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United Kingdom Technology

Using Satellites To Monitor Bridge Safety 36

__roo writes: In an effort to detect crumbling infrastructure before it causes damage and costs lives, the European Space Agency is working with the UK's University of Nottingham to monitor the movements of large structures as they happen using satellite navigation sensors. The team uses highly sensitive satnav receivers that transmit real-time data to detect movements as small as 1 cm combined with historical Earth observation satellite data. By placing sensors at key locations on the Forth Road Bridge in Scotland, they detected stressed structural members and unexpected deformations.
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Using Satellites To Monitor Bridge Safety

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  • by sdguero ( 1112795 ) on Monday May 18, 2015 @05:43PM (#49722319)
    This makes no sense to me. Shouldn't we be able to measure them from much closer up with much greater accuracy than 1 cm?
    • Re: (Score:2, Funny)

      by Anonymous Coward

      Oh, it's pretty easy... if the bridge vanishes from the orbital image, then it is classified as "unsafe"

  • by niftymitch ( 1625721 ) on Monday May 18, 2015 @06:03PM (#49722421)

    Other than high precision GPS what does this have to do with satellites?

    Sensor technology is improving so fast that tools better than this are possible
    and inexpensive. It just takes doing it. Perhaps a gaggle of folk from
    the Makers Fair will do it for $101.00 next weekend.

    In all fairness bureaucratic constipation costs lives.
    Positive train controls should have been installed years ago on all rolling stock in the US.

    Baring that a software and map update to a common sub $200 GPS that could track and log train speed
    as well as sound a Klaxton to alert the engineer. It need not be integrated to the train in a
    way that requires system review. Management could apply a GPS-RF transparent optionally solar powered box to
    the outside of engines and other common rolling stock to record travel data. DOT could do the same
    and track to see if management pressure is pushing engineers to operate outside of guidelines.

    A little harder is realtime track monitoring but a shipping container bed could be modified with sensors and
    a container of instrument systems mounted on it. Again there is no need to touch critical controls in ways that
    risk safety for many audits. Lasers could locate surfaces on tracks with precision. G-sensors, accelerometers
    acoustic audits, time, temperature are all possible. To get back to the original topic the container would
    "see" track as well as bridges. Offloaded to a truck bed the container would see highways and rubber wheel
    only bridges and roads. Tesla seems to have helped with the battery packaging but older Fe based power
    storage would be fine as the "pig" need not be weight limited like a car.

    Some of this is already happening just not enough of it. More agility is needed.

    • by swb ( 14022 )

      I've always wondered why city busses and other utility vehicles couldn't be mounted with sensors to measure the condition of the road surface in urban areas. You could get multiple times per day readings on many arterial streets and probably the entire city's road surface 3D scanned annually.

      The data could be used for planning and organizing street patching and repair tasks at a minimum. It might also help with surfacing technology and better determine long-term major maintenance.

  • by Irate Engineer ( 2814313 ) on Monday May 18, 2015 @06:34PM (#49722569)

    The author of TFA doesn't have a clue. This idea is useless as bridges, particularly suspension bridges, deflect by much more than 1 cm under traffic and wind loads.

    Here is a time lapse video of the Manhattan bridge to illustrate normal deflections:

    https://www.youtube.com/watch?v=DgXveBf_l6k [youtube.com]

    • This is about monitoring deflections to ensure they are in within the designed safe boundaries, not to ensure they're not happening at all.

      • Maybe, but this won't catch a lot of failures caused by corrosion or fatigue cracking, or under-designed structures that are built with excessive static deflections from the get go. Many times the first excessive deflection is the one that sends the bridge into the river. Even if this worked as advertised, it does not replace visual inspection for defects.

        Look at the I-35W bridge failure in Minnesota as a case in point. Sadly, this bridge *had* been inspected visually, numerous times, and was found to be st

    • by bondsbw ( 888959 )

      Just because something has an accuracy of X doesn't mean that it's a binary measurement. That would be like having a speedometer accurate to 1 MPH, and therefore you could only know whether your speed is below 1 MPH or above 1 MPH.

      It probably takes more movement than just 1 cm to trigger an alarm. Or the system might need that precision in order to monitor patterns that often correlate to deficiencies.

    • by jbengt ( 874751 )

      The author of TFA doesn't have a clue. This idea is useless as bridges, particularly suspension bridges, deflect by much more than 1 cm under traffic and wind loads.

      I think the aouthor of TFA knows that:

      Bridgemaster Barry Colford observed: “This information is extremely useful for understanding how much the bridge can move under extreme weather conditions. This allows us to decide to close the bridge based on precise deformation information.
      "For example, I knew that the bridge can move significantly under high winds but for the first time I know that bridge moved 3.5 m laterally and 1.83 m vertically under a wind speed of 41 m/s."

  • probably good (Score:2, Insightful)

    As long as the efforts actually pass scientific muster, as opposed to simply frightening a gullible public into ineffective tax and spend policies, it's a good idea.

    That said, when an article begins with the assertion that infrastructure is crumbling, it's already biased.

    • by Dog-Cow ( 21281 )

      All infrastructure is crumbling (or the appropriate adjective for the building material). That's a simple fact. The only question is how far along is the crumbling, and when will it lead to complete failure?

    • Do you have any evidence to back up your claim? Frankly given the actual history - with bridges etc. given estimated life expectancies on creation that have now long passed - the burden of proof is clearly on YOU to claim that our infrastructure is not crumbling.

      We have a situation where the Federal government built things on the premise that the states would maintain them, but the states - in large part due to people like you - have refused to spend the money the Fed said was necessary from the get go.

      T

  • We've learned from other bridge collapses in the past that it is more important to place - or relieve - blame after the collapse than it is to actually do something about it. Will the satellites speed up that process as well?
  • Lately, bridges seem to fall over because someone hits them, not because they're "crumbling infrastructure."

    Do the authors really think satellites will help with collisions or crumbling? How about an annual or semi-annual inspection instead?

    • The last time a bridge collapsed in the UK due to a maintenence problem seems to be 50 years ago. I think we've got this one sorted...

      (Bridges have been washed away by floodwater within the last decade, usually really old ones. If the river profile was changed by a land use change upstream, that could be blamed on inadequate processes.)

  • Receivers that transmit? WTF

    • by Skapare ( 16644 )
      GPS receivers determine the position then a separate transmitter sends that position for data collection. this got called a "receiver" instead of a "monitoring device" because "GPS receivers" is a familiar term to non-techies. it's like the "DC transformers" that provide lower voltage to laptops.
  • It's not THAT expensive to send out a surveying crew to get even more precise data.

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