Astronaut Double Amputeans and Paraplegians?

It’s all about perspective.

And tenacity.

And determination.

And character.

tom-reaching-for-lab-umbilicals-sts098-330-0071After NASA Astronaut Scott Kelly and Russian cosmonaut Mikhail Kornienko of Roscosmos got home from a year in space this past spring, the US Congress began examining whether to provide lifetime health benefits to astronauts. Many are ex-military and get benefits that way. NASA will monitor recipients for long-duration mission health planning.
At industrial design school, one of my human factors projects was a spider-like astrogeology exoskeleton, designed so geologists could move along a cliff face looking at strata. And the thinking fed into iteration #1 of my design thesis: one of the first social web wearables; a performance tool for whitewater slalom athletes. But a bigger aspect of the thinking keeps coming back to me: A question that might help address the dilemma of bone loss. A question that keeps coming back after doing WarriorHealth CombatCare and finding out about the fine work done at Walter Reed National Military Medical Center in Bethseda, MD.

USMC Cororal Todd LoveIs a veteran with paraplegia or no legs the natural spacecraft driver?

Since bone density loss is a key barrier to long-term low gravity living…aren’t technically-trained veteran paraplegians and double amputees great candidates for the astronaut corps? Does a fighter pilot have the discipline, skill and temperament to be a launch driver? Does an armored division tanker have the skills to be an in-flight systems specialist?

Does USMC Corporal Todd Love (an incredibly inspirational guy! seen here) really need legs to operate in micro-gravity, when he might only need wheels on the ground? (As you can see, he does not need legs whatsoever).

I ask you…


Could this approach create uplifting new opportunities to serve and thrive in a way that makes the unavoidable SCI injury extraordinarily valuable?

Aren’t two-legged people naturally less abled in the spaceflight environment?

Who is the more-natural space-athlete?

Who is the more-natural astronaut?

David Huer


US veterans with Spinal Cord Injury (SCI) as of 2008: 26,000 veterans

US citizens with SCI: 240,000 and 337,000 people
New injuries per year, as of 2015: 12,500 people

Latest EVA suit made by Oceaneering Inc. (Houston, TX):

Interesting aspects of design/safety aspects
* Effect to bone mass/density and to body functions
* Pant legs + boots: removedaperture and material needs cut by ~40%, with 5 apertures (head, left & right arm, left & right leg) reduced to 3.
* Electronic components & new designs for torso & new “thighboots”
* “Thighboots” reduce the dangers of entanglement & provide push-off tasking as needed
* External prosthetics designed to attach to thighboots

Healthcare research outcome:
Could NASA, the VA and DoD assess impact on SCI to help society groundside?


US Astronaut Tom Jones (STS-129):

USMC Corporal Todd Love and Team X-T.R.E.M.E. competing in The Spartan Race, Leesburg, VA, 2012:

Constellation EVA Spacesuit: NASA
(Image modified with removal of lower extremities in image)

Oil Sands Float Rights


Oil Sands in Canada

The idea? A market incentive to curtail waste during Oil Sands extraction

While searching for ways to help our veterans get honourable Post Traumatic Stress coverage care, I noticed an opportunity for Western Canada and Utah to leverage their Oil Sands.  Creating a second market to avoid the boom-and-bust cycle often seen in resource-dependent regions.



“Float Rights” pdf – link here.

The idea is that Alberta, Saskatchewan, Utah and other Oil Sands regions license the right to pre-extract the anticipated intangible value of the physical resource; extracting the rolling anticipated value of Oil Sands as a spot market, in sequenced pre-extraction before “Liquid Right” licensees remove the physical resource.


The effects are interesting:

New Royalties from the one resource

  • Float Right Licensee does not necessarily have to be Liquid Right Licensee
  • Leaseable by Provinces to Sovereign States, to collateralize other risks
  • Leveraging underperforming Liquid Rights assets whenever demand slows
  • No need to depend on mining, export or hold-ups in pipeline capacity
  • Extraction-less industry when the market fluctuates

A Market Incentive for Zero Waste

  • Float Rights can be leveraged for any sort of business
  • “100% Capture” Target (100% of extractable liquid and tailings) becomes value-added
  • “Zero Waste” Target (100% pollution prevention) becomes value-added

A New Energy Spot Market

  • Trading on global oil, insurance, and finance exchanges
  • Float Right leverages 10% of resource that is extractable using current technology
  • As collateral, could Float Right leverage the other 90% until it is extractable?
  • Extraction owners could profitably backstop insurance costs and rent risk coverage

Competing Resource Plays

  • Canada (Alberta, Saskatchewan)
  • USA (Green River Basin)
  • Russia
  • Kazakhstan


Dave Huer