Patent ID: 11927457
Assignee: DEKA PRODUCTS LIMITED PARTNERSHIP
Field: Control (Instruments)
Classification: CPC G  B | IPC G

Claim 1:
2. An autonomous delivery vehicle comprising:
a power base including two powered front wheels, two powered back wheels and an energy storage, the power base configured to move at a commanded velocity and in a commanded direction to perform a transport of at least one object;
a cargo platform including a plurality of short-range sensors, the cargo platform mechanically attached to the power base, the plurality of short-range sensors configured to collect environmental data;
a cargo container with a volume for receiving the at least one object, the cargo container mounted on top of the cargo platform;
a long-range sensor suite comprising LI DAR and one or more cameras, the long-range sensor suite mounted on top of the cargo container; and
a controller to receive data from the long-range sensor suite and the plurality of short-range sensors, the controller configured to determine the commanded velocity and the commanded direction based at least on the data, the controller configured to provide the commanded velocity and the commanded direction to the power base to complete the transport;
wherein the controller comprises a subsystem for navigating at least one substantially discontinuous surface feature (SDSF) encountered by the autonomous delivery vehicle (AV) when traveling a path over a surface, the surface including the at least one SDSF, the path including a starting point and an ending point, the subsystem comprising:
a first processor configured to access a route topology, the route topology including at least one graphing polygon including filtered point cloud data, the filtered point cloud data including labeled features, the point cloud data including a drivable margin;
a second processor configured to transform the point cloud data into a global coordinate system;
a third processor configured to determine boundaries of the at least one SDSF, the third processor creating SDSF buffers of a pre-selected size around the boundaries;
a fourth processor configured to determine which of the at least one SDSFs can be traversed based at least on at least one SDSF traversal criterion;
a fifth processor configured to create an edge/weight graph based at least on the at least one SDSF traversal criterion, the transformed point cloud data, and the route topology; and
a base controller configured to choose the path from the starting point to the ending point based at least on the edge/weight graph;
wherein said SDSF traversal criterion comprises: a width of a smoothness of the at least one SDSF; a minimum ingress distance and a minimum egress distance between the at least one SDSF and the AV; and a minimum ingress distance between the at least one SDSF and the AV that can accommodate approximately a 90° approach by the AV to the at least one SDSF.