Station - Blog Posts

Sean bienvenidos japonistasarqueológicos, a una nueva entrega en la cual hablaremos de la famosa estación de Tokyo, uno de los pocos edificios que ha sobrevivido al paso del tiempo, ya que tras la operación doolittle y el gran terremoto de Tokio de 1923, Tokio ha sido muy remodelada, dicho esto pónganse cómodos que empezamos. - En 1908, comenzó su construcción en lo que respecta a la estación central, en 1914 empezó a funcionar, en la era Taisho 1915 Se inauguró el hotel de la estación de Tokio. En el año 1923 tiene lugar el Gran Terremoto de Kanto y el edificio de la estación no está particularmente dañado, se pudo reparar, pero la ciudad de Tokyo fue remodelada por completo y en 2007 realizaron trabajos de restauración, terminado en 2012. Hay que recordar que ha sufrido muchas restauraciones, ya que la de 1945 fue la más letal de todas. - Espero que os haya gustado y nos vemos en próximas publicaciones ¿Conocían este edificio y su historia? Que pasen una buena semana. - 今回は、有名な東京駅についてお話します。ドゥーリトル作戦や1923年の東京大震災の後、東京は大きく改造されましたが、その中でも数少ない時代の流れに耐えた建物の一つです。 - 1908年、中央駅の建設が始まり、1914年に開業、大正時代の1915年には東京ステーションホテルがオープンしました。1923年に関東大震災が起こり、駅舎は特に被害はなく、修復されましたが、東京の街は完全に改造され、2007年に修復工事が行われ、2012年に完成しました。1945年の震災が最も致命的であったため、何度も修復が行われたことを忘れてはならない。 - この建物とその歴史を知っていましたか？それでは、今週もよろしくお願いします。 - Welcome to a new installment in which we will talk about the famous Tokyo Station, one of the few buildings that has survived the passage of time, since after operation doolittle and the great Tokyo earthquake of 1923, Tokyo has been greatly remodelled, that said, make yourselves comfortable and let's get started. - In 1908, construction began on the Central Station, which became operational in 1914, and in the Taisho era 1915, the Tokyo Station Hotel was opened. In 1923 the Great Kanto Earthquake took place and the station building was not particularly damaged, it was repaired, but the city of Tokyo was completely remodelled and in 2007 restoration work was carried out, completed in 2012. It should be remembered that it has undergone many restorations, as the one in 1945 was the most lethal of them all. - I hope you liked it and see you in future posts. Did you know this building and its history? Have a nice week.

On June 19, engineers on the ground remotely operated the International Space Station’s robotic arm to remove the Roll-Out Solar Array (ROSA) from the trunk of SpaceX’s Dragon cargo vehicle. Here, you see the experimental solar array unfurl as the station orbits Earth.

Solar panels are an efficient way to power satellites, but they are delicate and large, and must be unfolded when a satellite arrives in orbit. The Roll-Out Solar Array (ROSA) is a new type of solar panel that rolls open in space like a party favor and is more compact than current rigid panel designs.

ROSA is 20% lighter and 4x smaller in volume than rigid panel arrays!

This experiment remained attached to the robotic arm over seven days to test the effectiveness of the advanced, flexible solar array that rolls out like a tape measure. During that time, they also measured power produced by the array and monitored how the technology handled retraction.

Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com

Science in Space!

What science is headed to the International Space Station with Orbital ATK’s cargo resupply launch? From investigations that study magnetic cell culturing to crystal growth, let’s take a look…

Orbital ATK is targeted to launch its Cygnus spacecraft into orbit on April 18, delivering tons of cargo, supplies and experiments to the crew onboard.

Efficacy and Metabolism of Azonafide Antibody-Drug Conjugates in Microgravity Investigation

In microgravity, cancer cells grow in 3-D. Structures that closely resemble their form in the human body, which allows us to better test the efficacy of a drug. This experiment tests new antibody drug conjugates.

These conjugates combine an immune-activating drug with antibodies and target only cancer cells, which could potentially increase the effectiveness of chemotherapy and potentially reduce the associated side-effects. Results from this investigation could help inform drug design for cancer patients, as well as more insight into how microgravity effects a drug’s performance.

Genes in Space

The Genes in Space-2 experiment aims to understand how the regulation of telomeres (protective caps on the tips of chromosomes) can change during spaceflight. Julian Rubinfien, 16-year-old DNA scientist and now space researcher, is sending his experiment to space as part of this investigation. 

3-D Cell Culturing in Space

Cells cultured in space spontaneously grow in 3-D, as opposed to cells cultured on Earth which grow in 2-D, resulting in characteristics more representative of how cells grow and function in living organisms. The Magnetic 3-D Cell Culture for Biological Research in Microgravity investigation will test magnetized cells and tools that may make it easier to handle cells and cell cultures.

This could help investigators improve the ability to reproduce similar investigations on Earth.

SUBSA

The Solidification Using a Baffle in Sealed Ampoules (SUBSA) investigation was originally operated successfully aboard the space station in 2002. 

Although it has been updated with modernized software, data acquisition, high definition video and communications interfaces, its objective remains the same: advance our understanding of the processes involved in semiconductor crystal growth. 

Space Debris

Out-of-function satellites, spent rocket stages and other debris frequently reenter Earth’s atmosphere, where most of it breaks up and disintegrates before hitting the ground. However, some larger objects can survive. The Thermal Protection Material Flight Test and Reentry Data Collection (RED-Data2) investigation will study a new type of recording device that rides alongside of a spacecraft reentering the Earth’s atmosphere. Along the way, it will record data about the extreme conditions it encounters, something scientists have been unable to test on a large scale thus afar.

Understanding what happens to a spacecraft as it reenters the atmosphere could lead to increased accuracy of spacecraft breakup predictions, an improved design of future spacecraft and the development of materials that can resist the extreme heat and pressure of returning to Earth. 

IceCube CubeSat

IceCube, a small satellite known as a CubeSat, will measure cloud ice using an 883-Gigahertz radiometer. Used to predict weather and climate models, IceCube will collect the first global map of cloud-induced radiances. 

The key objective for this investigation is to raise the technology readiness level, a NASA assessment that measures a technology’s maturity level.

Advanced Plant Habitat

Joining the space station’s growing list of facilities is the Advanced Plant Habitat, a fully enclosed, environmentally controlled plant habitat used to conduct plant bioscience research. This habitat integrates proven microgravity plant growth processes with newly-developed technologies to increase overall efficiency and reliability. 

The ability to cultivate plants for food and oxygen generation aboard the space station is a key step in the planning of longer-duration, deep space missions where frequent resupply missions may not be a possibility.

Watch Launch!

Orbital ATK and United Launch Alliance (ULA) are targeting Tuesday, April 18 for launch of the Cygnus cargo spacecraft to the International Space Station. Liftoff is currently slated for 11 a.m. EST.

Watch live HERE.

You can also watch the launch live in 360! This will be the world’s first live 360-degree stream of a rocket launch. Watch the 360 stream HERE.

Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com

Why Sequencing DNA in Space is a Big Deal

... And How You Can Talk to the Scientists Who Made It Happen

Less than one month ago, DNA had never been sequenced in space. As of today, more than one billion base pairs of DNA have been sequenced aboard the International Space Station, Earth’s only orbiting laboratory. The ability to sequence the DNA of living organisms in space opens a whole new world of scientific and medical possibilities. Scientists consider it a game changer. 

NASA astronaut Kate Rubins, who has a background in genomics, conducted the sequencing on the space station as part of the Biomolecule Sequencer investigation. A small, commercial, off-the-shelf device called MinION (min-EYE-ON), manufactured by Oxford Nanopore Technologies in the UK, was used to sequence the DNA of bacteria, a virus and rodents. Human DNA was not sequenced, and there are no immediate plans to sequence human DNA in space. 

(Image Credit: Oxford Nanopore Technologies)

The MinION is about the size of a candy bar, and plugs into a laptop or tablet via USB connection, which also provides power to the device. The tiny, plug and play sequencer is diminutive compared to the large microwave-sized sequencers used on Earth, and uses much less power. Unlike other terrestrial instruments whose sequencing run times can take days, this device’s data is available in near real time; analysis can begin within 10-15 minutes from the application of the sample.

Having real-time analysis capabilities aboard the space station could allow crews to identify microbes, diagnose infectious disease and collect genomic and genetic data concerning crew health, without having to wait long periods of time to return samples to Earth and await ground-based analysis.

The first DNA sequencing was conducted on Aug. 26, and on Sept. 14, Rubins and the team of scientists back at NASA’s Johnson Space Center in Houston hit the one-billionth-base-pairs-of-DNA-sequenced mark.

Have more questions about how the Biomolecule Sequencer works, or how it could benefit Earth or further space exploration? Ask the team of scientists behind the investigation, who will be  available for questions during a Reddit Ask Me Anything on /r/science on Wednesday, Sept. 28 at 2 p.m. EDT. 

The participants are:

Dr. Aaron Burton, NASA Johnson Space Center, Planetary Scientist and Principal Investigator

Dr. Sarah Castro-Wallace, NASA Johnson Space Center, Microbiologist and Project Manager

Dr. David J. Smith, NASA Ames Research Center, Microbiologist

Dr. Mark Lupisella, NASA Goddard Space Flight Center, Systems Engineer

Dr. Jason P. Dworkin, NASA Goddard Space Flight Center, Astrobiologist

Dr. Christopher E. Mason, Weill Cornell Medicine Dept. of Physiology and Biophysics, Associate Professor

Using the Power of Space to Fight Cancer

From cancer research to DNA sequencing, the International Space Space is proving to be an ideal platform for medical research. But new techniques in fighting cancer are not confined to research on the space station. Increasingly, artificial intelligence is helping to "read" large datasets. And for the past 15 years, these big data techniques pioneered by our Jet Propulsion Laboratory have been revolutionizing biomedical research.

Microgravity Research on Space Station

On Earth, scientists have devised several laboratory methods to mimic normal cellular behavior, but none of them work exactly the way the body does. Beginning more than 40 years ago aboard Skylab and continuing today aboard the space station, we and our partners have conducted research in the microgravity of space.  In this environment, in vitro cells arrange themselves into three-dimensional groupings, or aggregates. These aggregates more closely resemble what actually occurs in the human body. Cells in microgravity also tend to clump together more easily, and they experience reduced fluid shear stress -- a type of turbulence that can affect their behavior. The development of 3D structure and enhanced cell differentiation seen in microgravity may help scientists study cell behavior and cancer development in models that behave more like tissues in the human body.

In addition, using the distinctive microgravity environment aboard the station, researchers are making further advancements in cancer therapy. The process of microencapsulation was investigated aboard the space station in an effort to improve the Earth-based technology. Microencapsulation is a technique that creates tiny, liquid-filled, biodegradable micro-balloons that can serve as delivery systems for various compounds, including specific combinations of concentrated anti-tumor drugs. For decades, scientists and clinicians have looked for the best ways to deliver these micro-balloons, or microcapsules, directly to specific treatment sites within a cancer patient, a process that has the potential to revolutionize cancer treatment.

A team of scientists at Johnson Space Center used the station as a tool to advance an Earth-based microencapsulation system, known as the Microencapsulation Electrostatic Processing System-II (MEPS-II), as a way to make more effective microcapsules. The team leveraged fluid behavior in microgravity to develop a new technique for making these microcapsules that would be more effective on Earth. In space, microgravity brought together two liquids incapable of mixing on Earth (80 percent water and 20 percent oil) in such a way that spontaneously caused liquid-filled microcapsules to form as spherical, tiny, liquid-filled bubbles surrounded by a thin, semipermeable, outer membrane. After studying these microcapsules on Earth, the team was able to develop a system to make more of the space-like microcapsules on Earth and are now performing activities leading to FDA approval for use in cancer treatment.  

In addition, the ISS National Laboratory managed by the Center for the Advancement of Science in Space (CASIS) has also sponsored cancer-related investigations.  An example of that is an investigation conducted by the commercial company Eli Lilly that seeks to crystallize a human membrane protein involved in several types of cancer together with a compound that could serve as a drug to treat those cancers. 

"So many things change in 3-D, it's mind-blowing -- when you look at the function of the cell, how they present their proteins, how they activate genes, how they interact with other cells," said Jeanne Becker, Ph.D., a cell biologist at Nano3D Biosciences in Houston and principal investigator for a study called Cellular Biotechnology Operations Support Systems: Evaluation of Ovarian Tumor Cell Growth and Gene Expression, also known as the CBOSS-1-Ovarian study. "The variable that you are most looking at here is gravity, and you can't really take away gravity on Earth. You have to go where gravity is reduced." 

Crunching Big Data Using Space Knowledge

Our Jet Propulsion Laboratory often deals with measurements from a variety of sensors -- say, cameras and mass spectrometers that are on our spacecraft. Both can be used to study a star, planet or similar target object. But it takes special software to recognize that readings from very different instruments relate to one another.

There’s a similar problem in cancer research, where readings from different biomedical tests or instruments require correlation with one another. For that to happen, data have to be standardized, and algorithms must be “taught” to know what they’re looking for.

Because space exploration and cancer research share a similar challenge in that they both must analyze large datasets to find meaning, JPL and the National Cancer Institute renewed their research partnership to continue developing methods in data science that originated in space exploration and are now supporting new cancer discoveries.

JPL’s methods are leading to the development of a single, searchable network of cancer data that researcher can work into techniques for the early diagnosis of cancer or cancer risk. In the time they’ve worked together, the two organizations’ efforts have led to the discovery of six new Food and Drug Administration-approved cancer biomarkers. These agency-approved biomarkers have been used in more than 1 million patient diagnostic tests worldwide.

Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com

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Catania C.le

Week 1 of NASA Co-Op Tour #4 You know it's going to be a good semester when the first person you recognize in the badging office is former NASA Administrator and astronaut Charles Bolden, No matter who you are, NASA's security doesn't falter. I am guessing Bolden was stopping by to check up on Johnson post Hurricane Harvey. Schedules are undeniably out of wack following Harvey. Nonessential astronaut training was rescheduled and "Lessons Learned" meetings are being added to calendars. The International Space Station (ISS) still flew and flight controllers still manned mission control despite the storm.

I am Co-Oping with OSO (Operations Support Officer) pronounced "Oh So", a console in mission control. OSO is responsible for ISS hardware maintenance and ISS hardware training. Engineers in the Mission Evaluation Room (MER), pronounced like "myrrh", brainstorm what on space hardware needs to be repaired. OSO brainstorms how the hardware can be repaired with limited resources safely in low gravity. OSO also provides ample training to new astronauts in preparations for missions. Similar to the other mission control teams I Co-Oped with, OSO has their own console and sits in mission control center. On console OSO is most active when a visiting vehicle docks with ISS, when maintenance is being preformed, and if something off-nominal happens. I will be completing twelve little projects that give me a sampling of the training and maintenance side of OSO. One project that looks particularly interesting requires python scripting for a ISS simulation. This simulation is used to train flight controllers trainees. It teaches trainees what is nominal and abnormal telemetry from space station. Additionally trainees have to figure out how to fix whatever breaks the ISS simulation. The scripts I am writing simulates how day to day astronaut actions change telemetry. These actions include dispensing water for meal time and flushing the toilet. Yes, I am basically writing a space toilet simulator

Rare maintenance occurred this week to fix electronic hardware that was brought inside ISS from a spacewalk this spring. It required opening up hardware that had not been opened since before it was sent to space. I arrived in mission control promptly at 1:30am for a four hour procedure. OSO wrote the procedure that astronauts followed to fix the hardware and the software to test it. Some flight controllers prefer to work in the very early morning, sleep during the day, and enjoy free time in the evening. This week I have been meeting with all of my project points of contacts and reorienting myself to flight operations. 

WAYS TO GET INVOLVED

Become a paid intern at NASACo-Op (Pathways Intern) with NASA

Check out what scientist are learning from the Year In Space astronaut twin mission

Learn about space radiation

Read  a fellow NASA Co-Op's blog - Imagine Nat

More on mission control operations during Hurricane Harvey

Stowage Success: NASA Co-Op #3 Week 16

Last week at my third Co-Op tour at NASA Johnson concluded with successful handover and continuation of the stowage app. I passed on development leadership to a full-time employee after receiving  green light from managers. I consider this outcome to be a mission accomplished.

After receiving feedback from non-biased data takers, I met with app developers to prioritize how to move forward with app development. As a result the development team wants to designate a point of contact to learn about stowage ops just as I have to understand what the customer, crew member, would benefit the most from. The developers plan to take the feedback to refine app functionality and interface to make it more intuitive. Additionally, after comments from users like, “what do I do next?”, implement a procedure based app and conduct more user tests after refinements with an explicit tutorial.

Following my exit pitch to management about the stowage app I was awarded a Flight Operations Challenge Coin earned by exemplifying Mission Control values during my Spring Co-Op tour with the Inventory and Stowage Officers. These values include; discipline, competence, confidence, responsibility, toughness, teamwork, and vigilance.

Res Gesta Per Excellentiam -

Achieve through Excellence

This tour has been the most challenging and enjoyable so far. This fall I will be joining OSO (Operations Support Officer) team in Mission control.

You thought volunteering at Houston FIRST Robotics Championships was enough robots for me?

WRONG

I attended the St. Louis Championship too on my way home from Houston! My "Robot" Mater the Duluth East Daredevils and local team Esko Subzero Robotics competed.

It's good that we are moving the St.Louis Championship to Detroit next year because the roof started leaking on the field! Note the plastic tarp covering part of the field.

WAYS TO GET INVOLVED

This week at NASA < 3 minute video summary.

First ever virtual career summit Wednesday May 24th hosted by NASA with insight on internships.

Why Co-Op during college?

Astronaut Jack Fischer chats with MIT students about space life.

Johnson Space Center Director, Ellen Ochoa, is inducted in astronaut hall of fame.

Commercial Space & Ocean Worlds: NASA Co-Op #3 Week 14

Did you know that at least one human has inhabited the International Space Station over 16 years?!

NASA even has a Cumulative Crew Time on Orbit clock. Frequent flyers of this blog are familiar with the giant space lab orbiting the Earth every 90 minutes, however, even some of the public within a 20 mile radius of Johnson Space Center think NASA has shut down! It's up to myself, NASA full-timers, NASA interns and the science enthused to educate the public about the continuing efforts in space exploration.

International Space Station (ISS) Program Manager Kirk Shireman hosted an all hands for NASA employees to share about achievements and future goals. NASA is leading the commercialization of space by. The media often portrays NASA as fretting space commercialization when in reality NASA is fueling it. NASA has contracted SpaceX and Orbital ATK to deliver cargo to ISS every couple of months as commercial resuppliers. Launch of ATK April 18th 9:30am-10:30am CT. Boeing and SpaceX are being contracted by NASA to develop the Commercial Crew Vehicles to transport astronauts from Earth to ISS and back. The Commercial Crew Program enables manned launches from American soil. Additionally ISS is working toward attaching station nodes built by private space companies that deploy CubeSats. NASA thinks of the private and public space company research and device developers as customers. NASA is working on making space more accessible to its "customers".

Graduate School Advice

A Co-Op student leader coordinated a graduate panel with folks with NASA experience that also completed grad school. These are some helpful anonymous quotes from the panel...

“So when you roll into my office and say you want to be an astronaut I need a PhD, remember these are seven to eight years of your life”.

“How long it takes depends on how long it takes to do new science”.

“How many papers does it take to graduate? Okay. Spit in your hand and shake”.

Student: I want to get a degree in something very different than undergrad.

Panel member: “You can do anything”.

“Most people are human.”

“The answers aren’t in the back of the book once you start full-time.”

Ocean Worlds in Our Solar System

Evidence of giant water plumes observed on one of Saturn's moon Enceladus and one of Jupiter's Europa has been found. This exploration started in the 1990s when Galileo space craft orbited Jupiter and its moons. The magnetic signature  detected on Europa suggests ocean like currents underneath its icy shell. During a 2005 Cassini performed an Enceladus fly by and spotted huge plumes were observed. Recently data from these mission have been analyzed and conclusions have been reached.

Terrestrial oceans have hydro thermal activity feeding life deep 1000s of meters below the ocean. Plumes spotted on extraterrestrial worlds are believed to produce "300 pizzas per hour of energy" in calories. "The statistics tell us that plumes are real by full sigma results". However, Hubble has reached its max to detect these plumes on Europa so scientists cannot be certain yet. Bill Sparks from Goddard expanded on the uncertain of Europa's plumes, "It's not completely unequivocally but in my mind the pendulum has swung from cation to optimism. The evidence is growing. The fact we have saw a repeated the exact same location. That's one of the gold standards for dealing with a repeat phenomenon. It's not proof because we are right at the limit of what Hubble can do." He shared it is evidence rather than proof because spectrometer readings, movies and maps have been taken of Enceladus is high definition compared to the smudge of low resolution observation made by Hubble's max capacity.

WAYS TO GET INVOLVED

More reading on these ocean worlds!...

Full press conference by NASA scientists about the water plumes: https://youtu.be/3n-0CSCcJuQ

https://www.nasa.gov/topics/solarsystem/index.html

https://www.nasa.gov/specials/ocean-worlds/

This week at NASA.

NASA commercial cargo provider Orbital ATK is targeting its seventh commercial resupply services mission to the ISS for 10:11 a.m. CDT Tuesday, April 18. Coverage of the launch begins at 9 a.m. on NASA TV.

Big Day In Space: NASA Co-Op #3 Week 12

Spacewalk

An International Space Station spacewalk with a runaway micrometeorite shield and SpaceX landing of a rocket which has already flown in space marks a busy week in space exploration.

American NASA astronaut Peggy Whitson conducted her eight spacewalk March 30th, 2017. Logging an accumulative 59 spacewalk hours, Peggy has surpassed the current record of female spacewalk hours. Peggy is now the third most experience spacewalker behind Anatoly Solovyev (68 hours) and former astronaut Mike Lopez-Alegria (67 hours). Accompanying Peggy on the spacewalk was current Space Station commander Shane Kimbrough.

The goals of the spacewalk included reconnecting cables and electrical connections to PMA3 on the Harmony node. Peggy and Shane also installed an upgraded computer relay box on Space Station's truss and installed shields to PMA3 and common berthing mechanism.

During the spacewalk, one of the shields was inadvertently lost. Fortunately, the shield floated away safely and does not pose a threat to Space Station nor the crew. However, the device missing a shield still needed to be protected. Mission Control engineers jumped into action with an Apollo 13-esque energy to solve how to replace the cover. They devised a plan for the astronauts to finish covering the port with the PMA-3 cover Whitson removed earlier in the day.

Leading this effort from the ground included  light Director Emily Nelson and Capsule Communicator (CAPCOM)/Astronaut Anne McClain. Below you can see circled in green CAPCOM McClain & circled in purple Flight Director Nelson. 

SpaceX Reusable Rocket

Falcon 9 rocket will delivered a commercial communications satellite to a Geostationary Transfer Orbit (GTO). SpaceX is on the road to full and rapid reusability as the world’s first reflight of an orbital class rocket, whereas NASA's Shuttle was a human transport between Earth and Space Station.  Falcon 9’s first stage was previously supported a mission in April of 2016.

Rewatch the launch and landing broadcast here.

WAYS TO GET INVOLVED

Science Friday featured NASA Robotics and exploring the galaxy

Apply to be a NASA Intern

Accomplishments this week at NASA

NASA panelists at a Women History Month event

Launch your Aerospace Career

More pictures from the spacewalk...

Andata e ritorno

Persone troppo calde per avere la neve intorno

7-8 Gennaio 2017

Robotics, Simulation & Future: NASA Co-Op #3 Week 8&9

Robotics: Many NASA interns and Co-Ops got hooked on STEM disciplines by participating in FIRST (For Inspiration and Recognition of Science and Technology) Robotics. In fact there is a robotics team that meets at NASA Johnson's Space Vehicle Mock Up Facility, the Robonauts. There are four levels for FIRST Robotics; Junior Lego League for ages 6 to 10 (JrFLL), Lego Robotics League for 4th to 8th grade (FLL), FIRST Tech Challenge for 7th to 12th grade (FTC), and FIRST Robotics Competition for 9th to 12th graders (FRC). There are still FIRST Robotics events you can take part in.

Search for FIRST Robotics events pick “Event” and use filters such as dates, program type, county and zip code.Volunteers apply through the Volunteer Information and Matching System and need to pass a background check. Once you are accepted into a position the volunteer coordinator will supply you with the necessary training.

WATCH TEAMS COMPETE LIVE (every Thur - Sat through weekend of April 27th, 2017).

Robot my FRC team made

Robot the team who builds here, Robonauts, made.

This year’s FRC game.

Simulation: A group of us toured the Systems Engineering Simulator (SES) lab a part of NASA Johnson's Robotics Engineering division. Astronauts visit SES to practice docking Orion, capturing the SpaceX Dragon cargo ship, and driving a Mars rover. They simulate realistic physics and scenarios with in house software (Unreal Engine couldn't cut it). The have simulations with the International Space Station, Japanese Cargo Vehicle (HTV), Dragon, Cygnus, Orion and future space exploration vehicles.

Future of NASA: Center Director Ellen Ochoa, Deputy Director Mark Geyer and Associate Director Melanie Saunders hosted an All Hands where they shared with NASA Johnson employees essentially our state of the union. Ochoa described that NASA of priority and interest of the new administration. Per the request of the administration, NASA is conducting a study to weigh the risks of adding a manned crew to Space Launch System and Orion Space Craft's EM1 test. This study is expected to conclude late March.

Dragon & Tech Development: NASA Co-Op #3 Week 5 & 6

Six weeks into my spring at NASA I can finally summarize my role. I am basically a project manager. I am working with a wonderful team of developers and flight controllers to green light an app astronauts may use on the International Space Station to facilitate stowage operations. The app runs on a device that would make stowage operations more hands free and enable monitoring from Earth. Stowage operations include unloading visiting vehicles such as the SpaceX Dragon and reloading Japanese HTV vehicles to burn up in the atmosphere. To get app approval I need to set up user tests in space station node mock-ups with participants familiar with space station procedures such as mission control flight controllers and astronauts. I observe user testing for other stowage tools and instruct team members to integrate those lessons learned into the app. I make sure the right talents are involved in the development including folks who work in human factors and those who train astronauts. So far this has been my favorite work tour responsibility wise. Even as a Co-Op my efforts directly correlate with the success of the app’s progress.

Picture above is from NASA’s exhibits in downtown Houston during Super Bowl week. I am wearing a VR headset that gave a 360 degree view of how rocket engines are constructed. A rocket booster of the same module of those on the Space Launch System was perched in the middle of Houston’s Discovery Green. Standing in the middle of the exhibits you could spin around in the circle and see sky scrapers draped in Super Bowl LI banners.

WAYS TO GET INVOLVED

SpaceX Dragon, a cargo resupply ship is scheduled to launch Sat Feb 18 9:01amCT, watch here!

Science experiments arriving to Space Station on Dragon to be conducted bu astronauts!

Behind the scenes of the SpaceX Dragon launch and Space Food!  

List of launches scheduled at Kennedy Space Center in Florida's Cape Canaveral.

Five minute video of this week's NASA accomplishments.

Real time updates on  NASA's missions.

Apply to be a NASA Intern!

NASA Meets Super Bowl LI

Super Bowl has taken over Houston and NASA! VIPs have been touring all week with cameras flashing and film rolling. Despite the excitement work at Johnson continues uninterrupted. During work hours we are the entertainment viewed by the VIPs as we test, train and support space missions. In fact, today I conducted user testing in the Space Vehicle Mock Up Facility, a facility that feels like a fish bowl as tour goers check out Space Station and Orion training mock-ups. Heads down and clip boards out we user tested a device for on board International Space Station. However, last week NASA put together an opportunity to meet retired NFL players during lunch to get our Super Bowl fill before the big week. 

NASA has a huge presence at Super Bowl events and is expected to be featured during on the big screen during pre-game shows and game. There has been film crews running around Johnson and other related centers, I will be watching for some NASA love on TV Sunday! Here is a TV Guide of when coverage will start for those who don't get a newspaper: http://www.tvguide.com/listings/ The Fox Super Bowl Kick Off starts at 12:00pmCT Noon and the game starts at 5:30pmCT. Already NASA has taken over downtown Houston with the Orion Capsule, space booths and a giant drop tower that virtually send you to Mars and back. NASA has also made a number of Super Bowl related videos and social media posts found below...

NASA Referees Test of Footballs vs. Webb Telescope ^

Referee Robonaut: Robot Preforms Football Signals^

NASA Team! Where innovation meets sports.^

Journalists and bloggers attend NASA Social to ask astronauts about SuperBowl related questions. ^

Yahoo's Tony Sirusa rides in the Modular Robotic Vehicle^

Enjoy the game Sunday!

Throwback to when I captained a FIRST Robotics team and a really fun interview about my NASA Co-Op experience:

http://www.fox21online.com/news/local-news/UMD-Student-Reaches-For-The-Stars-With-NASA/42581116

100 Million X-Rays: NASA Co-Op #2 Week Three & Four

Jupiter orbital insertion, FIRST robotics coach visit and humidity sensor test prep have filled these past two weeks.

Drafting a fluid schematic complete with themocouples and pressure gauges I learn some fluid dynamics not expected to acquire as an electrical engineering and computer science major. The humidity sensor will be tested three ways - for 0% humidity with evaporating liquid nitrogen (Yah!), for ~ 50% with ambient room humidity down here in Houston, and >50% with ambient air being pulled through a water filled bubbler. Sensors will systemically be scattered to collect data and determine with a hefty amount of PV=NRTing if the humidity sensor works. After learning PV=NRT can only be used when you are certain the amount of water and vapor are equal to derive humidity we came up with the simple three part test matrix explained above.

My high school FIRST Robotics coach came to Johnson Space to tour some spacefaring robots, propulsion test center and space station mock ups (exact replicas of what is in space) at the Space Vehicle Mockup Facility! We also visited Houston’s Natural Science Museum and biked on Galveston.

Within a second of what was expected the Juno Spacecraft performed her tasks successfully and inserted into Jupiter’s orbit. This basketball court sized spacecraft will be exposed radiation equivalent to a human receiving 100 million X-Rays in a year. Juno also captured the first demonstration of celestial harmonic movement hypothesized by physics. Powered by solar energy this Juno is unique because most crafts that travel this far are radioisotope thermoelectrically powered. A critical part of this insertion was turning the solar arrays back toward the Sun post insertion.

WAYS TO GET INVOLVED

Watch…

Juno Media Briefing: https://youtu.be/I6uUEYOzipw

Juno Insertion: https://youtu.be/zfIqnpqPFbI

Juno Post Insertion Media Briefing: https://youtu.be/LH_uPWU5V3o

Apply for a NASA Internship: https://intern.nasa.gov/ossi/web/public/guest/searchOpps/

Apply for a NASA Co-Op (check back as it is updated as soon as one opens): http://nasajobs.nasa.gov/studentopps/employment/opportunities.htm  

Astronauts Scott Kelly and Mikhail Kornienko return to Earth after a year in space! Read the highlights of the year here: http://ourtech.tumblr.com/post/140172910796/best-moments-from-a-year-in-space-creepily-enough Watch live now: http://www.ustream.tv/NASAHDTV

Best Moments from a Year in Space

Creepily enough I have not meet Astronaut Scott Kelly in person, yet through my experience as a NASA Johnson Space intern I have followed his whole journey. While sitting in Mission Control I would see Kelly float through the International Space Station (ISS) to his next experiment, struggle with space food and occasionally pull a space prank. After a record breaking year in space Kelly will return to Earth March 1st and you can watch here 9:15pmCT. He has had many great moments and below are my personal favorites...

Extra Terrestrial Lettuce

Scott Kelly taking a selfie with space lettuce - NASA

Astronauts consumed a space grown harvest for the first time! Kelly,  Kjell Lindgren, and Kimiya Yui tried crisp red romaine lettuce, first plain and then with vinaigrette. NASA was testing the effectiveness of a plant growth facility, Veggie, using rooting "pillows," which contain the seeds. Providing fresh food for astronauts, NASA plans to grow food on spacecrafts and on other planets in the future.

Space flowers, zinnia, were also grown in the Veggie during Kelly's mission blooming with oddly curled petals. NASA ground support treated Kelly like an autonomous gardener with only a one page flower care guide. These zinnia were not the first flowers to bloom on the ISS, in 2012 Astronaut Don Pettit grew a sunflower, broccoli and zucchini plant for a personal experiment. The zucchini bloomed a yellow flower but did not produce a full zucchini with the time allotted. Pettit wrote a "Diary of a Space Zucchini" from the perspective of the orbiting zucchini plant. The first flower to bloom in space was a Arabidopsis flown on board the then Soviet Union’s Salyut-7 space station in 1982.

Space Selfies

Scott Kelly taking a selfie during his first space walk Oct 28th, 2015 - NASA

Selfie during Kelly's space walk December 21st, 2015 - NASA

While there is a lot of science to get excited about in space sometimes its acceptable to take a moment to appreciate a good space selfie. Kelly was pretty selfie happy religiously posting to Twitter and sneaking in a few selfies during down time on space walks. In addition to selfies Kelly has taken thousands of stunning photos of Earth from his extraterrestrial perspective. During his over 5,000 orbits around the Earth Scott Kelly has taken thousands upon thousands of photos documenting Earth's beauty and fluid environment. He has captured Northern Lights, illuminated cities, painted deserts, reaching rivers and looming storms. All of these photos that make Earth look like an unknown planet can be found on his Instagram and Twitter. For the record Buzz Aldrin the took first space selfie in 1966.

Green Goo

Scott Kelly observing a tablet fizzing in water - NASA

Unfortunately this is not a slime ball alien. Scott Kelly dissolved a fizzing tablet and food coloring in a floating ball of water. This bubbling phenomenon was captured using a camera ultra high-definition cameras. NASA explains that higher resolution images and higher frame rate videos can reveal more information when used on science investigations. The floating sphere's form was disturbed by its internal popping and bubbling. Personally I thought this experiment was the most hypnotic.

Watch this odd ball I deem to be better than a lava lamp.

Halfway There

Scott Kelly admiring fresh fruit delivered halfway into his yearlong mission - NASA

Woah, livin' on a prayer!

Seriously though, a year in space takes some serious endurance. A sane completion of half a year in space is well worth a celebration. On board the crew received a delivery of fresh fruit in late August on the H-II Transfer Vehicle (HTV4) Kounotori, a Japanese cargo ship. On ground, Mission Control celebrated with cupcakes and Skyped with Kelly. Kounotori was one of nine cargo ships Kelly welcomed to ISS. The successful docking of a cargo ship is critical as they carry needed food, experiments, tools and replacement equipment.

15 Years of the International Space Station

Expedition 45 Crew celebrates ISS' 15th birthday - NASA

Scott Kelly celebrated the International Space Station's 15th birthday on November 2nd, 2015 celebrating the first crew's docking back in 2000. Over 1,760 research investigations have been conducted on board including Kelly's Twin Study.

Read about all that has been accomplished on ISS.

Jitters In Orbit

Scott Kelly's set up for Space Cup test - NASA

Liquid in Earth Gravity (right) and low gravity (Left) - NASA

Poor Scott Kelly had to sip coffee for hours to observe patterns of liquid tension in the new Space Cup. It was amusing to hear Kelly claim he took the longest sip of coffee in history. Although bags of coffee are already used on ISS, drinking a cup off coffee is more natural like back on Earth boosting astronaut moral. These Space Cups are engineered to accommodate to liquid's behavior in low gravity. Liquid is very "sticky" in space desiring to adhere to surfaces and pooling. This phenomenon became a hazard when coolant leaked in astronaut Luca Parmitano's space suit during an EVA (Extra Vehicular Activity/ Space Walk) in 2013. By studying the tendencies of liquid in space we can better understand chemical and biological processes in space.

Extra Vehicular Activity

Scott Kelly’s second space walk - NASA

Myself logging during Kelly's second EVA - NASA

During Scott Kelly's second ever space walk I got to follow along with their procedure and log when they successfully completed tasks. Honestly the procedure book is full of engineering jargon that the astronauts may not complete int he desired order, I never had a dull moment trying to keep up! I can't imagine the focus space walkers must have following the procedure, fixing parts on the ISS, staying safe all for many hours without a bathroom and a granola bar. Kelly and Kjell Lindgren spent 7 hours and 48 minutes working outside the International Space Station. They fixed ISS' ammonia cooling system. Scott Kelly performed three EVAs during his year in space.

Scott Kelly taking a selfie with the Earth - NASA

Fragile Exploration

The whole point of Scott Kelly's year long mission is to observe the long term effects of space on a human's body and mind. Humans are the most fragile thing we send up to space. Unfortunately we are not a robot society because by now we would have personally explored each planet in our solar system. To explore, humans have to leave Earth, exist in low gravity and land on other planets SAFELY. Scott Kelly's year in space is a huge step in the right direction to identify our boundaries and expand them. With Scott Kelly on board and his twin brother Mark Kelly as the control on Earth we have a unique look at the effects of zero gravity. Once Scott Kelly lands the science has just begun! Scientists will evaluate the effects on the body in low gravity, observe how Scott Kelly adjusts to Earth's gravity, and observe other changes Scott Kelly has experienced. It is so neat we get to watch this scientific exploration unfold!

WAYS TO GET INVOLVED

Time Inc. produced a net video series called "A Year In Space" about Scott Kelly's mission.

PBS and Time Inc. will team up to produce a two part series about the mission too.

Launch your career in aerospace.

Watch Scott Kelly's Year In Space wrap up coverage on NASA TV here is the schedule:

While adorned in Christmas decorations Mission Control is working fast to instruct astronauts on an unexpected space walk. Year in space astronaut Scott Kelly and newly arrived Tim Kopra are performing an Extra Vehicular Activity (EVA) while first time astronaut Tim Peake is declared the commander of Space Station. Kelly and Kopra are assisting in moving the Mobile Transporter rail car a few inches to a worksite on the station’s truss where it can be latched in place. The rail car was stuck and needed to be moved so a Russian ships could be captured this week. In addition they are checking off items from previous EVA Honey Do list. From the perspective of someone who has developed astronaut training, this last minute EVA is extremely impressive! It takes months to develop an EVA's schedule, hours of training in the largest pool in the world with station mock ups - Neutral Buoyancy Lab, and development of hours of training videos. It takes a whole day just to get the suit on! My mentor said who ever pulled this space walk planning off is going to get a big award. WATCH LIVE NOW: www.ustream.tv/NASAHDTV

NASA Co-Op Week 16: Barf Lab & Mockups

Twenty five weeks at NASA Johnson I finally got a proper tour, lead by a tour guide, of the Space Vehicle Mockup Facility that houses exact replicas (build with same blueprint) of International Space Station modules, Shuttle, and Soyuz. Astronauts train in these mockups. A "low definition" mockup of Orion was present too.

Neurosciences Laboratory took us on a tour of their various astronaut barf machines. It is really like the rumors of spinning chairs, dizzying treadmills, and dark enclosed sliding contraptions. The spinning is to isolate parts of your brain that are used for balance. Only one day after Space Station astronauts return to Earth in Russia they are flown over to Johnson Space Center and put through a series of gravity adaptation tests. They had to pick up weighted objects, navigate around obstacles, jump of a short platform, and exit a hatch like structure. These tests will help NASA determine if astronauts would be capable of completing Mars surface operations after a long low gravity flight to the Red Planet. I wouldn't be surprised if returning astronauts Kjell, Oleg and Kimiya are on their way to the barf lab right now!

Most of the NASA Johnson Co-Ops and Interns complete their Fall semester this week. It is absolutely heart breaking to get to know so many space passionate people only to have to say goodbye at the end of the semester. I wish I could see all of these stellar students participate in NASA's future as they have already contributed to the growth of space exploration. It was an honor to work among these bright minds.

WAYS TO GET INVOLVED

Accomplishments this week at NASA: https://youtu.be/4tw5uwHD0PEApply for a NASA Internship NOW (high school to grad school):https://intern.nasa.gov/ossi/web/public/main/Apply for a NASA Co-Op (Pathways Internship):http://nasajobs.nasa.gov/studentopps/employment/opportunities.htmLearn to code: https://hourofcode.com/usMeteor Shower live chat December 13th: https://www.nasa.gov/centers/marshall/news/news/releases/2015/M15-180.htmlCurrent NASA opportunities for students: http://www.nasa.gov/audience/forstudents/current-opps-index.htmlCode more: https://www.madewithcode.com/

Accidentally met NASA Administrator Charlie Bolden! (Barely pictured far left.) I was watching the Space Station cargo ship launch (which unfortunately didn't) from the viewing room and all these important people walked in. After the scrub Bolden came up to me and asked who I was. I responded that I was just an intern and we talked about astronaut training and what was on board the ship.

NASA Co-Op Week 15: Precious Cargo

Six flags of countries who contributed to the International Space Station decorate the flight console. I return to Mission Control watching launch preparations from a new perspective - with Remote Interface Officer. Colloquially called RIO this team of international collaborators were originally dubbed Russian Integration Officer. The RIO flight controller communicated with the Russian team for launch and cargo capture system checks for the Cygnus rocket launch carried by an Atlas V rocket. Cygnus carries over 7,000 pounds of experiments, food and replacement parts to Space Station. cell cultures, bacteria, and microbe satellite experiments are on board the Cygnus rocket. We are calling this event a "Cyg"-nificant launch.

A team of  NASA flight controllers flip-flop working in the Russian Mission Control Center in Moscow and NASA's in Houston. For two months controllers visiting Moscow sit console for eight hours a day, six days a week, and on call 24/7.  By being available to assist with international troubleshooting, answering the right questions, and making right calls at the right time RIO has saved the space station hundreds of thousands of dollars. Ten years ago an hour of an astronaut's time in space was worth $100,000 so that cost has inflated even more now!

RIO introduced me to their mascot, a groundhog named Phil. One of the first Russian American collaborations took place on a Groundhog Day. Phil's collar is decorated with pins from various missions. The plush Ground Hog was hibernating under the console but has been kidnapped and escorted around the Red Square.

An odd anecdote I learned is that there is a survival hand gun stowed away on the Soyuz capsule. It is used if the Soyuz makes an emergency landing in an unexpected area and the astronauts need to defend themselves from bears or wolves. That's pretty hard core!

WAYS TO GET INVOLVED Watch the Cygnus cargo launch Dec 3rd 4:55pmCT: http://www.ustream.tv/NASAHDTV Accomplishments this week at NASA: https://youtu.be/t3_5ahJ0-Lw Apply for a NASA Internship & Scholarships NOW: https://intern.nasa.gov/ossi/web/public/main/ NASA Co-Op applications: http://nasajobs.nasa.gov/studentopps/employment/opportunities.htm NASA Community College Aerospace Scholars: http://nas.okstate.edu/ncas/ Join an aspirations in computing community: https://www.ncwit.org/programs-campaigns/aspirations-computing

NASA Co-Op Week 11: Leaky Space Station

Space Walk My latest opportunity to sit console was during a spacewalk (extravehicular activity/ EVA) by Scott Kelly and Kjell Lindgren. They were on a mission to upkeep the International Space Station's ailing structures. One of the primary tasks was to fix an ammonia leak originally identified in 2012. Media dressed this leak up with red flags and flashing lights, however, NASA predicted this fault to occur given the age of ISS and the nature of its climate control system. Since the ISS is a closed loop system the interior produces a lot of heat from astronauts and their hardware, water is used to cool the space station, the energy is then transferred to ammonia, and lastly into giant radiators. This 6.5 hour long EVA consisted of mating power cables, tubes valves, and checking integrity of systems. During the EVA I took flight notes on the procedures Scott and Kjell were running. I was to report what step each of them were on to the PLUTO flight controller to my right.

Grace Hopper Action Items Something that was scary but rewarding was presenting to my branch at NASA about what I learned at GHC and even challenged them with three action items... 1)Make the work place welcoming (paid parent leave, mentoring and celebrating results over hours), 2) Educating the community about how cool STEM is. 3) Communicating Effectively. I encourage you all to present action items to your current employers, student group, or college professionals after attending conferences.

Astronaut Training Development I thought I had made a pretty good astronaut training video... until I put it in front of user testers. I learned I didn't even effectively communicate how to turn the device on right! Back to the drawing board for me. I had 17 users of various ages, disciplines, personalities and technology experience test the training to insure I was catering to everyone. After reviewing helpful feedback I edited the training video again so the messages were clearer.

WAYS TO GET INVOLVED NASA summer internship applications now open: https://intern.nasa.gov/ossi/web/public/main/ Learn to code: https://techprep.fb.com/get-started/ Accomplishments this week at NASA: https://youtu.be/NPLPmdFx2yw Houston Maker Faire Nov14 (3D Printing, Robots): http://www.houstonmakerfaire.com/ Astronaut Kjell plays the bagpipes: https://youtu.be/7DWzmq9e0Lw

This is not goodbye II

Happy to announce a recently added painting study to my shop. The painting is of Sheppard Station which is a subway station in Toronto Canada.

Comes framed and free shipping to US and Canada.

Painting is available.