Progressive spectacle lens

The invention claimed is: 1. A spectacle lens comprising: a central viewing zone configured for distance vision and having a refracting power providing a first stable power region; a lower viewing zone configured for near vision and having a refracting power providing a second stable power region; two peripheral vision zones having a refracting power providing a third stable power region and a fourth stable power region, respectively; and an upper viewing zone having a refracting power providing a fifth stable power region, wherein each of the second, third, fourth and fifth stable power regions provide refracting power greater than the refracting power provided by the first stable power region, wherein the central viewing zone is arranged between the lower viewing zone and the upper viewing zone, and wherein the upper viewing zone is configured for intermediate vision. 2. The spectacle lens according to claim 1 , wherein the refracting power providing the second stable power region is +1.00 D to +4.00 D greater than the refracting power providing the first stable power region. 3. The spectacle lens according to claim 1 , wherein the refracting power providing the second stable power region is +1.50 D to +2.50 D greater than the refracting power providing the first stable power region. 4. The spectacle lens according to claim 1 , wherein the refracting power of the third and fourth stable power regions is +1.00 D to +3.50 D greater than the refracting power providing the first stable power region. 5. The spectacle lens according to claim 1 , wherein the refracting power of the third and fourth stable power regions is +1.50 D to +2.00 D greater than the refracting power providing the first stable power region. 6. The spectacle lens according to claim 1 , wherein the refracting power providing the fifth stable power region is +0.50 D to +2.00 D greater than the refracting power providing the first stable power region. 7. The spectacle lens according to claim 1 , wherein the refracting power providing the fifth stable power region is +0.75 D to +1.50 D greater than the refracting power providing the first stable power region. 8. The spectacle lens according to claim 1 , wherein a difference between the refracting power providing the second stable power region and the refracting power providing the first stable power region exceeds the difference between the refracting power providing the third and fourth stable power regions and the refracting power providing the first stable power region by +0.50 D or less. 9. The spectacle lens according to claim 1 , wherein a difference between the refracting power providing the second stable power region and the refracting power providing the first stable power region and the difference between the respective refracting power providing the third and fourth stable power regions and the refracting power providing the first stable power region is +0.50 D or less. 10. The spectacle lens according to claim 1 , wherein a difference between the refracting power providing the second stable power region and the refracting power providing the first stable power region and the difference between the refracting power providing the third and fourth stable power regions and the refracting power providing the first stable power region exceed the difference between the refracting power providing the fifth stable power region and the refracting power providing the first stable power region. 11. The spectacle lens according to claim 1 , wherein the refracting power providing the second stable power region and the refracting power providing the third and fourth stable power regions are fully reached at a first distance from a center of a surface of the spectacle lens. 12. The spectacle lens according to claim 11 , wherein the refracting power providing the fifth stable power region is fully reached at a second distance from the center of the surface of the spectacle lens, and wherein the first distance exceeds the second distance. 13. A series of spectacle lenses, each spectacle lens in the series being configured to have: a central viewing zone configured for distance vision and having a refracting power providing a first stable power region; a lower viewing zone configured for near vision and having a refracting power providing a second stable power region; two peripheral vision zones having a refracting power providing a third stable power region and a fourth stable power region, respectively; and an upper viewing zone having a refracting power providing a fifth stable power region, wherein each of the second, third, fourth and fifth stable power regions provide refracting power greater than the refracting power provided by the first stable power region, wherein the central viewing zone is arranged between the lower viewing zone and the upper viewing zone wherein a subsequent spectacle lens in the series comprises peripheral portions surrounding the central viewing zone having a range of refracting powers greater than the refracting power providing the first stable power region, and wherein at least one of the second, third, fourth and fifth refracting powers is higher than the corresponding refracting powers of a preceding spectacle lens in the series, while the other refracting powers are equal or higher than the corresponding refracting powers of the preceding spectacle lens in the series. 14. The series of the spectacle lenses according to claim 13 , wherein a difference between the second refracting power and the first refracting power of the subsequent spectacle lens in the series is incremented by +0.25 D with respect to the difference between the second refracting power and the first refracting power of the preceding spectacle lens in the series. 15. The series of the spectacle lenses according to claim 13 , wherein a difference between the third refracting power and/or the fourth refracting power and the first power of the subsequent spectacle lens in the series is maintained or incremented by +0.25 D with respect to the difference between the third refracting power and/or the fourth refracting power and the first power of the preceding spectacle lens in the series. 16. The series of the spectacle lenses according to claim 13 , wherein a difference between the fifth refracting power and the first power of the subsequent spectacle lens in the series is maintained or incremented by +0.25 D with respect to the difference between the fifth refracting power and the first refracting power of the preceding spectacle lens in the series. 17. A method for providing, with a computer, a design of a spectacle lens for the purpose of manufacturing the spectacle lens based on the design, the spectacle lens having: a central viewing zone configured for distance vision and having a first refracting power providing a first stable power region; a lower viewing zone configured for near vision and having a refracting power providing a second stable power region; and two peripheral vision zones having a refracting power providing a third stable power region and a fourth stable power region, respectively, the method comprising: arranging the central viewing zone between the lower viewing zone and an upper viewing zone; and providing the upper viewing zone having a refracting power providing a fifth stable power region, wherein each of the second, third, fourth and fifth stable power regions provide refracting power greater than the refracting power provided by the first stable power region, wherein the upper viewing zone is configured for intermedi