Litcius/Paper detail

Perspective on the development and application of light-field cameras in flow diagnostics

Zu Puayen Tan, Brian Thurow

2021Measurement Science and Technology27 citationsDOI

Abstract

Abstract Multi-camera flow diagnostics have made large gains in recent years in the field of three-dimensional and multi-physics measurements. However, cost, complexity and optical access pose challenges that place multi-camera techniques out of reach for many labs. In that context, light-field (LF) imaging represents an alternative approach that can potentially alleviate some of these challenges. LF flow diagnostics is a branch of measurement techniques introduced within the last decade that are based on a plenoptic camera’s unique ability to capture three-dimensional and multi-spectral data via a single objective lens and image sensor-albeit at reduced lateral resolutions and depth-to-lateral uncertainty ratios of 3–10 due to limited parallax angle. Thus far, LF flow diagnostics have successfully achieved significant camera-reduction alongside other performance improvements in 3D flow velocimetry, 3D particle tracking, 3D scalar-field tomography, micro-fluidic velocimetry and multi-spectral imaging, as well as early demonstrations of single-camera multi-physics measurements for applications such as 3D fluid-structure interactions. Here, we discuss the state of development in LF flow diagnostics, highlight on-going challenges, and project potential advancements in the near future.

Topics & Concepts

VelocimetryComputer scienceContext (archaeology)Particle image velocimetryParticle tracking velocimetryParallaxTracking (education)Perspective (graphical)Computer visionOpticsArtificial intelligencePhysicsTurbulenceGeologyPsychologyPedagogyThermodynamicsPaleontologyPlant Water Relations and Carbon DynamicsAdvanced Vision and ImagingImage Enhancement Techniques