The acquired frames from the EMCCD camera of the slanted-edge target and of the real-world objects are contained in their respective folders. Each dataset comprises of two subfolders: one for spatially correlated biphotons illumination ('Q') and one for spatially uncorrelated illumination ('C'). In order to save space, the files are saved in a custom file format ('.nia' extension). Each file contains 100 binary frames and can be opened using LabVIEW (2016 onward), using the provided sample programme. MATLAB 2016b (or newer) must be installed to compute the slanted-edge modulation transfer function curves using the SFR MATLAB utility and to support the execution of the LabVIEW code.

Follow the steps below to start the image reconstruction:
1) Install the required dependencies contained in the '01_Dependencies to be installed before running the programmes' folder (see the readme file within for further information);
2) Unzip the EMCCD frames contained in the '02_zipped EMCCD frames' folder  (see the readme file within for further information);
3) Thirdly, the centroid estimated images can be reconstructed using the provided LabVIEW programme inside the '03_LabVIEW Programmes' folder (see the readme file within for further information).
4) Lastly, the modulation transfer function curves can be computed using the reconstructed images of the slanted-edge object, by running the SFR MATLAB utility '04_sfr3.zip' (see the readme file within for further information).