Progressive spectacle lens

The invention claimed is: 1. A spectacle lens comprising: a central viewing zone providing a first power for distance vision; a lower viewing zone providing a second power for near vision, wherein the lower viewing zone is connected to the central viewing zone by a first progressing power region having a power varying from the power of the central viewing zone to the greater power of the lower viewing zone; peripheral vision zones each providing a third power at a prescribed field angle, wherein each peripheral vision zone is connected to the central viewing zone by a second progressing power region having a power varying from the power of the central viewing zone to the greater power of each peripheral vision zone; and an upper viewing zone having a greater power than the central viewing zone providing a fourth power for intermediate vision. 2. The spectacle lens according to claim 1 , wherein the upper viewing zone is connected to the central viewing zone by a third progressing power region having a power varying from the power of the central viewing zone to the power of the upper viewing zone. 3. The spectacle lens according to claim 1 , wherein the greater power provided by the fourth power is configured to reduce an accommodative lag during intermediate vision. 4. The spectacle lens according to claim 1 , wherein the power provided by the fourth power is +0.50 D to +2.00 D greater than the first power. 5. The spectacle lens according to claim 1 , wherein the power provided by the fourth power is +0.75 D to +1.50 D greater than the first power. 6. The spectacle lens according to claim 1 , wherein the peripheral portions surrounding the central viewing zone are providing, throughout the peripheral portions, a power greater than the first power of the central viewing zone. 7. The spectacle lens according to claim 6 , wherein the peripheral portions surrounding the central viewing zone comprise the lower viewing zone, the peripheral vision zones, and the upper viewing zone. 8. The spectacle lens according to claim 1 , wherein the second power is +1.00 D to +4.00 D greater than the first power. 9. The spectacle lens according to claim 1 , wherein the second power is +1.50 D to +2.50 D greater than the first power. 10. The spectacle lens according to claim 1 , wherein the peripheral vision zones are located in a symmetrical manner along a horizontal meridian of a surface of the spectacle lens. 11. The spectacle lens according to claim 1 , wherein the third power is +1.00 D to +3.50 D greater than the first power. 12. The spectacle lens according to claim 1 , wherein the third power is +1.50 D to +2.00 D greater than the first power. 13. The spectacle lens according to claim 1 , wherein a difference between the second power and the first power exceeds the difference between the third power and the first power by +0.50 D or less. 14. The spectacle lens according to claim 1 , wherein the difference between the second power and the first power equals the difference between the third power and the first power. 15. The spectacle lens according to claim 1 , wherein the difference between the second power and the first power and the difference between the third power and the first power exceed the difference between the fourth power and the first power. 16. The spectacle lens according to claim 1 , wherein the second power and third power are fully reached at a first distance from the center of the surface. 17. The spectacle lens according to claim 16 , wherein the fourth power is fully reached at a second distance from the center of the surface, and the first distance exceeds the second distance. 18. A series of a plurality of spectacle lenses according to claim 1 , wherein a subsequent spectacle lens in the series comprises peripheral portions surrounding the central viewing zone having a range of powers greater than the first power, wherein at least one of the powers is higher than the corresponding powers of a preceding spectacle lens in the series, while the other powers are equal or higher than the corresponding powers of the preceding spectacle lens in the series. 19. The series of the spectacle lenses according to claim 18 , wherein the difference between the second power and the first power of the subsequent spectacle lens in the series is incremented by +0.25 D with respect to the difference between the second power and the first power of the preceding spectacle lens in the series. 20. The series of the spectacle lenses according to claim 18 , wherein the difference between the third 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 power and the first power of the preceding spectacle lens in the series. 21. The series of the spectacle lenses according to claim 18 , wherein the difference between the fourth 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 fourth power and the first power of the preceding spectacle lens in the series. 22. A method for providing, by a computer, a design of a spectacle lens for the purpose of using the design for a manufacture of the spectacle lens, the spectacle lens comprising: a central viewing zone providing a first power for distance vision; a lower viewing zone providing a second power for near vision, wherein the lower viewing zone is connected to the central viewing zone by a first progressing power region having a power varying from the power of the central viewing zone to the greater power of the lower viewing zone; and peripheral vision zones each providing a third power at a prescribed field angle, wherein each peripheral vision zone is connected to the central viewing zone by a second progressing power region having a power varying from the power of the central viewing zone to the greater power of each peripheral vision zone, characterized by the step of providing an upper viewing zone having a greater power than the central viewing zone, the upper viewing zone providing a fourth power for intermediate vision. 23. The method according to claim 22 , wherein the design of the spectacle lens is based on a predetermined first value for the first power for distance vision, a predetermined second value for the second power for near vision, a predetermined third value for the third power at a prescribed field angle, and a predetermined fourth value for the fourth power for intermediate vision. 24. The method according to claim 22 further comprising manufacturing the spectacle lens based on the design. 25. A program comprising instructions which, when the program is executed by a computer, cause the computer to carry out the method according to claim 22 .