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When we set shift-invariant but there are not data, we should query the user for a file to go get the data. More testing of the ray trace to about blocking issues - though these don't seem so bad right now. We have a script, I think (s_opticsRTPSFandFigs) distorted Image Height for any specified wavelengthĬhange all field of view to diagonal from horizontalĬreate illustrative scripts using the ray trace toolbox. Read the chief ray angle (CRA) data and make sure we can easily calculate (plot) CRA vs. In particular, what if the wavelength requirement is beyond the range of the ray trace information? Do we alert and compute? Or do we stop? See zemaxLoadGridDistortionĪdd possibility of geometric distortion for large field height to the shift-invariant calculationĬheck for wavelength problems with ray trace when scene or optical image requirements differ from the ray trace data. Read in grid distortion file from Dmitry and use it instead of our currrent code. Read in an array of rotated PSFs, not just field heightĬomplete the set(gcf,'userdata') calls in rtPlotĪdd an additional blur for camera shake following Feng Xiao's paper. This should allow us to test the image rendering at off-axis positions for ray-trace modeling.Not sure about rtGeometry. Allow specification of the chief ray angle at the center of the scene. This could be adjusted by changing the imageCenter position computed in rtOTF. Perhaps put in the field height and angle into the GUI on the OI window (below the RT pulldown). Specify that the scene is not on-axis, but is located at some off-center location. OiPlot, scenePlot, sensorPlot, vcimagePlotĪnd these gateway routines should be documented at the top and call all the other specialty routines.Ĭreate an off-axis rendering for the image. One organization is to force plots through gateway routines:
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There may be some vcimage related ones, but I didn't see them yet. SensorPlotColor, sensorPlotLine, sensorPlotVignetting PlotSensorEtendue, plotSensorFFT, plotSensorHistogram, plotSensorSNR, plotSensorVignetting PlotOI, plotOTF, plotOIIrradiance, oiPlotCIE, oiPlotIlluminance PlotScene, plotSceneRadiance, scenePlotCIE, scenePlotLuminance Use the sensor characterization worksheet in Scripts\Sensors as a basis for running an ISET simulation for Flextronics?įont size fixes for design microlens and design CFA SceneFromFile does the right thing already and has an example of what to do.Ĭhange vcAddAndSelect. New to OpticStudio, or if you are upgrading from previous versions of Zemax.Change ieSaveMultiSpectralImage.m to handle the new illuminant structure properly. It is the first place to start if you are Guide is intended to get you started using OpticStudio quickly. Polarization, thin-film modeling and mechanical CAD Import/Export in a single, easy-to-useĪlthough OpticStudio is easy to use, optical system design is a very broad area of engineering. OpticStudio is the industry standard optical system design software, combining sequential lensĭesign, analysis, optimization, tolerancing, physical optics, non-sequential optical system design, Tutorial 9.6: Bulk and Fluorescent Scattering.
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Tutorial 9: Polarization, Coatings & Scattering. Tutorial 7: Optimizing Non-Sequential Systems. Tutorial 6.4: Tracing Rays and Getting Data.127 Tutorial 6.3: Combining Sequential and Non-Sequential RayTracing. Tutorial 6.2: Object Positioning & Definition. Tutorial 6: Non-Sequential Ray Tracing (Professional and Premium only). Tutorial 5.4: Tips and Tricks for Successful Optimization.105 Tutorial 5.3: Entering the Basic System in the Lens Data Editor. Tutorial 5.2: Entering the Basic System in the System Explorer. Tutorial 4: Exporting To Mechanical CAD Packages. Tutorial 3: A Multi-Configuration Design. Tutorial 2.1: Working in Three Dimensions. Zemax, LLC Getting Started With OpticStudio 16 Tutorial 2: Defining, Positioning and Moving Surfaces. Tutorial 1.4: The Normalized Coordinate System. Tutorial 1: A Walk-Through an OpticStudio Design. Congratulations on your purchase of OpticStudio!.