Systems and methods for modulation control of a camera filter device

What is claimed is: 1. A modulation control method for a filter device for avoiding flicker appearing in streamed video images before acquiring images, the method comprising: setting an exposure time to be equal or longer than an oscillating light source's period duration or to be as long as possible between two frames in an image acquisition of streamed video images; polarizing by a first polarizer incoming light to turn into polarized light with a first polarization; altering by an electro- or magneto-optic modulator coupled to the first polarizer the polarization of the light with the first polarization by an angle α to turn into light with a second polarization, the altering of the first polarization depending on a voltage or current applied to the modulator; and reducing by a second polarizer coupled to the electro- or magneto-optic modulator an amount of light with the second polarization with the remaining intensity of the outgoing light I 2 being I 2 =I 1 cos 2 β, wherein I 1 is a light intensity before passing the second polarizer and β is an angle between the polarization orientation of the light and the polarization orientation of the second polarizer. 2. The method of claim 1 , wherein the polarizing within the first polarizer is accompanied by an absorption of light with the first polarization to 0.5 of its initial intensity. 3. The method of claim 1 , wherein the altering within the electro- or magneto-optic modulator is accompanied by an absorption of light depending on a transmittance τ of a material of the electro- or magneto-optic modulator. 4. The method of claim 1 , wherein the altering of the first polarization comprises: capturing the outgoing light with a camera device with a maximal exposure time between subsequent image acquisitions; detecting an amount of captured outgoing light during an image acquisition with an auto exposure unit; and applying a voltage or current to the electro- or magneto-optic modulator by a power supply driver depending on the detected amount of captured outgoing light. 5. The method of claim 4 , wherein the voltage or current applied to the electro- or magneto-optic modulator is controlled by the auto exposure unit to alter the polarization of the light passing the electro- or magneto-optic modulator and thereby tune an amount of outgoing light. 6. The method of claim 1 , wherein the reducing the amount of light with the second polarization is accompanied by an absorption of light. 7. The method of claim 1 , wherein the light intensity is controlled by at least one of the absorption of the light with the first polarization and the light with the second polarization, step-less or step-wise. 8. The method of claim 7 , wherein during the step-wise control of the light intensity, at least one of pulse frequency and duty cycle of the respective steps is controlled. 9. An electro- or magneto-optic light intensity filter for performing a modulation control method according claim 1 , the filter comprising: a first polarizer; an electro- or magneto-optic modulator; and a second polarizer. 10. The filter device of claim 9 , wherein the electro- or magneto-optic modulator comprises a Pockels cell, Kerr cell, Liquid Crystal cell, or a cell utilizing the magneto-optic Faraday effect, the Voigt effect or the Cotton-Mouton effect. 11. The filter device of claim 9 , wherein at least one of the first polarizer comprises a linear absorptive polarizing filter or the second polarizer comprises a linear absorptive polarizing filter. 12. The filter device of claim 9 , wherein the first polarizer and the second polarizer have the same polarization orientation. 13. A camera system, comprising at least one camera device; and a filter device according to claim 9 , wherein at least one auto exposure unit is at least one of connected to or part of the at least one camera device, with the auto exposure unit being connected to a power supply driver. 14. A rear view device for a motor vehicle with a camera system according to claim 13 . 15. A filter device for avoiding flicker appearing in streamed video images before acquiring images, the filter device capable of setting an exposure time to be equal or longer than an oscillating light source's period duration or to be as long as possible between two frames in an image acquisition of streamed video images, the filter device comprising: a first polarizer configured to polarize incoming light to generate polarized light with a first polarization; an electro- or magneto-optic modulator configured to alter the polarization of the light with the first polarization by an angle α to generate light with a second polarization, the altering of the first polarization depending on a voltage or current applied to the modulator; and a second polarizer configured to reduce an amount of light with the second polarization to generate outgoing light I 2 , the remaining intensity of the outgoing light I 2 being I 2 =I 1 cos 2 β, wherein I 1 is a light intensity before passing the second polarizer and β is an angle between the polarization orientation of the light and the polarization orientation of the second polarizer. 16. The filter device of claim 15 , wherein the polarizing within the first polarizer is accompanied by an absorption of light with the first polarization to 0.5 of its initial intensity. 17. The filter device of claim 15 , wherein the altering within the electro- or magneto-optic modulator is accompanied by an absorption of light depending on a transmittance τ of a material of the electro- or magneto-optic modulator. 18. The filter device of claim 15 , wherein the altering of the first polarization comprises: capturing the outgoing light with a camera device with a maximal exposure time between subsequent image acquisitions; detecting an amount of captured outgoing light during an image acquisition with an auto exposure unit; and applying a voltage or current to the electro- or magneto-optic modulator by a power supply driver depending on the detected amount of captured outgoing light. 19. The filter device of claim 18 , wherein the voltage or current applied to the electro- or magneto-optic modulator is controlled by the auto exposure unit to alter the polarization of the light passing the electro- or magneto-optic modulator and thereby tune an amount of outgoing light. 20. The filter device of claim 15 , wherein the reducing the amount of light with the second polarization is accompanied by an absorption of light. 21. The filter device of claim 15 , wherein the light intensity is controlled by at least one of the absorption of the light with the first polarization and the light with the second polarization, step-less or step-wise. 22. The filter device of claim 21 , wherein during the step-wise control of the light intensity, at least one of pulse frequency and duty cycle of the respective steps is controlled. 23. The filter device of claim 15 , wherein the electro- or magneto-optic modulator comprises a Pockels cell, Kerr cell, Liquid Crystal cell, or a cell utilizing the magneto-optic Faraday effect, the Voigt effect or the Cotton-Mouton effect. 24. The filter device of claim 15 , wherein at least one of the first polarizer comprises a linear absorptive polarizing filter or the second polarizer comprises a linear absorptive polarizing filter. 25. The filter device of claim 15 , wherein the first polarizer and the sec