Ghost imaging involves capturing an image using photons that have never interacted with the object being imaged. Can you perform ghost imaging using the human eye as one of the detectors? The answer ...

Apple is working on improving the capabilities of computer vision to make it detect and identify subjects more accurately, such as in situations where both the camera and the subject are in motion, ...

In this paper, we review the integration of microfluidic chips and computer vision, which has great potential to advance research in the life sciences and biology, particularly in the analysis of cell ...

If you have ever worked with computer graphic images, whether they be from digital cameras, found on the web, or you create them yourself, then you know there are a lot of image file formats that are ...

Optical imaging and characterization of weakly scattering phase objects, such as isolated cells, bacteria and thin tissue sections frequently used in biological research and medical applications, have ...

Design tools for the entire computational imaging pipeline can pave the way for powerful and affordable imaging systems, from assisted driving systems, computer vision-based robots, or high-quality ...

Medical image (MI) processing on the other hand involves much more detailed analysis of medical images that are typically grayscale such as MRI, CT, or X-ray images for automated pathology detection, ...

A decade of unprecedented progress in artificial intelligence (AI) has demonstrated the potential for many fields—including medicine—to benefit from the insights that AI techniques can extract from ...

Brain-computer interface (BCI) technology enables the direct interaction between brain signals and external devices, helping people with neurologic injury communicate with or control real or virtual ...

Welcome to TNW’s beginner’s guide to AI. This (currently) four part feature should provide you with a very basic understanding of what AI is, what it can do, and how it works. The guide contains ...