Method for synchronizing an internal combustion engine

The invention claimed is: 1. A method for synchronizing an internal combustion engine including at least one cylinder, at least one piston movable in the at least one cylinder and driving a crankshaft cooperating with a camshaft, and a camshaft sensor, said camshaft cooperating with a target of the camshaft having a number of cam edges, the camshaft sensor generating a camshaft signal as a function of the number of cam edges, said method comprising: acquiring, by the camshaft sensor, signals corresponding to at least five cam edges; determining values, from the camshaft signal, of a first actual ratio, a second actual ratio, and a third actual ratio for each of the respective cam edges; establishing, for each of the determined actual ratio values, a list of possible cam edges by comparing the respective values of the first, second, and third actual ratios with respective tolerance windows defined by respective values of a first theoretical ratio, a second theoretical ratio, and a third theoretical ratio for a respective cam edge, each being weighted by a tolerance factor k, the first, second, and third theoretical ratios being determined based on angles a between adjacent cam edges; and determining the cam edge sensed by the camshaft sensor, the determined cam edge corresponding to one of the cam edges common to each of the established lists of possible cam edges. 2. The method as claimed in claim 1 , wherein the cam edges are considered possible when the respective values of the first, second, and third actual ratios within an interval [T1/k; T1*k], [T2/k; T2*k] and [T3/k; T3*k] for the respective cam edge, where T1 is the first theoretical ratio, T2 is the second theoretical ratio, and T3 is the third theoretical ratio. 3. The method as claimed in claim 2 , wherein the tolerance factor k is a constant number belonging to the set between 1.5 and 3. 4. The method as claimed in claim 2 , wherein the tolerance factor k is a constant number that is 2.3. 5. The method as claimed in claim 2 , wherein the first, second, and third actual ratios are determined from measurement of times separating the cam edges and satisfy the following formulas: N 1=( T n +T n-2 )/( T n-1 +T n-3 ), N 2=( T n +T n-1 )/( T n-2 +T n-3 ), and N 3=( T n +T n-3 )/( T n-1 +T n-2 ), where N1 is the first actual ratio, N2 is the second actual ratio, N3 is the third actual ratio, T n is the time between the last two cam edges seen by the sensor, T n-1 is the time between the penultimate and the third-last cam edge seen by the sensor, T n-2 is the time between the third-last and the fourth-last cam edge seen by the sensor, and T n-3 is the time between the fourth-last and the fifth-last cam edges seen by the sensor. 6. The method as claimed in claim 1 , wherein the tolerance factor k is a constant number belonging to the set between 1.5 and 3. 7. The method as claimed in claim 1 , wherein the tolerance factor k is a constant number that is 2.3. 8. A method for synchronizing an internal combustion engine including at least one cylinder, at least one piston movable in the at least one cylinder and driving a crankshaft cooperating with a camshaft, and a camshaft sensor, said camshaft cooperating with a target of the camshaft having a number of cam edges, the camshaft sensor generating a camshaft signal as a function of the number of cam edges, said method comprising: acquiring, by the camshaft sensor, signals corresponding to at least five cam edges; determining values, from the camshaft signal, of a first actual ratio, a second actual ratio, and a third actual ratio for each of the respective cam edges; establishing, for each of the determined actual ratio values, a list of possible cam edges by comparing the respective values of the first, second, and third actual ratios with respective tolerance windows defined by respective values of a first theoretical ratio, a second theoretical ratio, and a third theoretical ratio for a respective cam edge, each being weighted by a tolerance factor k; and determining the cam edge sensed by the camshaft sensor, the determined cam edge corresponding to one of the cam edges common to each of the established lists of possible cam edges, wherein the first, second, and third theoretical ratios are determined from the angles a between the cam edges x and are of the following formulas: T 1=( T a +T a-2 )/( T a-1 +T a-3 ) T 2=( T a +T a-1 )/( T a-2 +T a-2 ), and T 3=( T a +T a-3 )/( T a-1 +T a-2 ), where T1 is the first theoretical ratio, T2 is the second theoretical ratio, T3 is the third theoretical ratio, T a is the angle between the cam edges x and x-1, T a-1 is the angle between the cam edges x-1 and x-2, T a-2 is the angle between the cam edges x-2 and x-3, and T a-3 is the angle between the cam edges x-3 and x-4. 9. A method for synchronizing an internal combustion engine including at least one cylinder, at least one piston movable in the at least one cylinder and driving a crankshaft cooperating with a camshaft, and a camshaft sensor, said camshaft cooperating with a target of the camshaft having a number of cam edges, the camshaft sensor generating a camshaft signal as a function of the number of cam edges, said method comprising: acquiring, by the camshaft sensor, signals corresponding to at least five cam edges; determining values, from the camshaft signal, of a first actual ratio, a second actual ratio, and a third actual ratio for each of the respective cam edges; establishing, for each of the determined actual ratio values, a list of possible cam edges by comparing the respective values of the first, second, and third actual ratios with respective tolerance windows defined by respective values of a first theoretical ratio, a second theoretical ratio, and a third theoretical ratio for a respective cam edge, each being weighted by a tolerance factor k; and determining the cam edge sensed by the camshaft sensor, the determined cam edge corresponding to one of the cam edges common to each of the established lists of possible cam edges, wherein the first, second, and third actual ratios are determined from measurement of times separating the cam edges and satisfy the following formulas: N 1=( T n +T n-2 )/( T n-1 +T n-3 ), N 2=( T n +T n-1 )/( T n-2 +T n-3 ), and N 3=( T n +T n-3 )/( T 1-1 +T n-2 ), where N1 is the first actual ratio, N2 is the second actual ratio, N3 is the third actual ratio, T n is the time between the last two cam edges seen by the sensor, T n-1 is the time between the penultimate and the third-last cam edge seen by the sensor, T n-2 is the time between the third-last and the fourth-last cam edge seen by the sensor, and T n-3 is the time between the fourth-last and the fifth-last cam edges seen by the sensor.