Wiper blade with electromagnetic command

What is claimed is: 1. A wiper blade for a surface of a type with a dual curvature, said wiper blade comprising: a rigid rod having a fixed predetermined shape, a flexible rod bearing a flexible blade element and secured at at least one point to the rigid rod, the flexible rod being flexible relative to the rigid rod and configured to assume at least a first shape generally conforming to the shape of the rigid rod and a second shape generally conforming to a curvature of the surface, means for applying a different independently controlled, amount of pressing force to individual ones of at least two points of said flexible blade element in a direction Z mostly normal to the surface, means for varying the different pressing forces over time, between pre-chosen positive and negative limit values, and means for commanding the different pressing forces, wherein the means for varying the different amounts of independently controlled pressing forces over time are electromagnetic means comprising polarized magnets incorporated into either the rigid rod or the flexible rod, on the side facing the other rod, said other rod comprising, facing each of these magnets, a controllable electromagnet, at least one passive electromagnet positioned between control electromagnets and having a coil; a polarized magnet disposed on the rod facing the passive electromagnet for each of the at least one passive electromagnet; and means for measuring the current flowing through each coil of the passive electromagnets at each moment. 2. The wiper blade as claimed in claim 1 , wherein each of the electromagnets comprises a soft iron core surrounded by a coil of conducting wire. 3. The wiper blade as claimed in claim 1 , wherein the rigid rod, the flexible rod and the blade element are positioned in one and the same plane perpendicular to the main plane XY of the surface. 4. The wiper blade as claimed in claim 1 , further comprising eight polarized magnets positioned at uniform longitudinal intervals along the flexible rod. 5. The wiper blade as claimed in claim 1 , further comprising means for pressing the flexible rod firmly against the rigid rod when the electromagnets are not operating. 6. A windshield wiper comprising a driving and suspension arm, and a wiper blade, secured to one end of said suspension arm, the wiper blade comprising: a rigid rod having a fixed predetermined shape, a flexible rod bearing a flexible blade element and secured at at least one point to the rigid rod, the flexible rod being flexible relative to the rigid rod and configured to assume at least a first shape generally conforming to the shape of the rigid rod and a second shape generally conforming to a curvature of the surface, means for applying a different, independently controlled, amount of pressing force to individual ones of at least two points of said flexible blade element in a direction Z mostly normal to a surface, means of varying the different amounts of independently controlled pressing forces over time, between pre-chosen positive and negative limit values, and means for commanding the different pressing forces, wherein the means for varying the different amounts of independently controlled pressing forces over time are electromagnetic means comprising polarized magnets incorporated into either the rigid rod or the flexible rod, on the side facing the other rod, said other rod comprising, facing each of these magnets, a controllable electromagnet, at least one passive electromagnet positioned between control electromagnets and having a coil; a polarized magnet disposed on the rod facing the passive electromagnet for each of the at least one passive electromagnet; and means for measuring the current flowing through each coil of the passive electromagnets at each moment. 7. The windshield wiper as claimed in claim 6 , wherein the means for varying the different pressing forces over time further comprises control electronics for controlling the electromagnets, including a processor and a memory in which control logic is stored, the control electronics also controlling a windshield wiper motor. 8. The windshield wiper as claimed in claim 6 , wherein the driving and suspension arm comprises a means of immobilization in a plane situated a pre-chosen distance D away from a plane of the surface. 9. A method of controlling a windshield wiper, the windshield wiper comprising: a driving and suspension arm, and a wiper blade secured to one end of said suspension arm, the wiper blade comprising: a rigid rod having a fixed predetermined shape, a flexible rod bearing a flexible blade element and secured at at least one point to the rigid rod, the flexible rod being flexible relative to the rigid rod and configured to assume at least a first shape generally conforming to the shape of the rigid rod and a second shape generally conforming to a curvature of the surface, means for applying a different, independently controlled, amount of pressing force to individual ones of at least two points of said flexible blade element in a direction Z mostly normal to a surface, the windshield wiper further comprising: means for varying the different amounts of independently controlled pressing forces over time, between pre-chosen positive and negative limit values, and means for commanding the different pressing forces, wherein the means for varying the different amounts of independently controlled pressing forces over time comprise elements positioned facing one another on the rigid or flexible rods, wherein the means for varying the different amounts of independently controlled pressing forces over time are electromagnetic means comprising polarized magnets incorporated into either the rigid rod or the flexible rod, on the side facing the other rod, said other rod comprising, facing each of these magnets, a controllable electromagnet, said means for varying the different amounts of independently controlled pressing forces over time further comprising control electronics for controlling the controllable electromagnets, including a processor and a memory in which control logic is stored, these electronics also controlling a windshield wiper motor, wherein the method comprises: in a wiping phase, operating at least one of the controllable electromagnets at each moment in such a way that the polarized magnet and the controllable electromagnet facing one another repel one another, thereby causing the flexible rod to assume the second position; and in a transition phase, operating the controllable electromagnets in such a way as to attract the polarized magnets situated on the flexible rod facing them, thereby causing the flexible rod to assume the first position, and moving the suspension and driving arm over a storage position. 10. The method as claimed in claim 9 , wherein the windshield wiper further comprises passive electromagnets, the method further comprising: measuring a current flowing through the passive electromagnets, storing these measurements in memory, and calculating a distance between the flexible rod and the rigid rod at at least one point corresponding to a pairing formed of a passive electromagnet and of a polarized magnet facing it. 11. The method as claimed in claim 9 further comprising during at least one moment in the wiping phase, commanding at least some of the controllable electromagnets to press or to lift, based on a comparison between an angular position of the arm at this moment and a pre-stored wiping pattern, and comprising for each said angular position of the wiper blade in its wiping zone A on the window, which controllable electromagnets need to lift the blade element.