Field Trials Utah: Robot team simulates Mars mission in Utah


Another cool video of DFKI space robots in the desert of morocco: youtu.be/-zqve9baOzM

A barren, rocky desert landscape and not a single soul around – to come as close as possible to the inhospitable conditions on the Red Planet, scientists of the Robotics Innovation Center of the German Research Center for Artificial Intelligence (DFKI) tested the cooperation of various robot systems in the desert of the American state of Utah from 24 October to 18 November 2016.

The project Field Trials Utah (FT-Utah) is funded by the German Space Agency (DLR Agentur) with federal funds of the Federal Ministry of Economics and Technology in accordance with the parliamentary resolution of the German Parliament, grant no. 50 RA 1621 (DFKI) and 50RA1622 (University of Bremen).

FT-Utah (Project)
dfki.de/robotics/research/projects/ft-utah.html

TransTerrA (Project)
robotik.dfki-bremen.de/en/research/projects/transterra.html

SherpaTT (Robot system)
robotik.dfki-bremen.de/en/research/robot-systems/sherpatt.html

Coyote III (Robot system)
robotik.dfki-bremen.de/en/research/robot-systems/coyote-iii.html

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Mars 2020 Perseverance Rover - Whats Different This Time? A Narrated Explanation.


A complete narrated overview of the new Mars 2020 Perseverance Rover. Documentary explains how it is different from all previous rovers. Describes all the new tools, science instruments, and capabilities. Mars helicopter, Range Trigger, Terrain Relative Navigation, MOXIE, RIMFAX, Cache Camera, Sample collection and caching. Female documentary narrator.

NASA’s Perseverance Mars Rover VS Curiosity - Whats New? Whats Improved?


In today’s video, we do an overview of NASAs #PerseveranceRover, also known as #Mars2020, the rocket that will take it there, the timeline, the landing sequence, and then compare it to its older sibling, Curiosity to see what’s changed and what has stayed the same including its instruments and mission!

Timestamps!!!

00:00 — Intro
02:50 — Launch / Transit Overview
05:30 — Entry / Descent / Landing Timeline
09:00 — Perseverance VS Curiosity
22:00 — JPL Engineer Bobak Ferdowsi
22:45 — Conclusion

Article Version — everydayastronaut.com/perseverance-vs-curiosity

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This episode wouldnt be possible without my incredible Mission Directors!!!
Ziad ramadan, Arthur Carty, John H, Lawrence Mansour, Bob Lewis, DLB, Joshua Rule, Gerardo Barillas, lil rod, Ryan M., David Glover, Scott G Raderstorf, Nicholas T. Gallman, Mahlon Miller, Max Haot, John Malkin, TTTA, Jared smith, Simon Pilkington, Héctor Ramos, Tomdmay, Mac Malkawi, Ole Mathias Aarseth Heggem

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APOLLO 11 - KSP (REDONE VERSION)


I dedicate this video to Amy Shira Teitel for her impressive work and awesome channel about the aerospace and American spacial program. I strongly advise you to go see her videos on her channel «Vintage Space» which are superbly explained and well realized. Thanks you Amy ;)

Its been a while since I made a video on the Apollo / KSP subject, but I wanted to redo it, in a more complex and closer to reality way but also in a more cinematic and pleasant to watch video.
By making this video I realized how difficult it is to represent each detail of the mission, while keeping the thing easy to watch and not too long.

It took me about 3 days to do the video with a huge editing work, lots a scenes to shoot in game multiple times, the scenes to redo etc.…
There are a lot of details that are not perfect in this video, thats why I would like you to play a little game!
Tell me in the comment section if you find errors or differences between my video and the real mission. I know there is a lot of space nerds here, We will see if you are good ;)

By the way I want to point out that even if the Apollo 13 soundtrack is well known and used everywhere, is still damn cool. right?
Also, all the radio conversations and audio events are not on the right time scale, for cinematographic purposes.

MOD LIST:

-Bluedog Design Bureau (Apollo parts)
-Planet shine
-Distant Object Enhancement
-EVE
-Stock Visual Enhancements
-scatterer
-Reentry Particle Effect
-Real Plume
-Hyper Edit (for filming purpose)
-Mech Jeb (for filming purpose)
-RealChute
-Docking Port Alignment Indicator

Why The Mars Helicopter Wont Fly at Night


The Mars helicopter, ‘Ingenuity’, along with the new rover ‘Perseverance’ are scheduled to land on February 18th 2021. The local time on Mars will be approximately 3.45pm at Jezero Crater. Engineers at NASA’s Jet Propulsion Lab have stated the best time to fly Ingenuity is around 11am local time, and flying at night will be strictly forbidden.

Today’s video will feature all you need to know about flying on Mars, how Martian time zones are calculated and why flying at night is a bad idea. We hope you enjoy.

There is one standard time on Mars, developed by astronomers in the 1830’s. It’s called Mars Coordinated Time, or MTC for short. All of the rovers have offset times which correspond to MTC, which is known as the ‘Prime Meridian’.

So why does this matter? Why is it so important that we know the local time on Mars?

Just like on Earth, depending on where the Sun is in the sky, things change. Temperature, visibility, wind speeds, and even the density of the atmosphere.

Firstly, temperature variations on Mars are wild. In the Martian summer near the equator, temperatures can reach a cosy 20 Degrees Celsius. However, during the night temperatures can plummet to -73 Degrees Celsius. At these frosty temperatures, critical mechanisms on board the rovers can fail. For this reason, most Martian landers have built in heating systems, to survive the night time extremes.

This issue is what led to the demise of the Opportunity rover. After experiencing a global Martian dust storm which blocked it’s solar panels, the battery was expended. During the following days and nights, the heating system was unable to power up, meaning the extreme temperatures irreversibly damaged the rover’s internal components.

NASA have avoided this problem in future rovers, using nuclear power in rovers from Curiosity onwards.
The Mars helicopter ‘Ingenuity’, which we are nicknaming as ‘Genie’, has a multitude of other problems to answer. Unfortunately, using nuclear power would be too heavy for flying on Mars, so this craft uses solar.

Thanks for watching ElderFox. Please subscribe and share with your friends. Are you still reading? Why are you not watching the video? Who even reads these things? Well, since youre here, check out the links below! :)

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Credit: NASA/JPL-Caltech/MSSS/Cornell Univ./Arizona State Univ.
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HASSELL EOC presents MARS HABITAT


The HASSELL design for a Mars Habitat has reached the final 10 of NASA’s 3D Printing Centennial Challenge. This NASA competition sought perspectives from outside the traditional aerospace industry, to explore how a human habitat could be designed and delivered on Mars using autonomous 3D printing technologies. HASSELL partnered with Eckersley O’Callaghan to design the external shell which could be constructed entirely by autonomous robots using Mars’ natural regolith.

Final film has been made in collaboration with the team at LightField London.

From the Earth to the Moon (2019): Moon Landing (Clip) | HBO


It’s been 50 years since mankind first stepped foot on the moon, and to celebrate, we’re showing the full length clip of the moon landing from miniseries, “From the Earth to the Moon. #HBO #FromTheEarthToTheMoon
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From the Earth to the Moon (2019): Moon Landing (Clip) | HBO

Mars Helicopter Attached to Perseverance Rover for July Launch


With the launch period of NASAs Mars 2020 Perseverance rover opening in 14 weeks, final preparations of the spacecraft continue at the Kennedy Space Center in Florida. In the past week, the assembly, test and launch operations team completed important milestones, fueling the descent stage — also known as the sky crane — and attaching the Mars Helicopter, which will be the first aircraft in history to attempt power-controlled flight on another planet.

STORY — www.americaspace.com/2020/04/14/mars-helicopter-attached-to-perseverance-rover-for-july-launch-to-red-planet/

After the descent stage fueling, the system that will deliver the Mars Helicopter to the surface of the Red Planet was integrated with Perseverance. The helicopter, which weighs 4 pounds (1.8 kilograms) and features propellers 4 feet (1.2 meters) in diameter, is cocooned within the delivery system. In one of the first steps in the day-long process on April 6, technicians and engineers made 34 electrical connections between the rover, the helicopter and its delivery system on the rovers belly. After confirming data and commands could be sent and received, they attached the delivery system to the rover.

Finally, the team confirmed the helicopter could receive an electrical charge from the rover. Before being deployed onto the surface of Jezero Crater, the Mars Helicopter will rely on the rover for power. Afterward, it will generate its own electrical power through a solar panel located above its twin counter-rotating propellers.

The helicopter will remain encapsulated on the rovers belly for the next year and will be deployed around the beginning of May — roughly two-and-a-half months after Perseverances landing. Once the rover drives about 330 feet (100 meters) away and the helicopter undergoes an extensive systems check, it will execute a flight-test campaign for up to 30 days.

The Perseverance rover is a robotic scientist weighing 2,260 pounds (1,025 kilograms). It will search for signs of past microbial life, characterize the planets climate and geology, collect samples for future return to Earth and pave the way for human exploration of the Red Planet. No matter what day Perseverance launches during its July 17-Aug. 5 launch period, it will land on Mars Jezero Crater on Feb. 18, 2021.

Credits: NASA