Over the past few decades, engineers have developed various devices that can create holograms, three-dimensional (3D) or ...
The shape of biological structures, ranging from flower petals to the limbs or organs of animals, is often naturally best ...
As humans, our eyes take in two-dimensional images that our brains convert to three-dimensional experiences. This ability enables us to be aware of our position in space, judge distances, possess ...
In Dimension 1, since $$ {1;X = X}$$, everything regarding operations, comparisons, limits, and computability is consistent with standard mathematics Even in Dimension 2 or higher, comparisons within ...
The cochlear implantable neuromodulator provides substantial auditory perception to those with severe or profound impaired hearing. Correct electrode array positioning in the cochlea is one of the ...
The ability to process raw instrument data reliably and accurately is critical to any molecular profiling assay. Though useful, commercial software solutions provided by vendors of mass spectrometry ...
We review advancements in incoherent digital holography (IDH) with an image sensor and its applications to multidimensional microscopy and a palm-sized hologram recorder termed “holosensor”. There are ...
An animal’s primary sensory neurons (PSNs) translate information about the environment into neural signals that allow perception and action. While much is known about visual and auditory PSN responses ...
Many real-world data are inherently multidimensional; however, often data are processed as two-dimensional arrays (matrices), even if the data are naturally represented in higher dimension. The common ...
Most existing coverage-based (epi)genomic datasets are one-dimensional, but newer technologies probing interactions (physical, genetic, etc.) produce quantitative maps with two-dimensional genomic ...