# Signal coverage approach to the detection probability of hypothetical   extraterrestrial emitters in the Milky Way

**Authors:** Claudio Grimaldi

arXiv: 1704.04028 · 2017-04-14

## TL;DR

This paper develops a statistical model to estimate the probability of detecting extraterrestrial signals in the Milky Way, revealing that detection is unlikely even with many emitters and high detection probabilities.

## Contribution

It introduces a novel probabilistic framework for assessing the likelihood of Earth being within the signal domain of extraterrestrial civilizations.

## Key findings

- Mean number of detectable emitters is less than one at 50% detection probability.
- Detection likelihood remains low despite increasing the number of emitters.
- Signal longevity and directionality significantly affect detection probability.

## Abstract

The lack of evidence for the existence of extraterrestrial life, even the simplest forms of animal life, makes it is difficult to decide whether the search for extraterrestrial intelligence (SETI) is more a high-risk, high-payoff endeavor than a futile attempt. Here we insist that even if extraterrestrial civilizations do exist and communicate, the likelihood of detecting their signals crucially depends on whether the Earth lies within a region of the galaxy covered by such signals. By considering possible populations of independent emitters in the galaxy, we build a statistical model of the domain covered by hypothetical extraterrestrial signals to derive the detection probability that the Earth is within such a domain. We show that for general distributions of the signal longevity and directionality, the mean number of detectable emitters is less than one even for detection probabilities as large as 50\%, regardless of the number of emitters in the galaxy.

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Source: https://tomesphere.com/paper/1704.04028