 2021-2026.

The Global Deep Space Exploration and Technology Market includes several layers of physical equipment (hardware), virtualization, management systems, automation tools, operating systems, other system software and applications used to perform essential functions. As noted above, user devices, peripherals and software can be included in this domain. Using Deep Space Exploration and Technology types of market segmentation allow you to target customers based on unique characteristics, create more effective marketing campaigns, and find opportunities in your market.

Digital transformation is causing new careers in information technology to pop up, and more than 5 million new positions will be available by 2027. IT is one of the fastest-growing industries in the world today, and beginning a career in information technology at this point will put you in a position for success and further progress. The projected trends in 2019 call for IT professionals who can address the potential risks and push the industry further in innovation.

Major key players in the Deep Space Exploration and Technology market identified through their market revenues and determined through primary and secondary research are: Airbus S.A.S, Astrobotic, Axiom Space, Bradford, Blue Origin, Lockheed Martin Corporation, Masten Space Systems, MAXAR Technologies Inc., Nanoracks LLC, Northrop Grumman Corporation, Planetary Resources, Sierra Nevada Corporation, Space Exploration Technologies Corp. (SpaceX), Thales Group, The Boeing Company

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Todays Advance Sponsored Market Researches in IT:

While some of the valuable basic data on input resources into S&T activities were processed in -house, it was felt necessary to involve other interested individuals/organizations to take up studies in the sponsored project mode in order to convert this activity into a very comprehensive and cohesive plan programmed to make available Science and Technology indicators. Keeping this in view, the divisional activities were further strengthened during Seventh Five Year Plan (1985-90) by enlarging the scope and including the following:

The Deep Space Exploration and Technology Market leaders operate in a competitive environment, where they must embrace unprecedented advancements in order to reap the benefits of the new and upcoming information technology and industry trends. The latest technology methods and best practices of 2021 will primarily stem from current trends in information technology. Advancements in IT systems relate to what the industry is leaning toward or disregarding now. Information technology is advancing so rapidly that new developments are quickly replacing current projections.

Global Market Segmentation:

On the basis of types, the global market from 2021 to 2026 is primarily split into:

On the basis of applications, the global market from 2021 to 2026 covers:

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Regional Analysis:

The global Deep Space Exploration and Technology Market report is segmented into several key Regions, with production, consumption, revenue (million USD), and widely spread across various covering regions are North America (United States, Canada and Mexico), Europe (Germany, France, UK, Russia and Italy), Asia-Pacific (China, Japan, Korea, India and Southeast Asia), South America (Brazil, Argentina, etc.), Middle East & Africa (Saudi Arabia, Egypt, Nigeria and South Africa).

The Deep Space Exploration and Technology Industry report gives a clear picture of the current market scenario which includes historical and projected market size in terms of value and volume, technological advancement and governing factors in the market. Even the technology has increased how organizations can be more productive, many companies still dont run as efficiently as possible. Thats why most employers need staff members that understand the full potential of how information and technology can enhance workplace success.

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Deep Space Exploration and Technology Market 2021 Analysis, Growth by Top Companies and Trends Forecast Analysis To 2027 The Shotcaller - The...

Global Space Robotics Market Research Reportwill give its customers Full Analytical Research, which gives all in-out details about Key Players like company profile, product portfolio, capacity, price, cost, and revenue for the forecast period of 2020 2026. This Report gives a full evaluation of the Space Robotics Market that containsFuture trends, Current Growth Factors, attentive opinions, facts, historical data, and statistically supported and industry-validated market data. This Space Robotics Market Research makes a clear explanation of How or Why this market will take a growth hike in the mentioned period. Specific data of particular characteristics such asType, Size, Application, and end-userhave been scanned in this research report. There are the basic segments included in segmentation analysis which are outcomes ofSWOT analysis and PESTEL analysis.

Major Key Players in This Report Include,

Maxar Technologies (United States), Motiv Space Systems (United States), Altius Space Machines (United States), Northrop Grumman (United States), Honeybee Robotics (United States), Astrobotic Technology (United States), Made In Space (United States) , Effective Space Solutions Limited (United Kingdom) , Ispace (United States), Space Applications Services (Belgium)

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Our new sample is updated which correspond in new report showing impact of COVID-19 on Industry. The global pandemic of Covid19 calls for redefining of business strategies. This report includes the impact analysis necessary for the same. Taking into account rapidly changing economic conditions, Analyst of AMA has estimated best and worst-case scenarios for global growth till 2027.

Space Robotics Overview:

Space robotics refers to the use of general purpose machines which are capable of performing space exploration, assembly, maintenance, construction, servicing, and other tasks related to the space environment. Increasing government initiatives for space exploration activities propelling the growth of space robotics market. For instance, the National Aeronautics and Space Administration (NASA) is launching the Astrobee Robots to Space Station with propulsion system consists of a pair of impellers and components comprises of multiple cameras, a touch screen, laser pointer, and lights. In addition, the emergence of artificial intelligence for the space robotics expected to drive the demand for space robotics market over the forecasted period.

Market Drivers:

Market Trend:

Market Challenges:

Global Space Robotics the manufacturing cost structure analysis of the market is based on the core chain structure, engineering process, raw materials and suppliers. The manufacturing plant has been developed for market needs and new technology development. In addition, Global Space Robotics Market attractiveness according to country, end-user, and other measures is also provided, permitting the reader to gauge the most talented or commercial areas for investments. The report also provides a detailed synopsis of the competitive scenario, wherein complete business profiles of some of the prime companies in the market are included.

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In the last section of the report, the companies responsible for increasing the sales in the Global Space Robotics Market have been presented. These companies have been analyzed in terms of their manufacturing base, basic information, and competitors. In addition, the application and product type introduced by each of these companies also form a key part of this section of the report. The recent enhancements that took place in the global market and their influence on the future growth of the market have also been presented through this study.

Geographically Global Space Robotics markets can be classified as North America, Europe, Asia Pacific (APAC), Middle East and Africa and Latin America. North America has gained a leading position in the global market and is expected to remain in place for years to come. The growing demand for Global Space Robotics markets will drive growth in the North American market over the next few years.

Try a limited scope research document specific to Country or Regional matching your objective.

GET FULL COPY OF United States Space Robotics market study @ USD 2000

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Extract from Table of Content:

Chapter 01 Executive Summary

1.1 360 Degree Synopsis

1.2 Market value (US$ million).

Chapter 02 Market Overview

Chapter 03 Key Success Factors

3.1 Strategies adopted by key market participants and factors that have turned into success.

3.2 Additional viewpoint on global average pricing analysis benchmark, and consumers sentiments analysis.

Chapter 04 Covid-19 Crisis Analysis on Space Robotics Market

Chapter 05 Global Space Robotics Market Pricing Analysis

Chapter 06 Space Robotics Market Background

6.1 Macroeconomic factors affecting the Space Robotics market

6.2 Explore supply chain and value chain analysis.

6.3 In-depth information about the market dynamics and their consequences.

Chapter 07 Space Robotics Market Segmentation

Chapter 08 Key and Emerging Countries Analysis in Space Robotics Market

Chapter 09 Space Robotics Market Structure Analysis

Chapter 10 Space Robotics Market Competitive Analysis

10.1Market Concentration Rate10.2Competition Scenario: BCG Matrix [Relative Market Share v/s Revenue Growth Rate]10.3Heat Map Analysis10.4Comparative Market Share Analysis by Players (2018-2019) Rank, [% Market Share, Market Revenue]

Chapter 11 Assumptions and Acronyms

Chapter 12 Research Methodology

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Space Robotics Market 2020 Predictable to Witness Sustainable Evolution Over 2026 | Maxar Technologies, Motiv Space Systems, Altius Space Machines ...

BATON ROUGE, La (LSU) Next year, LSU will be the first university in the world to put science and research technology on the Moon. The Tiger Eye 1 research mission is part of a multi-disciplinary university-industry collaboration to make future space travel safer for people and equipment by providing insight into the complex radiation environment in space. LSUs radiation detection device is now officially on the manifest for the broader IM-1 mission, the first in a series of commercial flights and the first-ever to land on the Moon that will bring science and technology to the lunar surface throughNASAs Commercial Lunar Payload Services, or CLPS, initiative. This will also be the first time the U.S. lands on the Moon since 1972 and the Apollo program.

Students in five different LSU colleges and schools are leading the charge under the direction ofAssistant Professor Jeffery Chancellorin the LSU Department of Physics & Astronomy, head of itsSpace Radiation Transport & Applied Nuclear, or SpaRTAN, lab. All are undergraduate seniors from Louisiana:

Haley Pellegrin, from Bourg in Terrebonne Parish, is a LaSpace Undergraduate Research Fellow and member of the SpaRTAN lab where she develops new technologies to make better radiation shielding in the LSU College of Science. She graduates this month.

Jacob Miller, from Crowley in Acadia Parish, is an electrical engineering major who builds new devices for medical applications in the LSU College of Engineering and the Roger Hadfield Ogden Honors College. He graduates in December.

Katie Hostetler, from Zachary in East Baton Rouge Parish, is a graphic designer who creates art for LSU Athletics and this spring came up with the winning design for the Tiger Eye 1 mission patch; shes double-majoring in religious studies in the LSU School of Art + Design and the LSU College of Humanities & Social Sciences. She graduates in December.

NOTE: Media are invited to join the research team on Zoom on Monday, May 10 from 12:00-1:00 p.m.To receive the Zoom link and password, emailasatake@lsu.edu.

Were immensely proud of the LSU students leading this work on the frontier of science, technology, art and the human imagination, said Samuel J. Bentley, vice president of research and economic development. Its been incredible to see and support all of LSU coming together to move this mission forward. There should be no barriers to expertise, and this university-industry collaboration is a great example of how the caliber of our students and researchers can advance projects of critical importance to our nation.

This student-led, cross-campus collaboration reinforces LSUs impact on space exploration and planetary science, said Cynthia Peterson, dean of the LSU College of Science.As we prepare to put people on the Moon again in 2024, we must not only understand what it takes to protect our astronauts, but also what is required to perform science experiments in a space environment and safeguard the technologies needed to conduct the research.

Through itsmedical and health physics program and the SpaRTAN lab, LSU helps agencies and companies understand background radiation in space, one of the hard limits on how much time people and equipment can spend out there, beyond the Earths protective magnetic field. Understanding the types and amounts of radiation that exist on the Moon will be key to establishing a sustainable human presence on Earths nearest neighbor as well as traveling to Mars. The data brought back by Tiger Eye 1 will further the SpaRTAN labs research on improved radiation shielding in both materials and design.

We have models and predictions for human health risk on the Moon, but we dont yet have actual measurements of the radiation spectrum on the lunar surface, Chancellor said. Now that well get real data, we can use it to validate our models, make better predictions and increase the safety of future space travel.

The IM in IM-1 stands forIntuitive Machines, a Houston-based company pioneering humanitys next stepreturning the U.S. to the surface of the Moon. IM holds NASA and commercial payload contracts for two separate lunar landings through IM-1 in the first quarter of 2022 and IM-2 in the fourth quarter to help pave the way for the Artemis program, which will put the first woman and the first person of color on the Moon as early as 2024. The CLPS flights are all uncrewed and will make use of rovers and robots to conduct science experiments and test technologies in different areas on the lunar surface. Intuitive Machines is providing the vehicle, communication network and mission operations center for LSUs device to safely land on the Moon and effectively conduct research. IMsNova-C lunar landerwill be launched from a SpaceX Falcon 9 rocket. The solar battery-driven vehicle will spend two weeks on the surface before succumbing to lunar night, not far from Tranquility Base where Neil Armstrong and Buzz Aldrin first walked on the Moon in July 1969 during the Apollo 11 mission.

The two main barriers for human spaceflight are propulsionhow to get there fasterand how to protect humans and equipment from radiation, said retired Colonel Jack 2fish Fischer, astronaut and vice president of strategic programs at Intuitive Machines. Without the shielding and radiation modeling LSU is helping to develop, the radiation effects on crews and equipment during deep space exploration would be catastrophic.

Using Jeff Chancellors ability to model this stuff and figure out what kind of shielding to use and where to put it, we see a future where it will be much easier and cheaper to go into space because we could open the lunar and space economy to a global supply chain, Fischer continued. We could put commercial, off-the-shelf technology out there and lessen the dependency on expensive, overdesigned solutions. The radiation data well get on IM-1 will change the equation of whats possible in space.

LSUs Tiger Eye 1 mission was enabled in partnership withGeocent, a New Orleans-based company that provides solutions and talent for the space, defense and homeland security communities. Geocent chose LSU as a research and development partner to test some of their radiation shielding, which led to an opportunity to share physical space onboard IM-1.

Geocent and our teammatesPlasma Processes, the University of Alabama at Birmingham and the University of Tennessee, Knoxvilleare proud to bring Geocents ACCRES Radiation Shielding technology to the partnership with LSU and Dr. Jeff Chancellor, Intuitive Machines and especially LSU students to work on critical research and technologies that truly advance human spaceflight and exploration, said Robert A. Bobby Savoie, CEO of Geocent and LSU College of Engineering alumni. Were a national company but Louisiana-born, and its thrilling to see students from several disciplines coming together to make significant contributions to an important mission. Geocents technical strength is in its people, and we cant imagine a better way to build talent than challenging students to work together and rise to the occasion to put Tiger Eye 1 and their footprint on the Moon.

The LSU radiation detection device is currently being customized by Pellegrin and Miller who, as official project manager, also will engage LSU mechanical engineerings advanced manufacturing and machining capabilities to etch Hostetlers Tiger Eye 1 mission patch onto the physical device casing, which will occupy a space about the size of an iPhone 12.

The most challenging thing on missions like these is working within strict limitations on mass, volume, power, bandwidth and time, as well as communicating with and controlling devices from Earth, which means solving problems no ones solved before, Pellegrin said. Im super excited to be part of this mission and the knowledge and skills Ive gained have already kickstarted my career. They helped me land an internship at Geocent, which is a dream come true since I want to work in space and missile systems development.

Pellegrin and Miller are also working withAdvacam, a company based in the Czech Republic, on adapting radiation detection hardware, which is similar to a USB flash drive, that it has previously supplied for the International Space Station, or ISS. But while laptops and off-the-shelf equipment can be brought to the ISS to help integrate and connect such devices, that isnt possible on IM-1. Much of Millers work on Tiger Eye 1 lies in software development and coding, and possibly some wiring and soldering, to make sure the data from the sensor makes sense to the device, which must be able to communicate with the main Intuitive Machines flight computer to receive time stamps, temperature readings and other critical data. The LSU team is setting up a Tiger Eye 1 ground control center right on the main campus and hopes to be able to receive raw data as well as issue commands to the device while it is traveling through space and on the lunar surface.

Its sort of an engineering and computer science joke, but the amount of problems we solve by turning a device off and back on again is kind of astounding, Miller said. So, if we stop being able to communicate with the device or get weird readings, we need to be able to tell the lander to perform a power cycle to reboot our device or change other settings. Rather than just seeing a problem, we need to be able to do something about it without physically touching the device.

Earlier this year, Pellegin walked the Timepix chip the team will be using as a sensor over to the LSU School of Veterinary Medicines linear accelerator, where radiation is used to help treat animals with cancer, for initial testing.

Most of our patients are dogs and cats, but we do treat the occasional reptile, rabbit, horse or other pet, said Jayme Looper, director of the LSU Small Animal Hospital and itsradiation oncology services. Our recent collaboration with the LSU medical physics team to test the radiation detection device prior to its journey to the Moon is an example of a long history of intercollegiate collaboration at LSU.

Chancellor did the initial characterization of the Timepix technology in the 1990s as a masters student under advisor Larry Pinsky at the University of Houston, who did the dosimetry for the Apollo mission.

It takes a lot of time to sort of gather all of the information about how everything communicates and the protocols everybodys following, Miller said. It gets complicated really fast. But as an engineering student, I like the challenge of doing something thats really, truly new in just a few months. Its as scary as its appealing, and the result is going to benefit human spaceflight for years to come.

For Hostetler, the design of the mission patch didnt feel as new as it felt familiar. In a recentLSU Art + Design profile, she shared how her first opportunity to send art into space actually arrived already in fifth grade.

It was a contest to design a flag to go into space and I was really far ahead in the contest but ended up in second place, Hostetler said. So, when my professor, Courtney Barr, came to me with the Tiger Eye 1 opportunity, I was like, Fifth-grade me would be proud. My mom was especially excited.

Barr recruited seven undergraduate and graduate art students to come up with 19 different design ideas for the space patch. After careful vetting and input from the other students on his team, Chancellor chose one of Hostetlers designs, which features a fierce but protective tiger eye overlooking a spacecraft landing on the Moonbecause he appreciated the symbolism and also because it looked awesome.

The patch is an important symbol because it includes everyone on the team, Chancellor said. Folks like Danielle Cintron, Darya Courville, Greg Trahan, Shemeka Law and countless others at LSU have worked really hard behind the scenes to make Tiger Eye 1 possible. Space missions do not happen entirely in a vacuum and the patch itself helps to represent that idea.

I came up with a few different versions, but Im so glad he picked this one; its my favorite, Hostetler said.

With an eye on IM-2, Chancellor expects to call on Hostetler and the LSU Art + Design team again soon. Intuitive Machines will bring an ice drill and use a small drone ship to explore hard-to-reach areas on the Moon and test the Nokia 4G LTE network, while LSU is considering sending up a larger and more robust radiation detector, based on lessons to be learned on IM-1. When it comes to shielding materials and design, the vast spectrum of radiation in space doesnt lend itself to easy or particularly intuitive solutions. Adding more shielding or encasing everything in lead isnt an option in space. Not only would this add too much mass and cost; shielding in the wrong place could also slow down the radiation particles to the extent theyd get trapped inside the space vehicle or the human body, causing devastating damage to astronauts and equipment. Sometimes minimal shielding is the safest option and the LSU SpaRTAN labs research will continue to help the aerospace industry find out exactly where, when and how to effectively use it.

The upcoming missions reflect the importance and impact of LSUs Space Grant status, supporting critical space research across a range of topics. LSU manages the National Center for Advanced Manufacturing, or NCAM, a partnership between LSU, NASA, the state of Louisiana, the University of New Orleans, or UNO, and the UNO Research and Technology Foundation that is focused on applying advanced manufacturing technologies in support of NASA space programs. NCAM is located at NASAs Michoud Assembly Facility in New Orleans, where critical hardware components for exploration vehiclessuch as core Space Launch System, or SLS, rocket components for NASAs Artemis mission to the Moonare engineered, manufactured and tested. Beyond state-of-the-art research, NCAM has a strong educational and talent development mission, working with aerospace companies to build the next generation of scientists and engineers.

With NASAs Johnson, Stennis, Michoud and Marshall Space Centers all within arms reach, LSU is helping to develop the workforce needed for the next step in space explorationlong-term, crewed space missions and a return to the lunar surface, said Jeffrey Blackmon, chair of the LSU Department of Physics & Astronomy. TheLouisiana Space Consortium, or LaSPACE, and the High-Altitude Student Platform, or HASP, have played major roles, but were especially excited about the tremendous opportunity Tiger Eye 1 is for LSU students to be involved in forefront space-science research.

As the Tiger Eye 1 team works to get everything ready for launch, something else just came upthe LSU SpaRTAN lab will be flying yet another radiation detector on SpaceXsInspiration4mission using their Falcon 9 launch vehicle and Dragon spacecraft this September, in collaboration with Pinsky. It will launch from NASAs Kennedy Space Center in Florida and be the worlds first all-commercial, all-civilian mission to space. It will circle the Earth before making a soft water landing off the Florida coast.

Press release provided by LSU Media Relations.

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WATCH NOW: LSU Tiger Eye 1 mission set to take place next year on the moon - BRProud.com

Since our existence onEarth, humans have watched birds in flight during the day and gazedwith wonder at the jewels twinkling overhead in the dark.

The very first time mankind soaredwith the birds was in Kitty Hawk, North Carolina (one of my most favorite areas on this planet).Ohio brothers Orville and Wilbur Wright took to the sky for one glorious and brief moment intime. The beginning to modern aviation, and the gateway for another young Ohio boy, who just33 years later at the age of 6, took his first flight with his father and ignited the spark and lovefor flying.

Neil Armstrong lived with his family for a while in Warren,Ohio, when he was young. His fathertook him to an airfield located at 2553 ParkmanRoad, Warren, where he was treated to hisfirst ride in an airplane. Currently the location of the former airstrip is located beneath a stripmall with an old Kmart building built over the prior runway. This was the launching point (dontmind the pun) for the young Neils fascination with flying. He later went on to get his pilot'slicense and 33 years after his first flight became the first man to step onto the moon.Locatedin a memorial near the McDonalds is a one half scale model of the lunar lander from the Apollo11 mission. It is an amazing tribute to mark a proud American moment in time.

There is a rich history in our area for space exploration that many of our young people may notrealize. So with the new excitement being generated by the Mars exploration currentlyhappening, why not take the opportunity to let your kids know just how much NASAs history isentwined within our neighboring state of Ohio.

In addition to the First Flight Memorial in Warren, you can also visit the boyhood home of JohnGlenn, former U.S.senator from Ohio and also the first American to orbit theEarth inspace. This home is located in New Concord, Ohio. There is also the Armstrong Air and SpaceMuseum in Wapakoneta, Ohio, that includes many exhibits including a moon rock.

Judy Resnik from Akron, Ohio, was one ofsix women accepted into the space program and thesecond American woman to go to space on the space shuttle Discovery. Tragedy followed,however, as she was also on board the space shuttle Challenger during its explosion. I, alongwith thousands of students across the United States, watched this event live in a classroombecause that was also the flight that the first teacher Christa McAuliffe was on.Horrified gaspsand then silence filled the classroom until the teacher quickly turned off the TV.

Aside from the disasters and disappointments, I am sure the initial space race was an excitingtime to be alive and watch the events unfold. The Cold War era is something spoken about soinfrequently that the young people of today probably have little idea what was on the line forthe United States and space exploration. The disappointment of losing the race of getting thefirst man into space to the Soviets, the joy of the words Thats one small step for man, onegiant leap for mankind the deadly accidents of the Apollo 1 capsule and the shuttlesChallenger and Columbia are just a few of the ups and downs our nation has endured in therace to the heavens.

Kids today learn about the International Space Station and how the counties work together fora common goal and may not realize just how new of a concept this truly is. In fact, even thephrase Houston, we have had a problem is notorious because it was changed to Houston, we have a problem in the "Apollo 13" movie staring Tom Hanks and is often quoted byyoungsters who dont know said it or what it is actually referring to. Thespaceshuttle programended in 2011, so many kids under the age of 15 do not have a first-hand account of some ofthe most exciting and dangerous events of the the20th century. In fact, I was even a bitshocked to learn that Ohio alone has had 25 natives become astronauts that have flown closeto 80 space missions.

So take a moment to wander over to Warren, where the man who stepped on the moon firstlearned his love of aviation and then get lost in the history of some of mans most exceptionalaccomplishments. Why did they go? the kids might ask, Because it was there, we cananswer.

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In Your Backyard: Visit neighboring Ohio to go out of this world - Meadville Tribune

Indore

IIT Indore has been granted 2 patents by Indian Patent Office for its novel inventions. One patent has been secured by Dept of Bioscience and Biomedical Engineering faculty member Prof Avinash Sonawane, and another by Dr Anirban Sengupta of Computer Science Dept.

Sonawane got patent for his novel research on "The development of asparaginase drug for the treatment of blood cancer". This a new asparaginase drug (M-ASPAR) using protein engineering approach to treat Acute Lymphocytic Leukemia, a type of blood cancer.

Similarly, Sengupta got patent for invention on "Design Space Exploration System and Method thereof using a Bacterial Foraging Optimization Mechanism" that is useful for designing digital chips of camera systems and mobile devices. The invention is several magnitudes efficient that other state of the art inventions used for this purpose. The invention is capable to enhance the speed of chips and reduce power using biological chemotaxis and elimination-dispersal pro-cess. The present invention relates to design space exploration, and particularly to method and system for design space exploration in high level synthesis.

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Patents granted to IIT Indore for inventions - Free Press Journal

Despite being in the World Health Organisations list of essential medicines, access to good quality asparaginase in India and several other Asian, African and South American countries has been a problem. Approximately 25,000 new cases of acute Lymphocytic Leukemia are diagnosed in India each year, said Sonawane.

The repeated administration of asparaginase currently in use for treatment of acute Lymphocytic Leukemia patients causes serious side effects such as acute lymphocytic leukemiaergic reactions, neurotoxicity, immunogenicity, hypersensitivity and toxicity to the pancreas, liver and spleen among other organs.

Moreover, due to immunogenic nature of current asparaginase formulations, the treatment of relapse acute Lymphocytic Leukemia is significantly compromised. For these reasons, there is a global search for asparaginase variants with better safety profile.

Similarly, Sengupta got patent for invention on, "Design Space Exploration System and Method thereof using a Bacterial Foraging Optimization Mechanism" that is useful for designing digital chips of camera systems and mobile devices.

The invention is capable to enhance the speed of the chips and reduce power using biological chemotaxis and elimination-dispersal process. The present invention relates to design space exploration (DSE), and more particularly to method and system for design space exploration in high level synthesis using bacterial foraging optimisation mechanism for designing or obtaining an application-specific processor (ASP) or Hardware Accelerator or Intellectual Property Core.

Overall, 75 patents have been filled from the inception of the Institute and total 4 patents have been granted by Indian Patent Office.

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Indore: Two patents granted to Indian Institute of Technology for inventions - Free Press Journal

Dunmore Aerospace

BRISTOL, Pa. (PRWEB) May 11, 2021

Dunmore, a Steel Partners company, announced today the expansion of the Dunmore Aerospace team. New members of the aerospace division include business development team members and customer support staff. With the increased demands of the aerospace industry, Dunmore is committed to supporting current and future aerospace customers.

Dunmore Aerospace is a leading manufacturer of thermal management materials for the space industry. For over 35 years, Dunmore Aerospace has supplied thermal management materials for the most critical private and government space missions. Dunmore products can be found across our solar system and beyond on various spacecraft ranging from satellites, constellations, rovers, and launch vehicles. With the expansion of the public and private space sector, Dunmore Aerospace recognized it was critical to expand the aerospace team.

The new team members include Frank Hamilton - North America business development, Keith Lutz - international business development, and Dave Williamson - technical support. Providing technical expertise and quickly responding to time sensitive projects has always been a priority for Dunmores aerospace team. With the additional team members, Dunmore will continue to improve in this area. The new members of the aerospace division look forward to working closely with the engineers leading us into future space missions.

According to the Vice President of Dunmores aerospace division, Art Mallett Jr., It is an exciting time to work with companies that are pushing the frontiers of space exploration and commercialization. Our new team members will play an integral role in supporting these ambitious space programs.

About DUNMOREDunmore is a global manufacturer of engineered coated and laminated films and foils with manufacturing facilities in the U.S and Germany. Dunmore produces coated film, metallized film and laminated film substrates for the aircraft, spacecraft, photovoltaic, graphic arts, packaging, insulation, and electronics industries. Dunmore is a Steel Partners company, and is ISO 9001:2015 and OSHA VPP Star certified. For complete information on Dunmores products, services and industries served, please visit https://www.dunmore.com/.

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DUNMORE Expands Its Aerospace Division with New Team Members - PR Web

While much of the world celebrated the beauty of nature for Earth Day on April 22, movie fans strapped in for a launch with Netflixs newest space exploration suspense film, Stowaway. Adventures into space have a long history in Hollywood, but this newest addition starring Anna Kendrick captures a unique side of space exploration with heartfelt moments, realistic themes and beautiful acting that is simply out of this world.

Director and writer Joe Penna is no stranger to survival stories. Fans will recognize his name from the rolling credits of the 2018 film Arctic, which told a story of a man who was stranded in the Arctic and forced to find a way to live. Stowaway unmistakably embraces Pennas signature portrayal of human survival against catastrophic odds.

The film makes no apologies for its quick introduction, opening with a launch sequence that makes it clear that Earth will not be the main setting in this storyline. Viewers learn that Zoe Levenson, played by Anna Kendrick, commander Marina Barnett, played by Toni Collette, and David Kim, played by Daniel Dae Kim, are on their way to Mars for a two-year mission funded by a company called Hyperion.

Zoe is a bright-eyed doctor whose compassion, light-hearted attitude and emotional depth make her a shining star throughout the film. David is a level-headed biologist and a realist, making him an interesting character in life-threatening situations, and Marina is a disappointing, two-dimensional character who often doesnt contribute to the meaningful atmosphere created by Kendrick and Kims characters.

True to its title, the ship has a stowaway Michael Adams, played by Shamier Anderson. Michael is found trapped in the ships interior, an introduction that leaves viewers with an endless list of questions. Its clear from his distress after waking up that Michael did not stowaway on purpose, and his concussion keeps viewers from getting a clear idea of what really happened.

The mystery begins, but every mystery needs suspense and this movie knows exactly how to build it. Michaels entrance damages one of the carbon dioxide scrubbers, leaving enough oxygen for two people. With four people on the ship, David sacrifices his research to create more oxygen with algae, but that only affords them one more supply of oxygen. There are four people on the ship, but someone has to die to keep everyone else alive a notion that Zoe cant accept.

The suspense of this knowledge is brilliantly laced throughout the cinematography of the film. In a situation that is burdened by the immobile weight of mortality, Penna emphasizes that words are meaningless in that situation and employs a more powerful tool silence.

The film embraces the silence of space as the characters go through their days, allowing the gravity of the circumstances to take center stage. In phone calls to Earth, viewers hear one-sided conversations from the perspectives of different people on the ship, effectively expressing the crews isolation and emotional exhaustion from feeling unheard by the people on Earth.

Embedded into the quiet of the film are also moments of dialogue that fill the space with palpable emotions and intense character connections. At times, the dialogue can feel overdone when every little detail is explained by the characters directly, but other moments exhibit a brilliant chemistry between the actors. Anderson and Kendrick share moments that are not only emotionally expressive, but they also perfectly develop the characters with a simple and elegant style of storytelling.

If classic Hollywood cinema has made one thing clear, its that every space blockbuster involves a dangerous trip into the abyss of a star-filled sky, and Stowaway is no exception to this golden rule of movie magic. The characters anxiety is skillfully captured in the musical themes and the suspense of life-threatening situations. Add breathtaking camera work to that suspense, and Penna beautifully depicts the rare duality of space a fine line between its brutal inhospitality and the allure of its grace.

As viewers fall into the storyline, its safe to say that all eyes will be glued to the screen for the entire movie. Whether it's the light-hearted moments of laughter or the gripping emotional dialogues, this script makes it impossible to not be intrigued by every scene. If viewers are looking for a deep dive into emotion, this is the right movie, and the anxiety will keep hearts racing until the last moment.

However, viewers should know that this film is satisfied with leaving questions unanswered a frustrating story technique that might have people yelling at the rolling credits. To be fair, the mystery of the ending falls completely in line with Pennas theme about the complexity of survival and the intersection between morality and mortality there is no easy answer and there will always be questions.

Despite its flaws, Stowaway positively contributes to an extensive era of space exploration films. The chemistry of the cast combined with the beautiful cinematography makes for a contemplative storyline that properly explores the danger of space, the power of human connection and the importance of doing the right thing. Theres something alluring about launching into space, and there is no doubt that movie fans should join the crew for this heartfelt adventure.

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Review: 'Stowaway' redefines space exploration with emotional depth - The Daily Titan

Ingenuity: NASAs first aircraft on Mars

NASA's Ingenuity Mars Helicopter will make history's first attempt at powered flight on another planet. (Source: NASA)

WASHINGTON - Vice President Kamala Harris announced Saturday that she will accept her role to lead the National Space Council and further the countys mission in space exploration.

"As I've said before: In America, when we shoot for the moon, we plant our flag on it," she tweeted. "I am honored to lead our National Space Council."

"The Vice President is the perfect person to lead the federal government's space policy, which is increasingly complex, with many nations in space," NASA administrator and former Sen. Bill Nelson said in a statement.

RELATED: Astronaut Michael Collins, part of Apollo 11 crew, dies at 90

"Vice President Lyndon Johnson was the first chair of the National Space Council when America initially ventured beyond Earth. Now, Vice President Harris will coordinate our nations efforts to ensure America continues to lead in space. It is an exciting time for our space program," Nelson continued.

The NASA JPL team cheers as they receive video data from the rover of the Ingenuity Mars Helicopter flight.

According to FOX News, The National Space Council was created in 1989 during the George H.W. Bush administration. It was scrapped in 1993 soon after Bill Clinton took office and brought back in Donald Trumps first year as president. Former Vice President Mike Pence was put in charge of the committee.

President Joe Biden announced he would keep the council intact last month.

The National Space Council is part of the Executive Office of the President that oversees and develops policies reflecting the countrys interests in the space industry.

RELATED: Rockville High School grad worked on Mars helicopter flight

One of the councils latest goals is completing NASAs Artemis program. It includes sending U.S. astronauts back to the moon, including the countrys first woman, by March 2024 as well as building a permanent base on the moons south pole.

Its unclear when the council will hold its first meeting.

This story was reported from Los Angeles.

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It is an exciting time for our space program: Harris to lead National Space Council - FOX 13 Tampa Bay