ºù«ÍÞÊÓƵ

Skip to main content

Structured light velocimetry for sensing angular velocity

Background

Laser Doppler velocimetry (LDV) has long been a standard technique in experimental fluid mechanics labs. Researchers in Associate Professor Greg Rieker's lab at CU ºù«ÍÞÊÓƵ extend the capabilities of this technique by reshaping the intensity profile of the optical probe beam and by developing a machine learning-based signal processing scheme to analyze the expected signals which can be more complicated than those from LDV.

Technology

The light scattered by a particle passing through a probe beam caries with it a history of the particle’s trajectory through the beam. When the beam is patterned, the scattered light signal is matched with the properties which gave rise to the motion via a machine learning model.

Advantages

  • Signal processing technique makes no compromise between spatial and temporal resolution
  • Uses readily available seeding particles and requires only a low seeding density
  • May function with existing LDV hardware

Applications

  • Combustion R&D
  • Environmental research
  • Flow facilities (wind tunnels, water channels)
  • Medical devices
  • Microfluidic systems
  • Granular flows

What's Next?

This technology is looking for exclusive and non-exclusive licensing.

Contact

Nicole Forsberg:   nicole.forsberg@colorado.edu

The Newsroom

Subscribe to The Insider E-Newsletters

The Insider is Venture Partners at CU ºù«ÍÞÊÓƵ's monthly newsletter featuring the latest headlines, news, events, opportunities and emerging innovations from the university. We have several editions for our audiences:

 Subscribe to The Insider  

Media Inquiries

For marketing and communication inquiries or news tips, contact Daniel Leonard, senior marketing and communications specialist for Venture Partners at CU ºù«ÍÞÊÓƵ.

For media inquiries, please visit .

Latest News

Visit the Newsroom