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MANILA, Philippines — A mobile and SMS application developed by IT professionals Revbrain G. Martin, Marie Jeddah Legaspi, and Julius Czar Torreda to help fishermen receive real-time weather, sunrise and sunset, wind speed, and cloud coverage to plan their fishing activity, and an emergency checklist kit app was developed by students Jeorge Loui P. Delfin, Bluen Ginez, Samuel Jose, Rainier Garcia Narboneta, and Eugenio Emmanuel A. Araullo for disaster preparedness won the NASA Space Apps Challenge on October 19–21 at De La Salle University in Manila, Philippines, in partnership with the Embassy of the United States of America and PLDT.

Other projects and solutions developed are games using images from the Hubble Space Telescope, augmented reality mobile app to tell a story of the changes in the Arctic and Antarctic ice, artificial intelligence app helping scientists confirm the habitability of exoplanets, and story-based game using NASA Earth imagery.

They joined together with teams of coders, scientists, designers, storytellers, makers, builders, technologists, thinkers, designers, entrepreneurs, and everyone around the globe working together in a 48-hour sprint to develop solutions to some of the most pressing challenges on Earth and in space, using NASA resources and data.

Since its inception in 2012, the International Space Apps Challenge has become the world’s largest global hackathon, engaging thousands of global citizens to collaborate in building innovative solutions to complex challenges using NASA’s open data. Hackathons are technology development marathons that draw on the talents and initiative of bright-minded people. Space Apps inspires local innovation communities to convene, cooperate, and create. On 2016, Tzar C. Umang brought Space Apps in Dagupan, Pangasinan while Art Polo Gabriel III, Wilson Censon, and Tito Mari Francis Escaño organized one in PLDT InnoLab in Metro Manila. De La Salle — College of Saint Benilde hosted Space Apps on 2017.

A day-long data bootcamp held on October 19 to learn new concepts, strategies and skills from keynote speakers, panelists and mentors. Michael Carroll from Urban Engine in Huntsville, AL and Dr. Patricia Jacobberger, the Senior Advisor in NASA Earth Science Division, introduced Space Apps through a virtual talk while U.S. Embassy Science Fellow Dr. Anondo Mukherjee and U.S. Fulbright fellow Sarah Marie Hartman gave an online lecture about the Earth’s environment. Acting Director Dr. Joel Joseph S. Marciano, Jr. of DOST-Advanced Science and Technology Institute and Program Leader Dr. Marc Caesar R. Talampas of PHL-Microsat discussed microsatellite development in the Philippines.

Several mentors coming from different backgrounds taught participants in the data bootcamp in the form of stardust stations. Stardust stations is an alternative to a lecture format and encourages learning through participatory activities. A stardust station can show applications of data, demonstrate simple hardware projects or teach other hackathon skills. Neil Patrick Del Gallego and Jordan Deja from De La Salle University taught augmented reality and user experience, respectively. Engr. Ariston N. Gonzalez, Lorenzo Sabug, Jr., Benjamin Joseph D. Jiao, and Carlo Dizon Pastoral from PHL-Microsat discussed using Diwata-1 API. Animo Labs incubatee Simon Gregory Mabanta discuss about educational robotics. John Luis Garcia, Dennis Magsajo, and Randy Bardaje taught using Amazon Web Services cloud. Art Polo Gabriel III, the organizer of Space Apps 2016 from Mobility IT 4 Youth, explained the use cases of smartglass applications.

During the hackathon period on October 20–21, teams are expected to find solutions to themed challenges put forth by NASA. They work together with the rest of the world on hackathon weekend to devise creative and innovative solutions to these challenges. Projects Apps projects don not have to be apps and anyone does not need to become a computer programmer to participate. Participants collaborate to build anything — from open-source software, hardware, data visualizations, and citizen science platforms, to videos, art, and other communications solutions — aimed at addressing global challenges.

The overarching theme of the 2018 challenges is “Earth and Space,” underscoring the connections between major challenges, and the potential solutions to them, both on Earth and in space. The 2018 mainstage Space Apps event was hosted by Urban Engine in the U.S. Space and Rocket Center at Huntsville, AL, also known as “The Rocket City.”

YSEALI alumni Ryan Madrid and Malcolm Flores, Dr. Jasmine Albelda from the Philippine Nuclear Research Institute, entrepreneur Ibba Bernardo, and technologists like Cristopher David and Simon Gregory Mabanta served as mentors in the hackathon proper. IdeaSpace and Animo Labs looked upon promising projects and solutions that might have a business potential. Sentinel Hub, Neustar, Amazon Web Services, Microsoft, and IBM offered the use of their technologies for the participants during the hackathon.

After the development period, teams are expected to provide a four-minute presentation about their projects and solutions. Deputy Chief of Mission John Law of the Embassy of the United States of America to the Philippines, Leandro T. Santos, Head of PLDT Enterprise Core Business Research and Development, Deputy Executive Director Engr. Raul C. Sabularse of DOST-Philippine Council for Industry, Energy and Emerging Technology Research and Development, Senior Planning Officer Yvette M. Cabrera from the Department of Information and Communications Technology, Executive Director Federico C. Gonzalez of Animo Labs served as jurors for the Space Apps hackathon.

Jeanie Duwan, Randolf Mariano, and Xavier Lara from the American Spaces Philippines of the US Embassy and Christine M. Abrigo, Donna Labangon, and Kevin Anthony Kaw from De La Salle University organized Space Apps in the Philippines on 2018. Space Apps Philippines lead organizer Michael Lance believes that Filipinos can build projects and open-source solutions that address real-world problems, on Earth and in space. #SpaceApps #SpaceAppsPH

Someday, people across the world will look back on September 2018, much like we look back on the terror attacks of 9/11 or the safe return of Apollo 13 in 1970. They are touchstone moments in world history. For Americans, they are as indelible as Pearl Harbor, the assassination of John F. Kennedy or the first moon landing.

So, what happened just now? The month isn’t even half over, and the only events we hear about on the news are related to Hurricane Florence and Paul Manafort. (In case you live under a rock or are reading this many years hence, the hurricane made landfall on the coast of the Carolinas, and the lobbyist / political consultant / lawyer / Trump campaign chairman pled guilty to charges and has agreed to cooperate in the continuing Mueller investigation).

No—I am not referring to either event on the USA east coast. I am referring to a saga unfolding 254 miles above the Earth—specifically a Whodunit mystery aboard the International Space Station (ISS). NASA hasn’t seen this level of tawdry intrigue since astronaut Lisa Marie Nowak attacked a rival for another astronaut’s affection—driving across the country in a diaper to confront her love interest.

So What is the Big Deal This Week?!

It didn’t begin as a big deal—and perhaps this is why mainstream news services are slow to pick up on the latest information. But now, in my opinion, it is a very big deal.

A small hole was discovered on a Russian Soyuz spacecraft (a lifeboat) attached to the International Space Station. That hole, about the size of a pea, resulted in the slow decompression of atmosphere. The air that our astronauts breathe was leaking out of ISS and into the void of space.

So far, the story is unremarkable. Ground scientists issued two comfort statements about the apparent accident. They addressed the possible cause and the potential risk:

  1. This small hole could have occurred on the ground (during construction). Alternatively, it could be the result of a micro-meteorite or even man-made space debris. Perhaps a fleck of varnish peeled off of a satellite and collided at high speed with the massive, orbiting space station. No problem. The ISS and each commuter spacecraft that dock with it are designed to sustain collisions with small particles—even ones that punch a pea-sized hole through the hull.
  2. Air pressure in the ISS and in each spacecraft is only 1 atmosphere. This type of small leak could effectively be stemmed by simply applying duct tape.

The initial news event was interesting to space buffs, but it didn’t seem to present a significant threat to our astronauts, nor require a massive technical response. You may recall that duct tape played a critical role in getting the Apollo 13 astronauts safely back to Earth almost 50 years ago. The crisis that they faced was far worse. The solution required extensive impromptu engineering both in Houston and up in the spacecraft. What an awesome historical echo and footnote to an event that captured the hearts and minds of so many people back in 1970.

But the story does not end with a piece of duct tape. In fact, it just got much more interesting…

After a few days, NASA revealed that the hole was intentionally drilled, and the deed probably occurred while the ship was docked at the space station. Since there is no log of activity with tools in this section of the laboratory, it strongly suggests an act of sabotage by one of the astronauts on board.

And now, we have some new information: Guided by ground engineers, astronauts fished an endoscope through the hole to inspect the outside of the spacecraft. Guess what?! That same drill bit damaged the meteorite shield which stands 15 mm beyond the pressurized hull of the spacecraft. This will add significant risk to anyone traveling back to earth in the damaged ship.

One theory is that a member of the crew wanted to create the conditions to more quickly return to Earth. Now, that return trip may present and elevated risk to occupants.
This story has not yet concluded, of course. It will likely conclude with tragedy or triumph. In the better scenario, no one will die—but successful return and reentry will be followed by a criminal conviction or court martial. I am having difficulty envisioning an alternate outcome.
Read about it here. The story is unfolding, but the details are utterly fascinating.

Philip Raymond co-chairs CRYPSA, hosts the New York Bitcoin Event and is keynote speaker at Cryptocurrency Conferences. He sits on the New Money Systems board of Lifeboat Foundation and is a top Bitcoin writer at Quora. Book a presentation or consulting engagement.

For millennia, our planet has sustained a robust ecosystem; healing each deforestation, algae bloom, pollution or imbalance caused by natural events. Before the arrival of an industrialized, destructive and dominant global species, it could pretty much deal with anything short of a major meteor impact. In the big picture, even these cataclysmic events haven’t destroyed the environment—they just changed the course of evolution and rearranged the alpha animal.

But with industrialization, the race for personal wealth, nations fighting nations, and modern comforts, we have recognized that our planet is not invincible. This is why Lifeboat Foundation exists. We are all about recognizing the limits to growth and protecting our fragile environment.

Check out this April news article on the US president’s forthcoming appointment of Jim Bridenstine, a vocal climate denier, as head of NASA. NASA is one of the biggest agencies on earth. Despite a lack of training or experience—without literacy in science, technology or astrophysics—he was handed an enormous responsibility, a staff of 17,000 and a budget of $19 billion.

In 2013, Bridenstine criticized former president Obama for wasting taxpayer money on climate research, and claimed that global temperatures stopped rising 15 years ago.

The Vox News headline states “Next NASA administrator is a Republican congressman with no background in science”. It points out that Jim Bridenstine’s confirmation has been controversial — even among members of his own party.

Sometimes, flip-flopping is a good thing

In less than one month, Jim Bridenstine has changed—he has changed a lot!

After less then a month as head of NASA, he is convinced that climate change is real, that human activity is the significant cause and that it presents an existential threat. He has changed from climate denier to a passionate advocate for doing whatever is needed to reverse our impact and protect the environment.

What changed?

Bridenstine acknowledges that he was a denier, but feels that exposure to the evidence and science is overwhelming and convincing—even in with just a few weeks exposure to world class scientists and engineers.

For anyone who still claims that there is no global warming or that the evidence is ‘iffy’, it is worth noting that Bridenstine was a hand-picked goon. His appointment was recommended by right wing conservatives and rubber stamped by the current administration. He was a Denier—but had a sufficiently open mind to listen to experts and review the evidence.

Do you suppose that the US president is listening? Do you suppose that he will grasp the most important issues of this century? What about other world leaders, legislative bodies and rock stars? Will they use their powers or influence to do the right thing? For the sake of our existence, let us hope they follow the lead of Jim Bridenstine, former climate denier!


Philip Raymond co-chairs CRYPSA, hosts the New York Bitcoin Event and is keynote speaker at Cryptocurrency Conferences. He sits on the New Money Systems board of Lifeboat Foundation. Book a presentation or consulting engagement.

The Fermi Paradox poses an age-old question: With light and radio waves skipping across the galaxy, why has there never been any convincing evidence of other life in the universe—or at least another sufficiently advanced civilization that uses radio? After all, evidence of intelligent life requires only that some species modulates a beacon (intentionally or unintentionally) in a fashion that is unlikely to be caused by natural phenomena.

The Fermi Paradox has always fascinated me, perhaps because SETI spokesperson, Carl Sagan was my astronomy professor at Cornell and—coincidentally—Sagan and Stephen Spielberg dedicated a SETI radio telescope at Oak Ridge Observatory around the time that I moved from Ithaca to New England. It’s a 5 minute drive from my new home. In effect, two public personalities followed me to Massachusetts.

What is SETI?

In November of 1984, SETI was chartered as a non-profit corporation with a single goal. In seeking to answer to the question “Are we alone?” it fuels the Drake equation by persuading radio telescopes to devote time to the search for extraterrestrial life and establishing an organized and systematic approach to partitioning, prioritizing, gathering and mining signal data.

Sagan explains the Drake Equation

Many of us associate astronomer Carl Sagan and Hollywood director, Stephen Spielberg, with SETI. They greased the path with high-profile PR that attracted interest, funding and radio-telescope partnerships. But, they were neither founders nor among the early staff. The founders, John Billingham and Barney Oliver assembled a powerhouse board of trustees, which included Frank Drake (Sagan’s boss at Cornell), Andrew Fraknol, Roger Heyns and William Welch. Among first hires were Jill Tarter, Charles Seeger, Ivan Linscott, Tom Pierson and Elyse Murray (now Elyse Pierson). Of course, Carl Sagan was advocated for the search for extraterrestrial intelligence, and he joined SETI as Trustee near the end of his life.

In The Birth of SETI, Tom Pierson reminisces about the early days of SETI. Also check out SETI pioneer, Jill Tarter, explaining how to write a message that will be understood by an alien civilization.

There is a lot of lore and love surrounding SETI, because its goal pulls directly on our need to understand our place in the cosmos. This week, SETI is going through a bit of transformation as it prepares for the next chapter in the search. So, where are the aliens? Are the funds and brainpower spent on peeping for aliens an investment in our own civilization, a form of entertainment, or a colossal waste?

This fascinating video offers 10 plausible solutions to Fermi Paradox. Fascinating, that is, if you can get past John Michael Godier’s dry, monotone narration. But. take my word for it. The concept and the content is exciting.

In 1969, William Safire was President Nixon’s speech writer. He wrote the short speech shown below, and delivered it to Chief of Staff, H.R. Haldeman. The speech was to be read by Nixon in the event that the Apollo 11 lunar lander failed to launch or that some other problem caused the lander or mothership to crash back onto the surface of the moon.

In 1969, the space race was at full throttle. Russians were first to launch a satellite, send a dog and a man into space,* and perform an extravehicular space walk. America was under great pressure to fulfill John F. Kennedy’s promise and beat the Russians in landing a man on the moon. Today, former engineers at NASA acknowledge that they believed the chances of such a catastrophe were more than 50%.

William Safire was a brilliant orator and linguist, known primarily as a columnist and journalist. He received the Presidential Medal of Freedom (from George Bush in 2006). He died in 2009.

The Apollo 11 disaster speech is pure poetry. It fits Nixon’s demeanor, while inspiring the public to continue support for exploration despite such a spectacular failure.

William Safire’s speech for President Nixon—in the event of a moon landing disaster:

Fate has ordained that the men who went to the moon to explore in peace will stay on the moon to rest in peace.

These brave men, Neil Armstrong and Edwin Aldrin, know that there is no hope for their recovery. But they also know that there is hope for mankind in their sacrifice.

These two men are laying down their lives in mankind’s most noble goal: the search for truth and understanding.

They will be mourned by their families and friends; they will be mourned by their nation; they will be mourned by the people of the world; they will be mourned by a Mother Earth that dared send two of her sons into the unknown.

In their exploration, they stirred the people of the world to feel as one; in their sacrifice, they bind more tightly the brotherhood of man.

In ancient days, men looked at stars and saw their heroes in the constellations. In modern times, we do much the same, but our heroes are epic men of flesh and blood.

Others will follow, and surely find their way home. Man’s search will not be denied. But these men were the first, and they will remain the foremost in our hearts.

For every human being who looks up at the moon in the nights to come will know that there is some corner of another world that is forever mankind.


* The US was first to send an animal into space. On June 11, 1948, Albert 1, a rhesus monkey, was launched on a V2 rocket. But this was a suborbital flight. It cleared the atmosphere but could not have sailed away from Earth’s gravity, nor even achieved orbit. The first animal to attain orbit was launched more than 9 years later. A dog, Laika, launched on board the Soviet Sputnik 2 spacecraft on November 3, 1957.

Source: Watergate.info

http://www.blogtalkradio.com/cafeesotericaradio/2018/03/02/cafe-esoterica-radio-with-shawn-cohen-do-over-show-with-ira-pastor-regeneration

http://www.blogtalkradio.com/cafeesotericaradio/2018/02/01/cafe-esoterica-radio-host-shawn-cohen-guest-dr-ira-pastor–fountain-of-youth

“This unexpected behavior has led to a serious buzz in the scientific community, with astronomers trying to come up with explanations as to what type of physics could be driving these emissions.”

Read more

https://www.spreaker.com/user/aquarianradio/ira-s-pastor-ascension-center-12-05-17-h?utm_medium=widget&utm_source=user%3A4875932&utm_term=episode_title