We introduce the Quantum Mechanics formalism given by the different operations at the Hilbert space yielding the probability amplitude from a primary source to an target receptor that is seen as the fusion center of all signals. More than an abstract application, we develop a closed-form theory that is applied to certain cases where standards theoretical approaches might fail to describe nonlinear phenomenology of wireless-based events. In concrete we calculate the probability amplitude and therefore it is interpreted as the chance for getting a pure signal from a primary source. Taking into account the completeness property of the orthogonal states, we proceed to implement the noises that would appear as a spontaneous mechanism more than an 'adhoc' procedure. Finally, we pass to determinate numerically the signals along the bands that commonly take place the wireless connectivity.