Method for integrating a “network” antenna into a different electromagnetic medium, and associated antenna

The invention claimed is: 1. A method for incorporating an array antenna (A) in a medium (M), said array antenna comprising a plurality of radiating elements (ER T ) ensuring a progressive transition of reflectivity between the array antenna and the medium, reflectivity of each radiating element depending on at least one parameter, the reflectivity being represented by a complex number, said at least one parameter varying from one radiating element to the next, wherein the method comprises the following steps: Step 1: calculation of a path represented in the complex plane and equal to the sum of the variations of the reflectivity from one radiating element to the next radiating element; Step 2: optimization of the variation of said at least one parameter along said path calculated in the complex plane so that the equivalent radar cross-section of the array antenna is the lowest possible or that at least one characteristic of the radiation of the array antenna is reached; Step 3: determination of the different radiating elements as a function of said at least one parameter; Step 4: simulation of the overall reflectivity and/or of the radiation of the array antenna. 2. The method for incorporating an array antenna as claimed in claim 1 , characterized in that the rate of variation of said at least one parameter is minimal between the first radiating element and the next radiating element, minimal between the last radiating element and the preceding radiating element and maximal between the two radiating elements farthest away from the first radiating element and from the last radiating element. 3. The method for incorporating an array antenna as claimed in claim 1 , characterized in that said complex number representing the reflectivity comprises a real part and an imaginary part and in that the variation of the reflectivity between two radiating elements is equal to the modulus of the variations of the real and imaginary parts of the reflectivity of said radiating elements. 4. The method for incorporating an array antenna as claimed in claim 1 , characterized in that, the radiating elements being organized in an array, said at least one parameter is the pitch of the array in one direction of the space or two directions of the space. 5. The method for incorporating an array antenna as claimed in claim 1 , characterized in that, the radiating elements being metallic, said at least one parameter is a geometrical parameter of the radiating elements so that the radiating elements have different metallic surfaces. 6. The method for incorporating an array antenna as claimed in claim 1 , characterized in that said at least one parameter is a geometrical parameter of the radiating elements so that the radiating elements have different resistive surfaces. 7. The method for incorporating an array antenna as claimed in claim 1 , characterized in that said at least one parameter is a physical characteristic of a constituting element constituting the radiating elements, said constituting element being a substrate. 8. The method for incorporating an array antenna as claimed in claim 1 , characterized in that said at least one parameter is a physical characteristic of a constituting element constituting the radiating elements, said constituting element being a superstrate. 9. The method for incorporating an array antenna as claimed in claim 7 , characterized in that the physical characteristic is the relative permittivity of said constituting element. 10. The method for incorporating an array antenna as claimed in claim 7 , characterized in that the physical characteristic is the permeability of said constituting element. 11. The method for incorporating an array antenna as claimed in claim 1 , characterized in that, the radiating elements comprising a plurality of sheets of metallic patterns, said at least one parameter is the quantity or the arrangement of said sheets present in the radiating elements. 12. The method for incorporating an array antenna as claimed in claim 1 , characterized in that, the radiating elements comprising a plurality of sheets of resistive patterns, said at least one parameter is the quantity or the arrangement of said sheets present in the radiating elements. 13. The method for incorporating an array antenna as claimed in claim 1 , characterized in that, the radiating elements comprising metamaterials, said at least one parameter is the quantity of metamaterials present in the radiating elements. 14. An array antenna intended to be incorporated in a medium, said array antenna comprising a plurality of radiating elements ensuring a progressive transition of reflectivity between the array antenna and the medium, reflectivity of each radiating element depending on at least one parameter, the reflectivity being represented by a complex number, that wherein said at least one parameter varies from one radiating element to the next, the rate of variation defined by the derivative of the reflectivity in the complex plane with respect to said at least one parameter being minimal between the first radiating element and the next radiating element, minimal between the last radiating element and the preceding radiating element and maximal between the two radiating elements furthest away from the first radiating element and from the last radiating element. 15. The array antenna as claimed in claim 14 , characterized in that said at least one parameter is the pitch of the array in one direction of the space or in two directions of the space. 16. The array antenna as claimed in claim 14 , characterized in that, the radiating elements being metallic, said at least one parameter is a geometrical parameter of the radiating elements so that the radiating elements have different metallic surfaces. 17. The array antenna as claimed in claim 14 , characterized in that said at least one parameter is a geometrical parameter of the radiating elements so that the radiating elements have different resistive surfaces. 18. The array antenna as claimed in claim 14 , characterized in that said at least one parameter is a physical characteristic of a constituting element constituting the radiating elements, said constituting element being a substrate. 19. The array antenna as claimed in claim 14 , characterized in that said at least one parameter is a physical characteristic of a constituting element constituting the radiating elements, said constituting element being a superstrate. 20. The array antenna as claimed in claim 18 , characterized in that the physical characteristic is the permittivity of said constituting element. 21. The array antenna as claimed in claim 18 , characterized in that the physical characteristic is the permeability of said constituting element. 22. The array antenna as claimed in claim 14 , characterized in that, the radiating elements comprising a plurality of sheets of metallic patterns, said at least one parameter is the quantity or the arrangement of said sheets present in the radiating elements. 23. The array antenna as claimed in claim 14 , characterized in that, the radiating elements comprising a plurality of sheets of resistance patterns, said at least one parameter is the quantity or the arrangement of said sheets present in the radiating elements. 24. The array antenna as claimed in claim 14 , characterized in that, the radiating elements comprising metamaterials, said at least one parameter is the quantity of metamaterials present in th