Sensor trajectory planning for a vehicle

What is claimed is: 1. A system comprising: a robotic device; a sensor connected to the robotic device, wherein the sensor is configured to move with respect to the robotic device to control a portion of an environment observable by the sensor, and wherein a parameter of the sensor is adjustable to control a quality with which the portion of the environment is scanned by the sensor; and a control system configured to: determine a sensor trajectory through which to move the sensor with respect to the robotic device while the robotic device moves along a path through the environment, wherein a plurality of portions of the environment are observable by the sensor as the sensor moves along the determined sensor trajectory; determine a plurality of candidate sequences of sensor parameter values, wherein each candidate sequence of sensor parameter values defines, for each respective portion of the plurality of portions of the environment, a candidate sensor parameter value to which the parameter of the sensor is adjustable when the sensor scans the respective portion of the environment; select, from the plurality of candidate sequences of sensor parameter values a sequence of sensor parameter values that defines, for each respective portion of the plurality of portions of the environment, a sensor parameter value with which to scan the respective portion of the environment based on an objective for which the respective portion of the environment is scanned; and as the sensor moves along the sensor trajectory, adjust the parameter of the sensor to scan each portion of the plurality of portions of the environment according to the selected sequence of sensor parameter values. 2. The system of claim 1 , wherein the control system is configured to determine each candidate sequence of sensor parameter values of the plurality of candidate sequences of sensor parameter values by: determining, for each respective portion of the environment, the candidate sensor parameter value based on (i) a candidate sensor parameter value determined for a prior portion of the environment preceding the respective portion of the environment along the determined sensor trajectory and (ii) a rate at which the parameter of the sensor is adjustable. 3. The system of claim 1 , wherein the control system is configured to determine the plurality of candidate sequences of sensor parameter values by: determining a plurality of time points along the path, wherein each time point of the plurality of time points corresponds to a different position of the robotic device along the path; for each time point of the plurality of time points, determining a plurality of candidate sensor parameter values based on (i) a rate at which the parameter of the sensor is adjustable and (ii) one or more candidate sensor parameter values at a prior time point; and determining the plurality of candidate sequences of sensor parameter values by selecting, for each time point of the plurality of time points, a corresponding sensor parameter value from the plurality of candidate sensor parameter values. 4. The system of claim 3 , wherein each time point of the plurality of time points is associated with a corresponding portion of the environment of the plurality of portions of the environment that are observable by the sensor as the sensor moves along the determined sensor trajectory. 5. The system of claim 1 , wherein the control system is configured to select the sequence of sensor parameter values by: selecting a first sensor parameter value for the respective portion of the environment from a plurality of candidate sensor parameter values defined for the respective portion of the environment by the plurality of candidate sequences of sensor parameter values; and selecting, based on the first sensor parameter value, a second sensor parameter value for a successive portion of the environment subsequent to the respective portion of the environment such that the parameter of the sensor is adjustable from the first sensor parameter value to the second sensor parameter value between respective scans of the respective portion of the environment and the successive portion of the environment. 6. The system of claim 1 , wherein the control system is further configured to: determine a plurality of objectives for which to collect sensor data as the robotic device moves along the path through the environment, wherein each respective portion of the plurality of portions of the environment is scanned to collect sensor data for one or more objectives of the plurality of determined objectives. 7. The system of claim 6 , wherein the control system is further configured to: determine a plurality of priority levels corresponding to the plurality of objectives; and select, from the plurality of candidate sequences of sensor parameter values, the sequence of sensor parameter values based on the corresponding priority level of the one or more objectives for which the respective portion of the environment is scanned. 8. The system of claim 6 , wherein the plurality of objectives comprise two or more of (i) detection of obstacles on the path through the environment, (ii) localization of the robotic device within the environment, and (iii) detection of objects of interests in regions of the environment adjacent to the path through the environment. 9. The system of claim 1 , wherein the control system is further configured to: determine, for each respective portion of the plurality of portions of the environment, conditions expected to be associated with the respective portion of the environment; and select the sequence of sensor parameter values that defines the sensor parameter value with which to scan the respective portion of the environment based on the conditions expected to be associated with the respective portion of the environment. 10. The system of claim 1 , wherein the control system is further configured to: determine, for each respective portion of the plurality of portions of the environment, expected content of the respective portion of the environment; and select the sequence of sensor parameter values that defines the sensor parameter value with which to scan the respective portion of the environment based on the expected content of the respective portion of the environment. 11. The system of claim 1 , wherein the parameter of the sensor comprise one or more of (i) a level of magnification of the sensor, (ii) a level of gain of the sensor, (iii) an exposure time of the sensor, (iv) a frame rate at which the sensor generates sensor data, (v) a resolution of the sensor, or (vi) a white balance of the sensor. 12. The system of claim 1 , wherein the objective for which the respective portion of the environment is scanned is associated with a quality of sensor data, and wherein the control system is configured to select the sequence of sensor parameter values that defines the sensor parameter value with which to scan the respective portion of the environment based on the quality of sensor data associated with the respective portion of the environment. 13. The system of claim 1 , wherein the control system is configured to determine the sensor trajectory by: determining a plurality of candidate sensor trajectories; and selecting, based on the plurality of portions of the environment to be scanned while the robotic device moves along the path through the environment, the sensor trajectory from the plurality of candidate sensor trajectories. 14. A method comprising: determining, by a control system, a sensor trajectory through which to move a sensor with respect to a robotic device while the