Scattering media scramble light paths, create seemingly random speckle patterns and hinder even our simple visualization of objects. Here, we demonstrate stochastic optical scattering localization imaging (SOSLI) to achieve super-resolution non-invasively through not only static, but also dynamic scattering media (up to 80% decorrelation). A camera captures multiple speckle patterns created by stochastic emitters in the object. Then our computational approach can retrieve a super-resolution image of hidden objects, surpassing the diffraction limit by factor of five, while posing no fundamental-limit in achieving higher spatial-resolution. Our demonstration paves the way to non-invasively visualize various biological samples with unprecedented levels of detail.
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