![]() You will need to have the Wide Resonance Scanner fitted, and by activating this module in outer space, you will receive reports on anomalous astronomical signals from different regions of the current system after a period of time. Resonance Simulation used for PvE has many different signals, including ones emitted by Deadspace anomalies. How does the scanning work from a PvE perspective? What kinds of signals can be detected? The Wide Resonance Scanner, however, is built for analyzing possible beacon signals under different astronomical conditions, and has a wider acceptance range, but the accuracy of the analysis will be slightly less than that of the one that analyzes narrow signal waves.Īnd for the objects that have been analyzed so far, researchers have calculated the radius of the source based on the strength of the signal at the time it was scanned the larger the source radius, the stronger the signal wave emitted.ġ. The Narrow Resonance Scanner can only detect the signal waves emitted by buildings/ships and can analyze specific information about them, such as the type of ships, etc. These two instruments work using the same principle, but the Wide Resonance Scanner is used to analyze signals being emitted from ships and structures, while the Narrow Resonance Scanner detects signals being emitted from potential beacons, which may lead into anomalies. There are two types of Resonance Simulators developed so far: wide and narrow. That instrument is the Resonance Simulator. Later analysis of this signal showed that neutrino resonances from different sources have different oscillation characteristics and the distance decay effect is negligible, so an instrument was built to record and display the analysis of the received signal. Since then, CONCORD, in conjunction with the Four Empires and the Sisters, have been analyzing these signals and named this type of signal Neutrino Resonance Wave, or NRW for short. It can come from a celestial or a ship: it occurs as long as such neutrinos exist. The sources of these signals are very diverse. Shortly thereafter, people in the parallel universe discovered a special resonance effect that occurs when such neutrinos pass through different objects, an effect that can be recognized as a new kind of signal. The supernova also produced a large number of special neutrinos. In the original EVE universe, the process of probe scanning was to use probes to analyze specific areas, increasing the intensity of the probes by continually narrowing their detection range, and thus eventually locating different celestials, ships, and other objects.ĭuring the supernova event, the parallel universe Echoes emerged. As scanning is extremely important part of our upcoming Exploration update (early June), we'd like to share a basic introduction of scanning.
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