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As a charitable Service based non-profit organization (NPO) educating and connecting the High Performance Computing user community to state of art technology for the purpose of Optimizing business processes and workforce advancement. Our technology focus includes AI, Cloud Computing, Data Science, Deep learning, Machine learning and visualization utilized in applications ranging from Manufacturing and Engineering, Financial services, Life Sciences, Energy, Academia and Government.

Lunch and Learn Round Table Event: Deep Learning Applications in Manned Spaceflight

  • 28 Mar 2019
  • 11:30 AM - 1:00 PM
  • The University of Houston Classroom and Business Building (CBB) Room 310

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The Society of HPC Professionals -- invites you to attend:

A Lunch & Learn Round Table Discussion Meeting

Deep Learning Applications in Manned Spaceflight

 DOWNLOAD PRESENTATION

ABSTRACT:

Human spaceflight is deeply rooted in close collaboration between Mission Control and flight crew. Ground control acts like a black box converting vehicle telemetry, crew natural language input, and 2D video into time management and problem-solving decisions, significantly contributing to crew and vehicle efficacy by delegating cognitive load.


As next-generation missions take humans deeper into the solar system, signal propagation delays threaten to hamper this effectively real-time cognitive tether. Deep learning technologies running locally aboard spacecraft can produce intelligent systems capable of making inference-based decisions like Mission Control without the time delay, while also augmenting crew-computer interfaces in ways not seen before.

This talk will discuss three applications leveraging deep learning on a first step toward this goal. The first is an Intelligent Personal Coach app for exercise feedback. The second is a neural network to identify external vehicle handrails in 2D images to assist crew members in identifying touch points suffering Micro Meteroid and Orbital Debris (MMOD) damage which threaten spacesuit structural integrity.


Finally, a method to generate rendered image data sets for training a neural network to identify 6 degree-of-freedom pose (used by an augmented reality procedure assistant for alignment without a QR code) will be presented.

PRESENTER’S BIO:

Matthew Noyes,
Software Lead at NASA's Hybrid Reality
Advanced Operational Concepts Lab


LinkedIn BIO

Matthew Noyes is the lead software engineer and deputy lab manager of the NASA Johnson Space Center Advanced Operational Concepts Lab in Houston, Texas. His topics of research include building and deploying advanced technologies leveraging machine learning and augmented reality in future space missions to augment crew safety, human performance, and vehicle systems management.



Meeting will be conducted at the 
PLEASE NOTE CHANGE IN LOCATION 
The University of Houston 
Classroom and Business Building (CBB) Room 310 
4742 Calhoun Rd Houston, TX 77004 

CLICK HERE FOR A MAP OF THE VENUE

CLICK HERE FOR A MAP OF THE PARKING GARAGE



REGISTRATION: 
FREE for Members
FREE for members of UofH
$15 for Non Members 
LUNCH WILL BE SERVED


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