The detector uses the algorithms to more efficiently remove background noise and so more easily identify features which can be used in a 3D model.

This detector uses 50,000 tons of pure water surrounded by 11,000 photomultiplier tubes buried 1 km underground.

The first computerized detectors used fixed-display boards.

However, more efficient designs have been developed, so few current ion-type detectors use two metal grids.

But each detector uses a machine learning algorithm to become as unpredictable as possible.

A typical detector will use an ultrasonic transmitter and receiver to detect when air is being pumped.

Often used to determine detector background values.

The detector, which is located at a fixed distance from the projector, uses a photoelectric cell pointing vertically.

Superconducting detectors don't use avalanches, and don't have this problem., but they may still be susceptable to afterpulsing.

Compared to just a decade ago, detectors are lighter, deeper-seeking, use less battery power, and discriminate better.