Automatic orientation of a camera in response to sensor data

What is claimed is: 1. A computer-implemented method comprising: determining, by a camera located in a monitored property, a mapping of identities of sensors to viewing angles of the camera, the sensors being located in the monitored property at locations remote from a location of the camera; storing, by the camera and in electronic storage accessible to the camera, the mapping of identities of sensors to viewing angles of the camera; after storing the mapping of identifies of sensors to viewing angles of the camera, receiving, by the camera, sensor data from at least one of the sensors that are located in the monitored property at locations remote from the location of the camera; determining, from the received sensor data and by the camera, that an event of interest has been detected and an identity of a sensor that detected the event of interest; in response to determining that the event of interest has occurred: accessing, by the camera and from the electronic storage accessible to the camera, the mapping of identities of sensors to viewing angles of the camera; referencing, by the camera, the accessed mapping using the identity of the sensor that detected the event of interest to obtain a viewing angle of the camera appropriate for an area of the property associated with the sensor that detected the event of interest; determining, by the camera, that a current viewing angle of the camera differs from the viewing angle of the camera appropriate for the area of the property associated with the sensor that detected the event of interest; and moving, by the camera, from the current viewing angle to the viewing angle of the camera appropriate for the area of the property associated with the sensor that detected the event of interest. 2. The method of claim 1 , comprising: providing one or more images from the camera when the current viewing angle of the camera matches the viewing angle of the camera appropriate for the area of the property associated with the sensor that detected the event of interest. 3. The method of claim 1 , wherein sensor data includes information that uniquely identifies the sensor that detected the event of interest from other sensors that are located in the monitored property and information that indicates that the sensor has detected the event of interest. 4. The method of claim 1 , wherein determining, by a camera located in a monitored property, a mapping of identities of sensors to viewing angles of the camera, the sensors being located in the monitored property at locations remote from a location of the camera comprises: for each of the sensors located in the monitored property, determining a location of the sensor; for each location of a sensor, determining a viewing angle of the camera that maps to the location of the sensor; and generating for each of the sensors located in the monitored property, a mapping between an identify of the sensor and the viewing angle determined for the location of the sensor. 5. The method of claim 4 , wherein determining a location of the sensor comprises: determining the location of the sensor relative to the camera using two or more differential radio antennae and one or more signals from the sensor. 6. The method of claim 5 , wherein determining the location of the sensor relative to the camera using two or more differential radio antennae and one or more signals from the sensor comprises: determining the location of the sensor relative to the camera based on timing differences when a particular signal is received by the two or more differential radio antennae. 7. The method of claim 4 , wherein determining a location of the sensor comprises: determining a direction of the sensor relative to the camera based on a strength of one or more signal from the sensor measured by a directional antenna. 8. The method of claim 1 , wherein the sensors comprise one or more of a temperature sensor, a motion sensor, or sound sensor. 9. The method of claim 1 , wherein moving, by the camera, from the current viewing angle to the viewing angle of the camera appropriate for the area of the property associated with the sensor that detected the event of interest comprises: providing instructions to the camera to one or more of pan or tilt so that the viewing angle of the camera matches the viewing angle of the camera appropriate for the area of the property associated with the sensor that detected the event of interest. 10. The method of claim 1 , comprising: receiving sensor data from a second sensor that is located in the monitored property at a location remote from the location of the camera; determining from the sensor data from the second sensor that a second event of interest has been detected and an identity of the second sensor that detected the second event of interest; and in response to determining that the event of interest and the second event of interest have both been detected, determining to access a priority scheme to select which of the first sensor and the second sensor to cause the camera to move so that the viewing angle of the camera moves to the viewing angle mapped to the identity of the selected sensor. 11. The method of claim 10 , wherein the priority scheme is based on one or more of time of day, quality of the camera, availability of other cameras, or location of the sensor relative to the camera. 12. The method of claim 1 , comprising: determining an anticipated event based on the sensor data; determining a location that maps to the anticipated event; determining a viewing angle of the camera that maps to the location that maps to the anticipated event; and causing the viewing angle of the camera to move to the viewing angle of the camera that maps to the location that maps to the anticipated event. 13. The method of claim 1 , comprising: determining from images captured by the camera that a view of the camera is obstructed; and in response to determining from images captured by the camera that a view of the camera is obstructed, changing a viewing angle of the camera. 14. A system comprising: one or more computers and one or more storage devices storing instructions that are operable, when executed by the one or more computers, to cause the one or more computers to perform operations comprising: determining, by a camera located in a monitored property, a mapping of identities of sensors to viewing angles of the camera, the sensors being located in the monitored property at locations remote from a location of the camera; storing, by the camera and in electronic storage accessible to the camera, the mapping of identities of sensors to viewing angles of the camera; after storing the mapping of identifies of sensors to viewing angles of the camera, receiving, by the camera, sensor data from at least one of the sensors that are located in the monitored property at locations remote from the location of the camera; determining, from the received sensor data and by the camera, that an event of interest has been detected and an identity of a sensor that detected the event of interest; in response to determining that the event of interest has occurred: accessing, by the camera and from the electronic storage accessible to the camera, the mapping of identities of sensors to viewing angles of the camera; referencing, by the camera, the accessed mapping using the identity of the sensor that detected the event of interest to obtain a viewing angle of the camera appropriate for an area of the property associated with the sensor that detected the event of interest; determining, by the camera, that a current viewing angle of the