Controlling articulating sensors of an autonomous vehicle

What is claimed is: 1. An autonomous vehicle, comprising: a first sensor having a first limited field of view; a second sensor having a second limited field of view; an articulation system configured to orient the first sensor and the second sensor towards regions surrounding the autonomous vehicle; a computing system that is in communication with the first sensor, the second sensor, and the articulation system, the computing system comprising: a processor; and memory that stores computer-executable instructions that, when executed by the processor, cause the processor to perform acts comprising: causing the articulation system, based on a maneuver being performed by the autonomous vehicle, to orient the first sensor towards a first region such that the first limited field of view encompasses the first region and orient the second sensor towards a second region such that the second limited field of view encompasses the second region. 2. The autonomous vehicle of claim 1 , wherein the articulation system is caused to continually orient the first sensor towards the first region and to continually orient the second sensor towards the second region as the autonomous vehicle performs at least a portion of the maneuver. 3. The autonomous vehicle of claim 1 , wherein the articulation system reorients the first sensor and the second sensor throughout performance of the maneuver by the autonomous vehicle. 4. The autonomous vehicle of claim 1 , wherein the memory further stores computer-executable instructions that, when executed by the processor, cause the processor to perform acts further comprising: determining a ranking of regions external to the autonomous vehicle based on the maneuver being performed by the autonomous vehicle, wherein the articulation system is caused to orient the first sensor and the second sensor based on the ranking of the regions. 5. The autonomous vehicle of claim 4 , wherein the memory further stores computer-executable instructions that, when executed by the processor, cause the processor to perform acts further comprising: responsive to receiving a sensor signal from the first sensor indicating that an object has entered the first limited field of view of the first sensor, determining an updated ranking of the regions external to the autonomous vehicle based on the maneuver being performed by the autonomous vehicle and the object being in the first limited field of view of the first sensor; and causing the articulation system to reorient the second sensor based on the updated rankings of the regions. 6. The autonomous vehicle of claim 4 , wherein determining the ranking of the regions external to the autonomous vehicle occurs responsive to causing the autonomous vehicle to begin to execute the maneuver. 7. The autonomous vehicle of claim 4 , wherein the ranking of the regions external to the autonomous vehicle is further determined based on a phase of the maneuver, wherein the maneuver comprises a plurality of phases. 8. The autonomous vehicle of claim 1 , wherein the first sensor is a first radar sensor and the second sensor is a second radar sensor. 9. The autonomous vehicle of claim 1 , wherein the first sensor is a first lidar sensor and the second sensor is a second lidar sensor. 10. The autonomous vehicle of claim 1 , wherein the first sensor is a first camera and the second sensor is a second camera. 11. A method performed by an autonomous vehicle, the autonomous vehicle comprising a first sensor having a first limited field of view, a second sensor having a second limited field of view, and an articulation system, the method comprising: determining a ranking of regions external to the autonomous vehicle based on whether an obstruction is detected in the first limited field of view of the first sensor or the second limited field of view of the second sensor during a maneuver being performed by the autonomous vehicle; and causing the articulation system, based on the ranking of the regions, to orient the first sensor towards a first region such that the first limited field of view encompasses the first region and orient the second sensor towards a second region such that the second limited field of view encompasses the second region. 12. The method of claim 11 , wherein the articulation system is caused to continually orient the first sensor towards the first region and to continually orient the second sensor towards the second region as the autonomous vehicle performs the maneuver. 13. The method of claim 11 , wherein the articulation system is caused to reorient the first sensor and the second sensor throughout performance of the maneuver by the autonomous vehicle. 14. The method of claim 11 , further comprising: responsive to receiving a sensor signal from the first sensor indicating that an object has entered the first limited field of view of the first sensor, determining an updated ranking of the regions external to the autonomous vehicle based on the object being in the first limited field of view of the first sensor; and causing the articulation system to reorient the second sensor based on the updated rankings of the regions. 15. The method of claim 14 , further comprising: assigning a label to the object that has entered the first limited field of view of the first sensor. 16. The method of claim 11 , wherein the ranking of the regions external to the autonomous vehicle is further determined based on a phase of the maneuver, wherein the maneuver comprises a plurality of phases. 17. An autonomous vehicle, comprising: a first sensor having a first limited field of view; a second sensor having a second limited field of view; an articulation system configured to orient the first sensor and the second sensor towards regions surrounding the autonomous vehicle; a computing system that is in communication with the first sensor, the second sensor, and the articulation system, the computing system comprising: a processor; and memory that stores computer-executable instructions that, when executed by the processor, cause the processor to perform acts comprising: causing the articulation system to orient the first sensor towards a first region such that the first limited field of view encompasses the first region and orient the second sensor towards a second region such that the second limited field of view encompasses the second region, the articulation system being caused to orient the first sensor and the second sensor based on whether an obstruction is detected in the first limited field of view of the first sensor or the second limited field of view of the second sensor during a maneuver being performed by the autonomous vehicle. 18. The autonomous vehicle of claim 17 , wherein the memory further stores computer-executable instructions that, when executed by the processor, cause the processor to perform acts further comprising: responsive to receiving a sensor signal from the first sensor indicating that an object has entered the first limited field of view of the first sensor, causing the articulation system to reorient the second sensor based on the object being in the first limited field of view of the first sensor. 19. The autonomous vehicle of claim 17 , wherein the articulation system reorients the first sensor and the second sensor throughout performance of the maneuver by the autonomous vehicle. 20. The autonomous vehicle of claim 17 , wherein the memory further stores computer-executable instructions that, when executed by the processor, cause the p