Certains contenus de cette application ne sont pas disponibles pour le moment.
Si cette situation persiste, veuillez nous contacter àObservations et contact
1. (WO2018165700) SYSTÈME ET PROCÉDÉ DE CAMÉRA DE SÉCURITÉ
Note: Texte fondé sur des processus automatiques de reconnaissance optique de caractères. Seule la version PDF a une valeur juridique

CLAIMS

1. A security camera system comprising:

a master unit having i) a digital camera for operatively monitoring said camera's field-of-view, ii) a master transceiver configured to send and receive signals, and iii) a processor adapted to control the camera and to perform radiolocation on a signal received by the master transceiver; and

at least one slave unit remotely locatable within the camera's field-of-view and having i) a sensor configured to sense a particular occurrence, ii) a light source for operatively illuminating an area, and iii) a slave transceiver configured to send a signal to the master transceiver, wherein a sensed instance of the particular occurrence causes the light source to illuminate the area and the slave transceiver to transmit a signal to the master transceiver so that the processor is able to radiolocate and focus the camera onto the area .

2. The system of claim 1, wherein the processor focuses the camera onto the area by means of digitally zooming the camera onto the radiolocated area.

3. The system of either of claims 1 or 2, wherein the processor focuses the camera onto the area by optically focusing and/or zooming a lens arrangement of the camera.

4. The system of claim 1, wherein the digital camera comprises a high-definition still or video camera.

5. The system of claim 1, wherein the master transceiver comprises a modulator-demodulator (modem) for transmission and/or reception of signals via a suitable transmission channel .

6. The system of claim 1, wherein the processor is adapted to control the camera and to perform radiolocation by means of executing a particular set of instructions.

7. The system of claim 1, wherein the slave unit comprises a slave camera configured to capture an image of the area on a sensed instance of the particular occurrence.

8. The system of claim 7, wherein the slave camera comprises a high-definition still or video digital camera.

9. The system of claim 7, wherein the slave unit is configured to transmit the image captured by the slave camera to the master unit via the slave transceiver.

10. The system of claim 1, wherein the slave transceiver comprises a modulator-demodulator (modem) for transmission and reception of signals via a suitable transmission channel.

11. The system of claim 1, wherein the sensor comprises a motion sensor and/or an activity sensor for sensing motion and/or a specific activity indicative of the particular occurrence .

12. A security camera master unit comprising:

a digital camera for operatively monitoring said camera' s field-of-view;

a master transceiver configured to send and receive signals; and

a processor adapted to control the camera and to perform radiolocation on a signal received by the master transceiver; wherein the master unit is operatively arranged in signal communication with at least one slave unit located within the camera' s field-of-view, the master transceiver responsive to a signal received from the slave unit to radiolocate and focus the camera onto an area monitored by the slave unit.

13. A security camera slave unit operatively locatable within a field-of-view of a camera of an associated master unit, the slave unit comprising:

a sensor configured to sense a particular occurrence; a light source for operatively illuminating an area; and a slave transceiver configured to send a signal to a master transceiver of the master unit, wherein a sensed instance of the particular occurrence causes the light source to illuminate the area and the slave transceiver to transmit a signal to the master transceiver so that the master unit is able to radiolocate and focus the camera onto the area.

14. A security camera method comprising the steps of: providing a master unit having i) a digital camera for operatively monitoring said camera's field-of-view, ii) a master transceiver configured to send and receive signals, and iii) a processor adapted to control the camera and to perform radiolocation on a signal received by the master transceiver; remotely locating at least one slave unit within the camera's field-of-view, said slave unit having i) a sensor configured to sense a particular occurrence, ii) a light source for operatively illuminating an area, and iii) a slave transceiver configured to send a signal to the master transceiver;

via the master and slave units, monitoring the field-of-view so that a sensed instance of the particular occurrence causes the light source to illuminate the area and the slave transceiver to transmit a signal to the master transceiver so that the processor is able to radiolocate and focus the camera onto the area.