2011

In-Space Inspection Sensors Look Through Conductive Material to Target Surface

NASA needs a sensor system to characterize damage from Micro-meteoroid and Orbital Debris (MMOD), corrosion, or to perform configuration verification when there is a conductive surface in between the sensor and the site. The in-space system(s) will need to look from the inside (IVA) out or from the outside (EVA) in for both existing and future to-be-designed vehicles. The ground versions will be very useful for ground inspection purposes in areas of vehicles that are “closed out,” or areas with limited access behind conductive structures. The damage includes, but is not limited to, deformations, penetrations, fractures, cracks, corrosion, and dis-bonds.

Requirements and Goals

Sensor system capabilities and characteristics include the following requirements:

  1. Product: 3D image/data after minutes of on-board post-processing, with no down-link required.
  2. Scan area of 5 × 5".
  3. Resolution of 1 mm in any dimension, with no practical limit on the time to obtain the image.
  4. Depth of field must be adjustable based on the need.
  5. The distance to the object must be adjustable from 1 m to 1 cm.
  6. Must meet or exceed ANSI/OSHA standards.
  7. Near real-time feedback of video image and depth of penetration.
  8. Calibration: must be able to have certified resolution and accuracy via NDE standards.
  9. Motion compensation is as needed based on handheld or robotic manipulator motion when attempting to provide a still platform in order to obtain the required resolution.

Configuration

altThe configuration of the system should be single-sided, with the illumination source and sensor on the same side. Interior or exterior space operations could be two different systems. The distance to the object would be 1 m to 1 cm (goal), assuming physical contact may be allowed. It should be a single unit, with few internal or no moving parts (goal). The size, weight, and power would be less than 1 cubic foot, 40 pounds, and 10W (goal), respectively. It would be portable or handheld, and have minimum interfaces such as power, data processing, displays, controls, human operator complexity, and communication (less wires/wireless).

The system should achieve the above requirements for ground use in one year at less than $700,000. The second goal is to build the flight unit and achieve Flight Certification in the second year at under $700K. The long-term per-item cost would be under $15,000 per ground unit. The potential use with unmanned spacecraft would be the DoD, and commercial or exploration systems. Multiple ground uses exist in several industries, such as aviation, oil and gas, construction, and security.

altThis system should require low maintenance and costs with minimal or no servicing. The materials to see through, and materials containing the feature of interest include see-through aluminum, composite, thermal protection materials such as low-density silica tile, and rubber (RTV to the material and multi-layer insulation). Materials are consistent in each layer, but different materials may be present in each layer. Damage is usually in low- or medium-density material. Material doping may be allowed to enhance results (coatings that allow for easier detection of damage from impact or corrosion) for future vehicles only.

More Information

For more information, contact George Studor at 763-208-9283, This email address is being protected from spambots. You need JavaScript enabled to view it.; or Ajay Koshti at 281-483-0262, This email address is being protected from spambots. You need JavaScript enabled to view it., or email This email address is being protected from spambots. You need JavaScript enabled to view it..

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