Method for determining running phases of a user on a treadmill and treadmill implementing such method

The invention claimed is: 1. A method for determining running phases of a user on a treadmill, the treadmill comprising: a base extending along a longitudinal axis, said base comprising: a first rotating element and a second rotating element adapted to rotate around respective rotational axes transverse to the longitudinal axis of the base; a physical exercise surface operatively connected to the first rotating element and to the second rotating element; an electric motor operatively associated with at least one of said first rotating element and said second rotating element, the electric motor being configured to make the first rotating element and the second rotating element rotate, and to drive the physical exercise surface into rotation; a data processing unit operatively connected to the electric motor, the data processing unit being configured to control said electric motor; the method comprising steps of: (a) determining, by the data processing unit, a magnitude variable over time correlated to interaction of the user with the physical exercise surface while performing physical activity, the magnitude variable over time having a substantially periodic trend; (b) determining, by the data processing unit, respective time instants of at least two points among a plurality of points of the periodic trend of the magnitude variable over time, the respective time instants of each point of said plurality of points being representative of instants of the interaction of the user with the physical exercise surface of the treadmill while running; (c) determining, by the data processing unit, at least one running phase of the user on the physical exercise surface of the treadmill as a function of the respective time instants of said at least two points determined from the plurality of points of the periodic trend of the magnitude variable over time wherein the magnitude variable over time correlated to the interaction of the user with the physical exercise surface while performing the physical activity is instantaneous rotational speed of the electric motor. 2. The method according to claim 1 , wherein the step of (b) determining comprises a step of (d) determining, by the data processing unit, a first time instant of a first point of the periodic trend of the magnitude variable over time, the first time instant of the first point being representative of an instant of interaction of a portion of a foot of the user on the physical exercise surface, at the beginning of interaction of the foot with the physical exercise surface. 3. The method according to claim 2 , wherein the step of (b) determining also comprises a step of (e) determining, by the data processing unit, a second time instant of a second point of the periodic trend of the magnitude variable over time, the second time instant of the second point being representative of an instant of interaction of the foot of the user with the physical exercise surface in which a vertical axis passing through a center of gravity of the body of the user intersects a portion of contact between the foot and the physical exercise surface. 4. The method according to claim 3 , wherein the step of (c) determining comprises steps of: calculating, by the data processing unit, a time difference between the second time instant of the second point and the first time instant of the first point; (g) providing, by the data processing unit, an indication of a phase of overstride during a run of the user on the treadmill as a function of the time difference determined. 5. The method according to claim 1 , wherein the step of (b) determining further comprises a step of determining, by the data processing unit, a third time instant of a third point of the periodic trend of the magnitude variable over time, the third time instant of the third point being representative of the instant of interaction of a portion of the foot of the user on the physical exercise surface before the foot is off the physical exercise surface. 6. The method according to claim 5 , the step of (c) determining comprises a step of determining, by the data processing unit, a phase of contact of one foot with the physical exercise surface of the treadmill, the phase of contact of the foot, from the periodic trend over time of the variable magnitude, is determined as a further time difference between the third time instant of the third point representative of the instant of interaction of a portion of the foot of the user on the physical exercise surface before the foot is off the physical exercise surface and the first time instant of the first point representative of the instant of interaction of a portion of the foot of the user with the physical exercise surface at the beginning of the interaction of the foot of the user with the physical exercise surface. 7. The method according to claim 6 , wherein the step of (c) determining comprises a step of providing, by the data processing unit, a phase of overstride as a dimensionless ratio between the time difference representative of the phase of overstride and the further time difference representative of the phase of contact of the foot. 8. The method according to claim 5 , wherein the step of (c) determining comprises a step of determining, by the data processing unit, a phase of propulsion of a foot with the physical exercise surface of the treadmill, the phase of propulsion of the foot, from the periodic trend over time of the variable magnitude, is determined as a further time difference between the third time instant of the third point representative of the instant of interaction of a foot portion of the user on the physical exercise surface before the foot is off the physical exercise surface and the second time instant of the second point representative of the instant of interaction of the foot of the user with the physical exercise surface where the vertical axis passing through the center of gravity of the body of the user intersects a portion of contact between the foot and the physical exercise surface. 9. The method according to claim 5 , wherein the step of (b) determining further comprises a step of determining, by the data processing unit, a further time instant of a further third point of the periodic trend of the magnitude variable over time, the further time instant of the further third point being representative of an instant of interaction of a portion of a previous foot of the user with the physical exercise surface, before the previous foot is off the physical exercise surface. 10. The method according to claim 9 , wherein the step of (c) determining comprises steps of: calculating, by the data processing unit, a further time difference between the further third time instant of the further third point and the first time instant of the first point, the further third point and the first point being related to different feet; providing, by the data processing unit, an indication of a phase of flight between different feet during the run of the user as a function of the further time difference determined. 11. The method according to claim 5 , wherein the step of (c) determining comprises steps of: calculating, by the data processing unit, a further time difference between the third time instant of the third point and the first time instant of the first point, the third point and the first point being related to the same foot, but belonging to two successive periods relating to the foot of the trend over time of the magnitude variable over time; providing, by the data processing unit, an indication of a phase of flight of the foot during a run of the user as a function of the further time difference determined. 12. T