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In this paper, we present a fully-customized AR display design that considers the users prescription, interpupillary distance, and taste of fashion. A free-form image combiner embedded inside the prescription lens provides augmented images onto the vision-corrected real world. We establish a prescription-embedded AR display optical design method as well as the customization method for individual users. Our design can cover myopia, hyperopia, astigmatism, and presbyopia, and allows the eye-contact interaction with privacy protection. A 169$g$ dynamic prototype showed a 40$^circ$ $times$ 20 $^circ$ virtual image with a 23 cpd resolution at center field and 6 mm $times$ 4 mm eye box, with the vision-correction and varifocal (0.5-3$m$) capability.
The ongoing digital transformation of the medical sector requires solutions that are convenient and efficient for all stakeholders while protecting patients sensitive data. One example involving both patients and health professionals that has already
We simplify the one-loop functional matching formalism to develop a streamlined prescription. The functional approach is conceptually appealing: all calculations are performed within the UV theory at the matching scale, and no prior determination of
We present a version of holographic correspondence where bulk solutions with sources localized on the holographic screen are the key objects of interest, and not bulk solutions defined by their boundary values on the screen. We can use this to calcul
Edge Computing exploits computational capabilities deployed at the very edge of the network to support applications with low latency requirements. Such capabilities can reside in small embedded devices that integrate dedicated hardware -- e.g., a GPU
In this work we present, for the first time, the non-perturbative renormalization for the unpolarized, helicity and transversity quasi-PDFs, in an RI scheme. The proposed prescription addresses simultaneously all aspects of renormalization: logarithm