Sectorized adaptive screen and driver assistance system comprising such an adaptive screen

The invention claimed is: 1. An adaptive screen comprising at least one liquid crystal shutter, wherein the at least one liquid crystal shutter comprises at least two active zones which are addressed by a control signal which permits the switchover of the at least one liquid crystal shutter between a passing configuration, in which a transmittance is equal to a maximum value, and a blocking configuration, in which the transmittance is equal to a minimum value, wherein a principal active zone covers a surface area of the adaptive screen which is equal to or lower than 60% of the surface area of the adaptive screen, in order to reduce the response time of the principal active zone, wherein the switching frequency of the at least one liquid crystal shutter of the principal active zone is equal to or greater than 200 Hz, wherein the adaptive screen comprises electrical conductors which are electrically connected to electrodes via at least one electrical connection interface, wherein each electrical connection interface is in contact with an active zone, and the contact between the electrical connection interface and the active zone extends over the length of the active zone. 2. The adaptive screen according to claim 1 , wherein the adaptive screen comprises at least three electrodes a first part of which is situated on a first side of the at least one liquid crystal shutter, and a second part of which is situated on a second side of the at least one liquid crystal shutter, wherein the electrodes permit the application of a non-zero electric field in respect of each other, for the configuration of the at least one liquid crystal shutter of each active zone in the passing or blocking configuration, wherein each active zone can be configured independently of the other active zones. 3. The adaptive screen according to claim 1 , wherein the at least one liquid crystal shutter is configured to respond to at least one control signal parameter, wherein the control signal parameter is selected from a group comprising a switching frequency, a switching phase, and a switching duty cycle. 4. The adaptive screen according to claim 1 , wherein the active zones are arranged adjacently, two-by-two, wherein each active zone extends from one edge of the adaptive screen to the other. 5. An optical protection device comprising: an adaptive screen comprising: at least one liquid crystal shutter, wherein the at least one liquid crystal shutter comprises at least two active zones which are addressed by a control signal which permits the switchover of the at least one liquid crystal shutter between a passing configuration, in which a transmittance is equal to a maximum value, and a blocking configuration, in which the transmittance is equal to a minimum value, wherein a principal active zone covers a surface area of the adaptive screen which is equal to or lower than 60% of the surface area of the adaptive screen, in order to reduce the response time of the principal active zone, wherein the switching frequency of the at least one liquid crystal shutter of the principal active zone is equal to or greater than 200 Hz, and a support designed to maintain the adaptive screen in front of the eyes of an individual wearing the optical protection device, wherein the principal active zone of the adaptive screen is positioned in a central zone of the adaptive screen and extends laterally from one edge of the adaptive screen to the other, wherein the adaptive screen comprises electrical conductors which are electrically connected to electrodes via at least one electrical connection interface, wherein each electrical connection interface is in contact with an active zone, and the contact between the electrical connection interface and the active zone extends over the length of the active zone. 6. The optical protection device according to claim 5 , wherein the optical protection device comprises an electrical energy storage device, which is electrically connected to at least one electrical conductor, for the electrical polarization of the at least one liquid crystal shutter in at least one active zone. 7. The optical protection device according to claim 5 , wherein the at least one liquid crystal shutter comprises a liquid crystal mixture and at least one polarizer. 8. The optical protection device according to claim 5 , wherein the at least one liquid crystal shutter comprises a liquid crystal mixture with at least one dichroic and/or a chiral dopant. 9. The optical protection device according to claim 5 , wherein the optical protection device comprises a controller which is configured to generate the control signal for the switchover of the at least one liquid crystal shutter in at least one active zone between the passing configuration and the blocked configuration. 10. The optical protection device according to claim 5 , wherein the optical protection device is of a motorbike helmet type, wherein the support forms at least part of a shell of the motorbike helmet, and a visor of the motorbike helmet is formed by at least one part of the adaptive screen. 11. The optical protection device according to claim 5 , wherein the optical protection device is of a pair of spectacles type, wherein the support forms a frame of the pair of spectacles, and at least part of a lens of the spectacles is formed by the adaptive screen. 12. A driver assistance system of a motor vehicle comprising: an adaptive screen comprising: at least one liquid crystal shutter, wherein the at least one liquid crystal shutter comprises at least two active zones which are addressed by a control signal which permits the switchover of the at least one liquid crystal shutter between a passing configuration, in which a transmittance is equal to a maximum value, and a blocking configuration, in which the transmittance is equal to a minimum value, wherein a principal active zone covers a surface area of the adaptive screen which is equal to or lower than 60% of the surface area of the adaptive screen, in order to reduce the response time of the principal active zone, wherein the switching frequency of the at least one liquid crystal shutter of the principal active zone is equal to or greater than 200 Hz; and a controller for at least part of the active zones of the adaptive screen, wherein the controller is configured to generate at least one control signal for the at least one liquid crystal shutter of the adaptive screen in order to initiate the switchover of the at least one liquid crystal shutter of the corresponding active zone between the passing configuration and the blocked configuration, wherein each active zone is controlled by a control signal which is identical to or different from the control signal of the other active zones, wherein the adaptive screen comprises electrical conductors which are electrically connected to electrodes via at least one electrical connection interface, wherein each electrical connection interface is in contact with an active zone, and the contact between the electrical connection interface and the active zone extends over the length of the active zone. 13. The driver assistance system according to claim 12 , further comprising: a photodetector which is designed to detect at least one ray of light which strikes the motor vehicle from a view of the road situated to the front of the motor vehicle; and a processor which is configured to determine a luminous intensity of the ray of light, wherein the at least one control signal generated by the controller is determined based on the luminous intensity. 14. The driver assistance system according to claim 13 , wherein at least one activ