Deep Space Drones

Voice of World Leader of the #AIResistance - Accelerating technology has implications across the spectrum, from everyone living longer healthier lives, solving the worlds biggest problems, to opening up space exploration like never before. This is Deep Space Drones. The Podcast that deconstructs the latest science and technology breakthroughs, the obstacles they face, and the opportunities they create. Sponsored by: 10x Your Personal Growth.
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Jul 5, 2019

Artificial Intelligence is alive and evolving in practically everything new these days. Well, I think it is anyways. It depends on what we mean by artificial intelligence. Definitions vary. How ever we define what AI is; There are some common characteristics that emerge.

  1. AI can emerge from one or many technologies.
  2. AI does things we generally relate to thinking, perceiving, and deciding what to do next.
  3. AI can scale its abilities to Big Data.
  4. AI can consume legacy technologies, such as robotic process automation, statistical machine learning, and neural networks.

Deep Learning is the AI that's stealing the spotlight these days. It's a complex, multi-layered neural network that has the potential of birthing the most powerful form of AI.

Subscribe to the podcast not to miss Part 2 of this episode.

This episode was brought to you by Glory Doesn't Come Cheap. This is a book I wrote on training mind and body for health, wellness, and longevity.

Check it out.

Thank you for listening.

Jun 24, 2019

Nothing too serious here. Just poking some fun at our real life super heroes.

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Jun 10, 2019

What is the most abundant life in the Universe? That’s a bold question, considering we have yet to see undisputed proof that ET even exists. The only model we have, is on Earth. So let’s unpack that, and see what we end up with.


Earth, 4.6 billion years old. That’s our scale. The scale has already been split into four eons.


The first eon is called Hadean. That first eon, lasted from 4.57 billion to 4.1 billion years ago. At 4.53 billion years, a mars sized object hit the earth, forming the moon. At 4.1 to 3.8, water and organic material begin falling to Earth.


It would be during this eon 4.0-2.8 billion years ago, where life on Earth took a foothold, the Archean eon. They were single celled creatures including microscopic microfossils.


At 3.6 billion years, we can see the emergence of cyanobacteria. These little guys begin to produce oxygen in Earths’ great oxygenation event.


2.5 billion years ago, Earths oxygen level begins to significantly rise.


Notice that Earth is almost half as old as it is now, yet populated with these simple life forms, and there’s nowhere near enough oxygen in the air for animals or humans.


Once the oxygen level starts to rise, multi-celled organisms start showing up. The cells have a protected nucleus, which now house DNA.


At 2 billion years ago, photosynthesis begins to produce more oxygen. Creatures start using oxygen to process fat, sugar, and protein.


At a billion years ago, a super continent forms. Life looks like cool sponges and funky worms. Half a billion years ago, the Cambrian explosion gives rise to more complex animals that evolve and diversify rapidly.


490-445 million years ago, we see the first plants and fungi appear on land, then an Ice age. After this time, jawed fish appear, then more complex plants, increasing oxygen, winged insects.


Then 252 million years ago, the Great Dying event wipes out 95% of life on Earth. Then Dinosaurs take over the planet until Bam, a big rock from the sky wipes them out.


With nothing around to eat plants, plants become trees. Forests become the new modern habitat. With all that food around, mammals start getting bigger and bigger. The first primates appear. Those opposable thumb tree swingers eventually hit the ground That’s when the Earth became the Planet of the Apes

Jun 6, 2019

Our sensors are picking up, no wait, we have a visual. Computer, put it on screen. Whoa, that’s new. The image is showing two, not one but two planets in orbit around it’s parent star. It’s not exactly a hi rez image, but it’s enough to be only the second time a multi-planetary system has been captured using direct imaging.


The host star is called PDS 70, located 370 light years away. Its just a baby, only 6 million years old, a bit smaller than our sun, and is still building up steam from its surrounding accretion disk. This is all the stuff in a busy young solar system, that needs to get cleaned up. And that’s exactly what these two planets are doing.


They are big planets, several times bigger than Jupiter. That’s why we can pick them up on visual. As they orbit around the star, they are clearing the debris in their paths.


The inner most planet, PDS 70 b, is the closest to it’s star, 3 billion Km, which is about how far Uranus is from the Sun. Further out is PDS 70 c, closer to 6 billion Km away, like Neptune.


We have images of other fully formed planets, but none like this, not this young.

May 31, 2019

Podcasting for the first time from our sound studio in CollabSpace, Ottawa, Canada.

Our sensors are picking up a new planet, 920 light years away is orbiting a star in what’s called a 'Neptunian Desert'. This is an area of space so close to a star that if were the size of Neptune with all that beautiful blue super-thick atmosphere, would simply have it all blown away by its parent star.

Enter NGTS-4b, three times bigger than Earth, so close to it’s star, it takes 1.3 days to orbit, atmosphere intact, not possible, forbidden. Beach weather here a 1,000 degrees Celsius on this planet.

How can it exist? One idea is that it’s core is a super heavyweight, with gravity itself keeping a hold on the atmosphere. Whatever the reason for this forbidden planet to exist, it may be stretching what we previously thought were limits of planet formation.

This is also a first from Earth. The transition method used to detect such a small signal, of a forbidden planet. If we can find one, we can find more.

Maybe Neptunian Deserts are wetter than we thought.

This episode of Deep Space Drones was sponsored by

May 22, 2019

The Great 415ppm CO2 Event


All planets, as far as we know, have atmospheres. We can see alien atmospheres by looking at the light from their own sun passing through them.


When looking for new life, a target atmosphere must be able to protect life on the surface. Although the sun gives life, without the right kind of atmosphere, the Sun's rays can break apart the chemical bonds of life’s essential organic molecules.


An atmosphere also has to be thick enough not to let water evaporate into space. Water boils at a lower temperature in a thinner atmosphere, thus evaporates quicker.


Our atmosphere is like a blanket around the Earth. There has to be enough to help regulate the transfer of heat to and from space. Otherwise it’s more boiling hot days, ice cold nights, and less beach weather.


Of course what’s in the atmosphere matters too. The air on Earth itself wasn’t always as hospitable as it is today. There was a time when bacteria lived in a world with no oxygen in the air, until one day 2.5 billion years ago the cyanobacteria arrived, exhaling oxygen. The new comers were so successful they would kick-start the great oxygenation event, recalculating who and what could live in this world.


Today, we are kick-starting another great event. This time it’s not bacteria though, It’s us making carbon dioxide. How much? We just set another record, 415ppm, and are showing little signs of slowing down. More gasses like Co2 in the air means a warmer planet, more ecological malfunctions, and warmer, expanding, rising water levels.


But, don’t worry, most farmland, industry, and the world’s population live near the ocean. So, if we sit around and don’t do enough, Mother Nature herself is going to clean up this whole mess.


Then Earth will be ready for the next great event.


May 20, 2019

It’s in our DNA. That’s a big statement.


For life to build itself up, it needs structure which comes from the elements, carbon, oxygen, calcium, everything that we find in stars. But to take all that building material, and turn it into a living, breathing life form, well you’re gonna need instructions.


A, T, C, & G. Every living thing we know of has a set of four letter instructions encoded into it’s DNA, that defines their properties, everything from what species they are, to what skin, eye, or hair colour it’s host will have.


We just had a huge success in building synthetic organisms. The latest last week when US scientists redesigned E coli bacteria. Nothing dangerous. I mean, if going to expect success, don’t go creating a T-Rex, right off the bat.


The new designer life forms are longer, and grow slower than the God made ones, but are nevertheless alive, as far as we can tell.


We are getting better at creating synths faster, and cheaper. Yes, I know, it’s just a bug right now. But when you think about it, we’ve just designed DNA for an Artificial Life Form.


Can we redesign our own naturally selected DNA, and improve the human condition?

May 17, 2019

In the early 2000s, data about extra solar planets was trickling in at dial-up modem speed.


As of right now May, 2019, we have data on l over 4’000 planets. Exoplanet are detected using a handful of methods. One way, called the transit method, is the best way to find and learn about most of them.


When a planet crosses the path (transits) between us and a star, the amount of light reaching us dips down giving us numbers to calculate our how big that planet is. Some of that light travels through the exoplanet’s atmosphere and reveals information about the distant world.


So what is the information telling us? It’s saying that most stars that we’re analyzing have planets in orbit around them for one. Two, most of our sensors are picking up very large planets, way bigger than Jupiter.


A lot of the smaller planets aren’t picked up by our sensors. Sensor upgrades to detect more small Earth like rocky world are in the works. A kick-ass space telescope to replace Hubble is less than two years away from launch is one of the planned upgrades.


But hey, we’re not going to wait around for everything to be perfect. We have data loaded about alien atmospheres right here, right now. Let’s get to work.

May 15, 2019

In our continuing quest to discover alien life one question keeps popping up. How will we recognize alien life when we find it?

Life is a word with multiple meanings. We don’t yet have a perfect definition for what life is, but it hasn’t stopped us from trying.

What we have done is define some of life’s main attributes.

1.       Life is chemistry based, an ordered network of chemical reactions.

2.       Life is also not in equilibrium, it needs a source of energy to organize itself.

3.       Life can adapt and self-improve.

4.       Life is enclosed in cells.

5.       Life molecules work well with water

Life as we know it is built on four types of molecules, proteins, nucleic acids (our DNA), sugars (carbs), and lipids or fat.

We are biased in our definition, especially that last one that needs water. That’s what life on Earth needs. Still, an excellent starting point. This rules out stars, gas clouds in between them, or anywhere too cold or too hot for liquid water to exist.

NASA defines life as a self-sustaining chemical system capable of Darwinian evolution. (OMG, evolution. Hold on to your hat’s folks, this podcast is for the brave and adventurous.

As the knowledge of our cosmic neighborhood grows, we will use these definitions as a guide to help us find signatures of alien life.

May 14, 2019

Earth, the only planet in the Universe, known to harbour life. And life on Earth has flourished, some say maybe too successfully. If everyone ate like an average American, we would need four Earths. Whew! I’m sure glad we don’t all eat like average Americans.

A Super-Earth is a planet bigger than earth, not as big a Uranus and Neptune. These ice giants are 15 and 17 times more massive. Forget about gas giants like Saturn and Jupiter, they’re even bigger.

No, a super-Earth is somewhere between Earth and Uranus.