W. Steve Wilson

Ingenuity Takes Flight – Again and What a Ride

NASA, JPL, and the Ingenuity Team have done it again. A third successful flight of the Mars Helicopter is one for the history books.

If you haven’t seen the video yet, check it out here: Flight Three

Watching this video in real-time could have been nerve-wracking. When Ingenuity flies out of the frame to the right and then doesn’t come back for a while, I would have been on pins and needles. Knowing that Ingenuity returns safe and sound and successfully lands, ready for another jaunt, made all the difference. The team watching the data come in and learning the results must be overjoyed when the little helicopter returns to its starting point and lands.

According to NASA sources, “Ingenuity is intended to demonstrate technologies needed for flying in the Martian atmosphere. If successful, these technologies could enable other advanced robotic flying vehicles that might be included in future robotic and human missions to Mars. They could offer a unique viewpoint not provided by current orbiters high overhead or by rovers and landers on the ground, provide high-definition images and reconnaissance for robots or humans, and enable access to terrain that is difficult for rovers to reach.” You can stay updated on future planned flights by checking in with Ingenuity every so often at Ingenuity Flight Information.

This particular Mars helicopter does carry cameras for capturing views and navigation. (See some of the details here: Tech-Specs) Ingenuity is a demonstration craft, but I can imagine future versions having sensors, various types of cameras, maybe even carrying navigation beacons for plotting courses. When you consider the varied uses we’ve found for drones, you can envision swarms (well, perhaps not swarms – but flights anyway) of small aircraft navigating around Mars and enriching our knowledge of the Red Planet.

Thank you, again, to the Ingenuity team for your willingness to Dare Mighty Things and for letting us ride along.

Celebrate Ingenuity Day: On The Shoulders Of Giants

A Note about the blog posts from the future [CE 2224]: In January of 2021, with Perseverance due to land on Mars the next month, NASA activated their experimental Quantum Transmitter. The transmitter was designed to communicate with Perseverance, without regard to location and at faster than light speeds—near real-time. Unfortunately, they lost the connection after the initialization routine was completed. However, as an unintended consequence, NASA connected with a specific locus in the space-time continuum located on the Moon in 2224. That locus was the storage device of the quantum computer of a popular blog site. It is from that blog site that these blog entries are extracted. I hope you enjoy a peek into our future, and hopefully, I’m not violating some temporal directive. So far, no visit from the time cops.

Guest Author: Dr. Khaled Al Otaiba, Director of Education Outreach, Space Systems Technologies (SST), Arsia Mons, Mars

Posted: Monday, April 19, 2224 (Earth Standard Calendar)

Again this year, Space Systems Technologies is a proud sponsor of Ingenuity Day here in the city. School projects and the STEM Education fair are featured on the university campus at various venues. Displays and demonstrations from  SST and other technology companies are showcased in the Central Plaza, and I hope everyone has a chance to visit the exhibitors throughout the week.

This year we have an exciting new contribution to the event. The university engineering students, funded by a grant from SST, have recreated the original Ingenuity for which this day is named. The Ingenuity II is not an exact replica, as the electronics and battery technology no longer exists, but they’ve built to the exact specifications and constraints. They’ve even converted the original flight management software to run on current processors. They hope to “fly” their version at the closing ceremonies on Friday. They hope it goes as well as the first flight of Ingenuity two hundred and three Earth years ago today.

Ever since that first flight, ingenuity has been the hallmark of Martian progress. SST has been a leader in this area and supports continuing development of Arsia Mons and the outlying settlements. Although founded on Luna over one hundred and fifty Earth years ago, it was on Mars where SST and others developed the ingenious solutions that allowed us to gain a permanent foothold on the Red Planet.

And it all began with that first helicopter flight on Mars this day, April 19th in CE 2021.

Here’s some archive footage from the original NASA of that first historic flight – Ingenuity Flight.

Following that groundbreaking achievement, the early explorers deployed swarms of drones across the planet, expanding their detailed map, discovering resources, and scouting settlement locations. SST still uses drones to explore and plan settlements, manufacturing locations, and mag-lev routes.

Once again, let’s pause and commemorate the tremendous accomplishments of the original Ingenuity team and acknowledge our debt of gratitude for their pioneering spirit and willingness to Dare Mighty Things. Thanks for stopping by, and I hope you get a chance to view the launch of Ingenuity II on Friday.

Ingenuity Takes Flight and Fires the Imagination

I had planned to comment on a topic in Robotics, in particular, human form robots.

But I can’t let the day pass without remarking on the unbelievable achievement of the Ingenuity team and their first successful powered flight on another planet. It boggles the mind to consider the complexities of being successful.

Consider the physical constraints of the environment: dust everywhere, bathed in radiation, thin air (to put it mildly), extreme cold—and no pilot to make real-time corrections. Imagine—the pilot sending the instructions for the flight, which are executed sometime in the future, and then waiting until after the flight is completed to see results.

Not to mention testing a helicopter that can’t actually be flown in a Mars environment here on Earth. The team could replicate the atmosphere, but gravity was another thing altogether. Using simulation and a tethering system that approximated Martian gravity got them close. The real test is flying it on Mars, and today we learned they got it right. I can’t imagine what that would be like. I remember sleepless nights before we were just putting a new application into production from my IT management days, and I could test every little thing. It is a testament to the genius of the team that this first flight was successful.

If you haven’t seen it, check out this historic flight – Ingenuity Flight.

It was all of about 25 seconds, just over twice as long as the Wright Brother’s first flight. But they’ve proved it can be done. It’s no longer a hypothetical possibility. And from the last reports, Ingenuity is in good shape. So—more flights, more practice, more data, and more to learn.

One last word, though—this is about robots, too. Quite a few robots, actually, just not human form robots. If you consider a robot a device that can autonomously carry out complex activities, then we’ve seen the collaboration of several robots: Ingenuity, Perseverance, MAVEN, the MRO, and the whole Mars Relay Network—while the human members of the team waited patiently(?) for the results.

Thank you to the Ingenuity team for your willingness to Dare Mighty Things and for letting us ride along.

Tripping the Light Fantastic? Take a Robot as Your Wingman

Posted By: W. Steve Wilson

Posted: April 12, 2021

I want to start a series of short commentaries on Robotics, particularly human form robots continuing through self-aware robots, the AI and Robot convergence, human-like robots, and maybe artificial life. Now that Jean-Luc Picard is a synthetic lifeform, it seems only fitting.

From recent discussions with friends, it seems we might consider three reasons to create human form robots: Servants/Tools/Workers, Companionship, or the challenge of scientific advancement (to see if we can). The first of these has had extensive treatment in fiction—but there are always more stories to tell, so we’ll explore some of the history and where current technology might be going. The latter two—I’ll see where that takes us.

But this week, let’s consider a fourth purpose—a dance partner. Boston Dynamics has produced a fantastic video where they taught human-form robots to dance to the tune Do You Love Me. You need to see these Robots Dancing.

If you’d like to know how they did it, check out this article where Boston Dynamics discusses the choreography, the machine learning, etc., that it took.

How Boston Dynamics Taught Its Robots to Dance

One section I found particularly interesting was how the professional dancers’ abilities exceeded remarkably the robots’ abilities. The choreography needed to be adjusted to conform to the movement and strength capabilities of the robots. Maybe that is the fundamental question—what can and should robots do and what can and should humans do. Not an easy question—at the risk of an understatement.

We’ll take up that question and others over the next several weeks. I hope you come back and see where it takes us. In the meantime, consider—would you accept a robot as a caregiver? How about a household servant? When does the robot get to decide what it wants to do?

Thanks for stopping by. Feel free to leave a comment.

History and Our Children Will Curse Us for This

A Note about the blog posts from the future [CE 2224]: In January of 2021, with Perseverance due to land on Mars the next month, NASA activated their experimental Quantum Transmitter. The transmitter was designed to communicate with Perseverance, without regard to location and at faster than light speeds—near real-time. Unfortunately, they lost the connection after the initialization routine was completed. However, as an unintended consequence, NASA connected with a specific locus in the space-time continuum located on the Moon in 2224. That locus was the storage device of the quantum computer of a popular blog site. It is from that blog site that these blog entries are extracted. I hope you enjoy a peek into our future, and hopefully, I’m not violating some temporal directive. So far, no visit from the time cops.

Guest Author: Dr. Charles Campbell, Associate Professor of Political History, University of Luna (UofL)

Posted: Monday, April 5, 2224 (Earth Standard Calendar)

In my Political History course, The Politics of Lunar Colonization, we discuss the contributions of Scottish Prime Minister Robert G. MacDonald at great length. As students of Luna’s early history will recall, PM MacDonald shepherded Scotland through their separation from England during The Surge in the middle of the 21st Century.

The British exiting the European single market and customs union resulted in a growing majority of Scots favoring independence. As the effects of climate change worsened in the middle of the century and the Lunar Colonization surge ramped up, Scotland determined they would fare better with an independent relationship with Europe, the United States, and other countries around the world. PM MacDonald and his team crafted the independence accords that addressed national debt, property, citizenship, tax revenue, security, repatriation, foreign relations, etc. The smooth transition and peaceful transfer of power to a sovereign and independent Scottish parliament were a testament to the skill with which the accords were designed. It wasn’t until the beginning of the 22nd Century and after the reunification of Ireland, a prosperous and culturally resurgent Scotland restored stronger ties to England and Wales while retaining political independence.

Those agreements and PM MacDonald’s work formed the basis of the independence accords that define the process of Lunar Independence. The Lunar Cities are steadily moving along the path defined by the UN agreement and, barring any unforeseen setbacks, are on schedule to achieve independence in the next two years. So for that, we owe PM MacDonald and the UN a debt of gratitude.

But—somebody took it too far. Honoring the Scottish Prime Minister is one thing; shoehorning a Scottish reference into the chartering documents is too much. If we don’t work for a change, we will forever suffer under the System Colonies of Terra Independence Accords (SCOTIA). Really? We need something that rolls off the tongue like The Magna Carta, The Constitution, The New Arbroath Declaration, etc.

We can do better. Please leave a comment on what you think should be the name of our Chartering Documents. Should it be grand? Should it be catchy? Should it reflect the values of this new world?

Let me know what you think. Thank you for your time in reading my post.

Riding High-Speed Rail or Shooting through a Hyperloop Tube

Posted By: W. Steve Wilson

Posted: April 5, 2021

The Biden Administration has released a plan to rebuild various components of the United States infrastructure. These components include, among other things, roads and bridges, ports and airports, the electrical grid and broadband, and—railroads.

Circulating on social media and the Internet are several maps showing expanded Amtrak routes and a hoped-for High-Speed Rail network –

[Credit: www.axios.com  Link: AmTrak Map]  

[Credit: www.businessinsider.com  Link: HSR Map]

It’s hard to say if either of these maps will become a reality, but it’s something to think about.

Riding the Rails

Although I’ve “ridden the rails” in the past, I must admit that I opt for driving or flying like many people. I wonder if a high-speed rail line would induce me to make a different choice. You might be considering a similar question.

One way to think about it would be to consider where I’d travel. I might go from my home in Chicago to St. Louis—a five-hour drive or a two-hour train ride (after I drive to the train station.) I’d likely drive. But to Orlando, 1200 miles? I’ve made that drive—never again. Flying gets me there in about two-and-a-half hours, high-speed rail in six—maybe, with no stops. If it’s comparable in price—I just might make the switch if the time spent at the train station is minimal.

Now let’s consider Los Angeles or Seattle, both about 2,000 miles. Flight times are four-and-a-half to five hours. High-speed rail would be about ten hours (assuming 200 mph) with no stops. I’d probably still fly. It looks like my choices are similar to passengers around the world. China and Europe’s results indicate high-speed rail works best in middle-distance, high volume markets—from 90 to 750 miles. Shorter distances, people drive for longer distances, they fly.

Hyperloop Travel

But there could be a third option—the Hyperloop. Hyperloop travel is via a pod, driven at high speed. Due to air friction, these pods would run in a vacuum in a tub or tunnel. Companies right now are working on proofs of concept and prototypes. The Smithsonian is launching an exhibition entitled Futures, running from November 2021 through July 2022. Virgin Hyperloop is a featured exhibitor with their groundbreaking vehicle, the Pegasus XP-2, the first vehicle to carry hyperloop passengers.

To get a feel for how hyperloop travel might be, check out this video from Virgin Hyperloop—The Passenger Experience

A hyperloop pod could travel theoretically at speeds approaching 750 miles per hour—Chicago to Los Angeles in three hours. Terminals could require smaller footprints—no runways, maybe even located in downtown urban locations. Passenger volume is adjustable, departure times flexible, and all powered by renewable energy. Now that would get me off an airplane.

Final Thought

Once we colonize the Moon and Mars, “rail” travel might be our only option. Without an appreciable atmosphere (yes, the Moon does have an extremely rarified atmosphere), air travel, as we conceive of it now, just won’t work. [Note: in an upcoming blog, I’ll talk about the Mars Helicopter]. Both environments, however, would be ideal for hyperloops as air friction would be inconsequential.

What combination of speed, convenience, and cost would convince you to take high-speed rail rather than drive or fly? Should we jump ahead and build a hyperloop on some routes? Would you travel 2000 miles in a vacuum tube to get to LA in three hours? Feel free to leave a comment and share your thoughts.

I hope you will enjoy my posts and if you’d like to discuss a particular topic or stay connected, please slide over to my Contact page. Please join my email list as well to receive advance copies of upcoming short fiction.

Thank you for visiting my blog.

Obliterate The Box: Three Spectacular Feats Of Rocket Science

In my IT Consulting career, I would need to walk into a room and present a new solution to a client—often a new client. We would listen to what they asked for, examine the client’s needs, muster our analysis, and craft our recommendations. At some point, we would need to stand up in front of a frequently skeptical crowd and say something to the effect of – “OK, here’s what we’re going to do.”

Almost a decade ago, when Curiosity landed on Mars, I would play a little thought game with myself. Imagine the design meeting when they proposed the Sky Crane and got to the point where someone says – “OK, here’s what we’re going to do.” At least my proposals as an IT guy had the advantage of likely having been done before.

I thought today I’d present three hypothetical meetings where a new concept is presented that doesn’t just reflect out-of-the-box thinking but obliterates the box—two from SpaceX and one from NASA.

Setting aside my thought game, these teams have solved some difficult and seemingly impossible technology and engineering problems. It always amazes me as a spectator that there are people out there that do these things. Unbelievable.

Landing a Rocket on the Ocean

SpaceX needed to retrieve the Falcon boosters for re-use but were faced with the physical limitations of retaining enough fuel to return to Florida and still get the payload into the orbit required by the customer.

Imagine a scene where someone says, “OK, here’s what we’re going to do. We’ll buy a barge and retrofit it as an autonomous spaceport drone ship. We’ll tow it out into the Atlantic Ocean and land the booster on that.” Who does that? SpaceX did, and the solution has proven successful in retrieving reusable boosters.

A Skydiving Starship

The SpaceX Starship needed to bleed energy and speed in order to land. For a fully propulsion drive descent and landing, they would have needed too much fuel.

So, someone says, “OK, here’s what we’re going to do. We’ll turn off the engines, have the ship turn on its side, and drop just like a skydiver. When we get slow enough and low enough, we’ll restart the engines, turn it back vertical and land it on its tail. That should work.” They’re still working on it but watching the tests is exciting. Here’s a link to a recent test. I can’t wait to see the next one—I hope they’ll stick the landing again on SN11.

A Crane on Mars

NASA needed to get a rover on Mars. How do you land more than a ton on a distant planet after traveling 293 million miles? The timing had to be perfect—Mars in the right place, the right time of day (sol) in Mars’s rotation to land on the site you’d selected. Add to that the need to have the Mars Reconnaissance Orbiter overhead to relay signals and take pictures.  

Once you get there, you need to land. This is where we have the conversation – “OK, here’s what we’re going to do. We’ll use aerobraking to slow down. Then we’ll release a parachute, and since that won’t be enough, we’ll use a rocket pack to slow down and hover. Then we’ll lower the rover to the surface on cables, let it go, and then fly away.” And then they solved all the complex engineering and technology problems and did it—not once—but twice. Take a look; it was a fantastic feat. Perseverance Landing

Was there ever a time when you needed to propose a radical new idea or maybe just a new one that nobody thought would work? Feel free to leave a comment.

I hope you will enjoy my posts and if you’d like to discuss a particular topic or stay connected, please slide over to my Contact page. Please join my email list as well to receive advance copies of upcoming short fiction. Thank you for visiting my blog.

CE 2021: Hot Topics that Fire the Imagination

Welcome to my author website, and thank you for clicking over to read my blog.

I thought I’d use this inaugural post to let you know what to expect—my thoughts and excitement about new developments and interesting topics in Science and Technology.

Now I recognize those are broad topics and could cover just about anything. I’ll limit my scope to subjects that inform my Sci-Fi writing—mostly. You’ll see posts on rocketry, lunar and planetary exploration, deep space discoveries, genetics, medicine, technology, and renewable energy. On occasion, I may need to comment on political science, social science, and religion, but always related to my fiction.

Truthfully—I love research, and building a fictional future world means I get to cover a wide swath of our modern society. You never know when you’ll come across an idea for a new mystery, a plot twist, a hidden clue, or a surprise solution. So I’ll share what I discover and hope you find it interesting.

On the other hand, I don’t spend my whole life in the real world. I’m an avid Sci-Fi and Mystery reader and movie watcher. Every once in a while, I’ll veer off and post a book, series, or movie review. I’ll post about old and new entries and touch on a classic now and then. B-movies will, I’m sure, make an appearance.

I hope you will enjoy my posts and if you’d like to discuss a particular topic or stay connected, please slide over to my Contact page. Please join my email list as well to receive advance copies of upcoming short fiction.

Thank you again for visiting my blog.

CE 2224: What’s Hot on the Moon and Mars

Thank you for visiting my author site and for clicking over to read BLOG 2224. I’ll try and have some fun with this blog and hope you enjoy the results.

The universe of my first, yet to be published novel is more complex than ours is today but, in many ways, is the same. Two hundred years from now, when humans are living off-planet, the technological environments will be complex, to be sure. But—they’ll be filled with people, people with diverse backgrounds and expectations and of course—opinions.

Whether it’s interplanetary commerce, near- and off-Earth society, frontier development, the Lunar Cities, the Martian settlements, resource extraction in the Asteroids and beyond, there is no shortage of opinions. I’ll host a blog for contributors from the Lunar Gravity universe of CE 2224, where they can share these opinions.

For each post, I’ll introduce a guest contributor and post their Op-Ed on whatever topic they choose. My future self will post on occasion, but this is primarily a forum for the minions of 2224, for the unheard to be noticed, the quiet to be loud. I hope you enjoy their efforts.

Thank you again for visiting my site and checking out BLOG 2224. If you have a topic you’d like discussed or have a question, please visit my Contact page, and I’d love to have you join my email list for advance copies of new fiction.