Debris evacuation for cleaning robots

What is claimed is: 1. A robotic floor cleaning system, comprising: an evacuation station configured to evacuate debris from a cleaning bin of a mobile floor cleaning robot, the evacuation station comprising a debris canister, a platform defining a suction opening, the platform arranged to receive the cleaning robot in a position in which an opening of the cleaning robot is aligned with the suction opening, an evacuation vacuum configured to draw debris from the cleaning bin, through the suction opening, and into the debris canister, a debris sensor configured to detect an amount of debris present in the debris canister, and a wireless communications system configured to communicate, to a mobile computing device, information indicative of a number of evacuation operations initiated to evacuate debris from the cleaning bin of the cleaning robot to cause the mobile computing device to present an indication of the number of evacuation operations initiated to evacuate debris from the cleaning bin of the cleaning robot. 2. The robotic floor cleaning system of claim 1 , further comprising: the cleaning robot, wherein the cleaning robot comprises the cleaning bin, wherein the cleaning bin is arranged to receive debris ingested by the cleaning robot during cleaning, and a robot vacuum configured to generate an airflow to ingest debris from a floor surface into the cleaning bin, wherein the evacuation vacuum is configured to generate a reverse airflow to pass through the cleaning bin, through the suction opening, and into the debris canister of the evacuation station, the reverse airflow carrying debris from the cleaning bin. 3. The robotic floor cleaning system of claim 2 , wherein the robot vacuum is configured to generate the airflow to ingest debris from the floor surface through the opening of the cleaning robot. 4. The robotic floor cleaning system of claim 1 , wherein the evacuation station further comprises a robot-compatibility sensor responsive to a metallic plate located proximate a base of the cleaning bin. 5. The robotic floor cleaning system of claim 4 , wherein the robot-compatibility sensor comprises an inductive sensing component. 6. The robotic floor cleaning system of claim 1 , further comprising a controller configured to determine a fullness state of the debris canister as a percentage of a volume of the debris canister that is filled with debris based on the detected amount of debris present in the debris canister, wherein the wireless communications system is further configured to cause the mobile computing device to present an indication indicative of the percentage. 7. The robotic floor cleaning system of claim 1 , wherein the debris sensor comprises at least one of: an ultrasonic sensor to detect the amount of debris in the debris canister, an optical sensor to detect the amount of debris in the debris canister, an air flow impedance sensor to detect a change in pressure of the air drawn by the evacuation vacuum, a mechanical switch responsive to the debris canister receiving a predefined volume of debris, or a motor current sensor configured to detect a change in motor current of the evacuation vacuum. 8. The robotic floor cleaning system of claim 1 , further comprising: a motor current sensor configured to detect a change in motor current of the evacuation vacuum, and a controller configured to determine an operational state of an evacuation station filter based on the detected change in motor current, wherein the wireless communications system is further configured to cause the mobile computing device to present a status indicative of the operational state of the evacuation station filter. 9. The robotic floor cleaning system of claim 1 , further comprising a controller configured to calculate a number of potential evacuation operations that can be initiated until the debris canister is full, wherein the wireless communications system is further configured to cause the mobile computing device to present a status indicative of the number of potential evacuation operations. 10. The robotic floor cleaning system of claim 1 , wherein the wireless communications system is further configured to cause the mobile computing device to present an alert indicating required maintenance of the evacuation station. 11. The robotic floor cleaning system of claim 1 , wherein the wireless communications system is further configured to cause the mobile computing device to present an alert indicating a completed evacuation status of the cleaning robot. 12. The robotic floor cleaning system of claim 1 , wherein: the debris canister comprises a disposable debris collection bag, and the wireless communications system is further configured to cause the mobile computing device to present one or more user selectable options for ordering a new debris collection bag. 13. The robotic floor cleaning system of claim 1 , wherein: the opening of the cleaning robot is on an underside of the cleaning robot, the debris canister is disposed above the evacuation vacuum, and the debris sensor is arranged outside of the debris canister. 14. A method of operating an evacuation station for a mobile floor cleaning robot, the method comprising: initiating an evacuation operation to generate an airflow to draw debris from a cleaning bin of the cleaning robot into a debris canister of the evacuation station when the cleaning robot is docked with the evacuation station; detecting an amount of debris present in the debris canister of the evacuation station; and wirelessly transmitting, from a wireless communications system of the cleaning robot to a mobile computing device, information indicative of a number of evacuation operations initiated to evacuate debris from the cleaning bin of the cleaning robot to cause the mobile computing device to present an indication of the number of evacuation operations initiated to evacuate debris from the cleaning bin of the cleaning robot. 15. The method of claim 14 , further comprising: detecting a change in motor current of an evacuation vacuum of the evacuation station; determining an operational state of an evacuation station filter based on the detected change in motor current; and wirelessly transmitting, to the mobile computing device, information indicative of the operational state of the evacuation station filter to cause the mobile computing device to present an indication of the operation state of the evacuation station filter. 16. The method of claim 14 , further comprising: calculating a number of potential evacuation operations that can be initiated until the debris canister is full, and wirelessly transmitting, to the mobile computing device, information indicative of the number of potential evacuation operations to cause the mobile computing device to present an indication of the number of potential evacuation operations. 17. The method of claim 14 , further comprising causing the mobile computing device to present an alert indicating required maintenance of the evacuation station. 18. The method of claim 14 , further comprising causing the mobile computing device to present an alert indicating a completed evacuation status of the cleaning robot. 19. The method of claim 14 , further comprising causing the mobile computing device to present one or more user selectable options for ordering a new debris collection bag for the debris canister.