Docking station for autonomous mobile robots

What is claimed is: 1. A docking station for a robotic lawnmower, the docking station comprising: a base; an electrical connector above the base, the electrical connector positioned along a longitudinal axis of the docking station; a central guide member positioned on the base and along the longitudinal axis, the central guide member comprising: a right lateral surface extending away from the longitudinal axis and toward the electrical connector from a first end portion proximate the longitudinal axis to a second end portion, and a left lateral surface extending away from the longitudinal axis and toward the electrical connector from a first end portion proximate the longitudinal axis to a second end portion, wherein a maximum width of the central guide member is between 90% and 100% of a minimum width between wheels of the robotic lawnmower; a right lateral guide member positioned on the base and adjacent to a right edge of the base, the right lateral guide member and the central guide member at least partially defining a right channel positioned between the right lateral guide member and the central guide member and extending along the base; and a left lateral guide member positioned on the base and adjacent to a left edge of the base, the left lateral guide member and the central guide member at least partially defining a left channel positioned between the left lateral guide member and the central guide member and extending along the base, wherein the central guide member is positioned between the right lateral guide member and the left lateral guide member. 2. The docking station of claim 1 , wherein an angle between the right lateral surface and the longitudinal axis is between 15 and 45 degrees. 3. The docking station of claim 1 , wherein the central guide member comprises a rearward surface extending from proximate the second end portion of the right lateral surface to proximate the second end portion of the left lateral surface, the rearward surface defining a plane substantially perpendicular to the longitudinal axis. 4. The docking station of claim 1 , further comprising a plurality of elongate support members extending downwardly from the base, a first of the plurality of elongate support members being positioned along a front-right portion of the base, a second of the plurality of elongate support members being positioned along a front-left portion of the base, a third of the plurality of elongate support members being positioned along a rear-right portion of the base, and a fourth of the plurality of elongate support members being positioned along a rear-left portion of the base. 5. The docking station of claim 4 , wherein a perimeter of the base is substantially rectangular, and the first, second, third, and fourth of the plurality of elongate support members are positioned proximate first, second, third, and fourth corners of the perimeter of the base, respectively. 6. The docking station of claim 1 , wherein the central guide member is substantially symmetric about the longitudinal axis. 7. The docking station of claim 1 , wherein the right lateral guide member and the left lateral guide member are symmetric to one another about the longitudinal axis. 8. The docking station of claim 1 , further comprising a backstop extending vertically from the base, wherein the electrical connector is positioned along a front facing surface of the backstop. 9. The docking station of claim 8 , further comprising a beacon for emitting a radiofrequency signal, the beacon being positioned on top of the backstop. 10. The docking station of claim 8 , wherein the front facing surface of the backstop extends along a plane perpendicular to a plane along which a top surface of the base extends. 11. The docking station of claim 1 , wherein: the right lateral guide member comprises a front curved surface extending laterally toward the longitudinal axis away from the right edge of the base; and the left lateral guide member comprises a front curved surface extending laterally toward the longitudinal axis away from the left edge of the base. 12. The docking station of claim 11 , wherein: the right lateral guide member comprises a lateral planar surface extending rearward from the front curved surface of the right lateral guide member toward the electrical connector; and the left lateral guide member comprises a lateral planar surface extending rearward from the front curved surface of the left lateral guide member toward the electrical connector. 13. The docking station of claim 11 , wherein the front curved surface of the right lateral guide member and the front curved surface of the left lateral guide member extend vertically from the base. 14. The docking station of claim 1 , wherein: the right lateral guide member comprises a rearward facing planar surface extending laterally from proximate the right edge of the base toward the longitudinal axis; and the left lateral guide member comprises a rearward facing planar surface extending laterally from proximate the left edge of the base toward the longitudinal axis. 15. The docking station of claim 14 , wherein a backstop of the docking station and the rearward facing surface of the right lateral guide member at least partially define a rearward right channel extending from a central collection well to the right edge of the base, and the backstop and the rearward facing surface of the left lateral guide member at least partially define a rearward left channel extending from the central collection well to the left edge of the base. 16. The docking station of claim 1 , wherein a distance between a forwardmost portion of the central guide member and a forwardmost portion of the base is 20% to 40% of an overall length of the docking station. 17. The docking station of claim 1 , wherein a maximum width between the right lateral surface of the central guide member and the left lateral surface of the central guide member is between 40% and 60% of an overall width of the docking station. 18. The docking station of claim 1 , wherein an overall width of the docking station is between 100% and 125% of an overall width of the robotic lawnmower. 19. A system comprising: a docking station comprising an electrical connector configured to interface with an electrical connector of a robotic lawnmower, the docking station comprising a guide mechanism configured to contact a right portion of a left wheel assembly of the robotic lawnmower to move the left wheel assembly leftward such that the electrical connector of the robotic lawnmower aligns with the electrical connector of the docking station, and contact a left portion of a right wheel assembly of the robotic lawnmower to move the right wheel assembly rightward such that the electrical connector of the robotic lawnmower aligns with the electrical connector of the docking station. 20. A method of docking a robotic lawnmower with a docking station, the method comprising: navigating the robotic lawnmower about a mowable area to mow the mowable area based on detecting radiofrequency signals emitted by a plurality of beacons; and docking the robotic lawnmower with the docking station, wherein docking the robotic lawnmower comprises: determining a heading of the robotic lawnmower relative to the docking station based on detecting a radiofrequency signal emitted by a beacon positioned on the docking station, and navigating the robotic lawnmower toward the docking station based on the determined heading. 21. Th