WE CLAIM:
[Claim 1]
A method for building Signal-to-Interference-plus-Noise Ratio data from power measurements data, the Signal-to-Interference-plus-Noise Ratio data relating to a transmission channel in a wireless communication system, the method being implemented by a device of the wireless communication system or cooperatively by plural devices of the wireless communication system, characterized in that the method comprises:
gathering first power measurements data of total power received during communications performed on the transmission channel;
gathering second power measurements data of in-transmission interference power received during said communications, as many second power measurements data being gathered as first power measurements data;
computing third power measurements data of useful power, by subtracting the second power measurements data from the first power measurements data;
gathering fourth power measurements data of out-transmission interference power received out of said communications on the transmission channel;
merging the second power measurements data and the fourth power measurements data so as to form a set of fifth interference power data;
computing a first characteristic function, or complex conjugate thereof, of the logarithm of the computed third power measurements data, and computing a second characteristic function, or complex conjugate thereof, of the logarithm of the fifth power measurements data or of the opposite of the logarithm of the fifth power measurements data;
building a third characteristic function, or complex conjugate thereof, of the logarithm of Signal-to-Interference-plus-Noise Ratio data related to the transmission channel, by performing a term-by-term product of the first characteristic function and the second characteristic function, or complex conjugates thereof, when relying on the logarithm of the fifth power

measurements data, or by performing a term-by-term division of the first characteristic function and the second characteristic function, or complex conjugates thereof, when relying on the opposite of the logarithm of the fifth power measurements data; and
computing a first probability mass function from the third characteristic function, or complex conjugate thereof. [Claim 2]
The method according to claim 1, wherein the method further comprises merging the computed first probability mass function and a second probability mass function representative of Signal-to-Interference-plus-Noise Ratio data previously acquired with respect to the transmission channel. [Claim 3]
The method according to any one of claims 1 and 2, wherein the first probability mass function PSINR> represented in a form of a histogram with uniform bins width, is computed as follows :
u
wherein L is a vector such that L = [0,.., N-l], K is also a vector such that K = [0,.., iV-1], and <8> represents a term-by-term product,
and wherein CFr is the complex conjugate of the third characteristic function, a represents position of a starting bin of the histogram, b represents bin width, N represents quantity of bins in the histogram, c represents the lowest considered frequency and d is a discretization step value. [Claim 4]
The method according to any one of claims 1 and 2, wherein the first probability mass function PSWR> represented in a form of a histogram with uniform bins width, is computed as follows :

wherein CFr is the complex conjugate of the third characteristic function, a represents position of a starting bin of the histogram, b represents bin width, N represents quantity of bins in the histogram, c represents the lowest considered frequency and d is a discretization step value. [Claim 5]
The method according to any one of claims 3 and 4, wherein the lowest considered frequency c is set such that:
[Claim 6]
The method according to any one of claims 1 to 5, wherein the transmission channel is between a first wireless radio unit of the wireless communication system and a second wireless radio unit, and wherein the wireless communication system further comprises a server connected to the first wireless radio unit, and wherein:
the first wireless radio unit gathers the first, second and fourth power measurements data, computes the third measurement data, and transmits to the server the third measurement data associated with the second measurement data, as well as the fourth measurement data; and
the server merges the second power measurements data and the fourth power measurements data, computes the first and second characteristic functions, or the complex conjugates thereof, builds the third characteristic function, or complex conjugate thereof, computes the first probability mass function, and merges the computed first probability mass function and the second probability mass function. [Claim 7]
The method according to any one of claims 1 to 5, wherein the transmission channel is between a first wireless radio unit of the wireless communication system and a second wireless radio unit, and wherein the wireless communication system further comprises a server connected to the first wireless radio unit, and wherein:

the first wireless radio unit gathers the first, second and fourth power measurements data, computes the third measurement data, merges the second power measurements data and the fourth power measurements data, and transmits to the server the third measurement data, as well as the fifth measurement data; and
the server computes the first and second characteristic functions, or the complex conjugates thereof, builds the third characteristic function, or complex conjugate thereof, computes the first probability mass function, and merges the computed first probability mass function and the second probability mass function. [Claim 8]
The method according to any one of claims 1 to 5, wherein the transmission channel is between a first wireless radio unit of the wireless communication system and a second wireless radio unit, and wherein the wireless communication system further comprises a server connected to the first wireless radio unit, and wherein:
the first wireless radio unit gathers the first, second and fourth power measurements data, computes the third measurement data, merges the second power measurements data and the fourth power measurements data, computes the first and second characteristic functions, or the complex conjugates thereof, and transmits to the server information representative of the first and second characteristic functions; and
the server builds the third characteristic function, or complex conjugate thereof, computes the first probability mass function, and merges the computed first probability mass function and the second probability mass function. [Claim 9]
The method according to any one of claims 1 to 5, wherein the transmission channel is between a first wireless radio unit of the wireless communication system and a second wireless radio unit, and wherein the wireless communication system further comprises a server connected to the first wireless radio unit, and wherein:

the first wireless radio unit gathers the first, second and fourth power measurements data, computes the third measurement data, merges the second power measurements data and the fourth power measurements data, computes the first and second characteristic functions, or the complex conjugates thereof, builds the third characteristic function, or complex conjugate thereof, and transmits to the server information representative of the third characteristic function; and
the server computes the first probability mass function, and merges the computed first probability mass function and the second probability mass function. [Claim 10]
The method according to any one of claims 1 to 9, wherein the wireless communication system is a cellular telecommunication system and the transmission channel is between wayside base stations deployed along railroads on which trains are travelling and relay stations installed inside the trains so as to enable User Equipment located inside the trains to communicate via the cellular telecommunication system, and wherein the railroads are virtually cut into clusters and the probability mass function data relating to Signal-plus-Interference-to-Noise Ratio is stored in a database for each cluster. [Claim 11]
The method according to any one of claims 1 to 5, wherein the transmission channel is between a first wireless radio unit of the wireless communication system and a second wireless radio unit, and wherein the method is implemented by the first wireless radio unit. [Claim 12]
A computer program product comprising program code instructions that can be loaded in a programmable device for implementing the method according to claim 11, when the program code instructions are run by the programmable device. [Claim 13]
Non-transitory information storage medium storing a computer program

comprising program code instructions that can be loaded in a programmable device for implementing the method according to claim 11, when the program code instructions are run by the programmable device. [Claim 14]
A wireless communication system for building Signal-to-Interference-plus-Noise Ratio data from power measurements data, the Signal-to-Interference-plus-Noise Ratio data relating to a transmission channel in the wireless communication system, characterized in that the wireless communication system is such that a device of the wireless communication system or cooperatively plural devices of the wireless communication system comprise:
means for gathering first power measurements data of total power received during communications performed on the transmission channel;
means for gathering second power measurements data of in-transmission interference power received during said communications, as many second power measurements data being gathered as first power measurements data;
means for computing third power measurements data of useful power, by subtracting the second power measurements data from the first power measurements data;
means for gathering fourth power measurements data of out-transmission interference power received out of said communications on the transmission channel;
means for merging the second power measurements data and the fourth power measurements data so as to form a set of fifth interference power data;
means for computing a first characteristic function, or complex conjugate thereof, of the logarithm of the computed third power measurements data, and computing a second characteristic function, or complex conjugate thereof, of the logarithm of the fifth power measurements data or of the opposite of the logarithm of the fifth power measurements data;
means for building a third characteristic function, or complex conjugate thereof, of the logarithm of Signal-to-Interference-plus-Noise Ratio data

related to the transmission channel, by performing a term-by-term product of the first characteristic function and the second characteristic function, or complex conjugates thereof, when relying on the logarithm of the fifth power measurements data, or by performing a term-by-term division of the first characteristic function and the second characteristic function, or complex conjugates thereof, when relying on the opposite of the logarithm of the fifth power measurements data; and
means for computing a first probability mass function from the third characteristic function, or complex conjugate thereof.