Disclosed embodiments include power machines or loaders, and systems used on loaders, configured to augment the control of the loader to accomplish repetitive tasks. Also disclosed are methods of learning a task for augmented control of a loader, and methods of controlling a loader to perform a learned task to provide augmented control of the loader.

Disclosed embodiments include power machines or loaders, and systems used on loaders, configured to augment the control of the loader to accomplish repetitive tasks. Also disclosed are methods of learning a task for augmented control of a loader, and methods of controlling a loader to perform a learned task to provide augmented control of the loader.

An equipment loading assembly for supporting and facilitating the loading of electronic equipment from a first position (e.g., from resting on the ground) to a second position (e.g., into a truck or automobile), and the subsequent unloading of the equipment from the first position to the second position is provided. The equipment loading assembly includes an upright back support structure and a lower support structure extending laterally outward from a lower portion the upright back support structure. The upright back support structure includes one or more stops to prevent the electronic equipment from sliding in a vertical direction, and the lower support structure includes one or more front feet to prevent the electronic equipment from sliding in a horizontal direction. The loading assembly also may include a wheel support structure that enables one or more wheels to engage with a ground surface for rolling the loading assembly.

An equipment loading assembly for supporting and facilitating the loading of electronic equipment from a first position (e.g., from resting on the ground) to a second position (e.g., into a truck or automobile), and the subsequent unloading of the equipment from the first position to the second position is provided. The equipment loading assembly includes an upright back support structure and a lower support structure extending laterally outward from a lower portion the upright back support structure. The upright back support structure includes one or more stops to prevent the electronic equipment from sliding in a vertical direction, and the lower support structure includes one or more front feet to prevent the electronic equipment from sliding in a horizontal direction. The loading assembly also may include a wheel support structure that enables one or more wheels to engage with a ground surface for rolling the loading assembly.

An illustrative embodiment of a vehicle having a cargo area and a cab area is provided, wherein the cargo area may include a conveyor assembly. The conveyor assembly may include a conveyor assembly section and a pivotable conveyor assembly section. The conveyor assembly section includes at least one conveyor shelf panel which includes a support surface. The pivotable conveyor assembly section may include a bracket that supports a pivotable conveyor panel.

An illustrative embodiment of a vehicle having a cargo area and a cab area is provided, wherein the cargo area may include a conveyor assembly. The conveyor assembly may include a conveyor assembly section and a pivotable conveyor assembly section. The conveyor assembly section includes at least one conveyor shelf panel which includes a support surface. The pivotable conveyor assembly section may include a bracket that supports a pivotable conveyor panel.

An arrangement position determination method of an object, including: based on information of dimensions of a predetermined area and dimensions of a plurality of objects to be accommodated in the predetermined area stored in a storage section of a control device, searching for a position at which the object does not interfere with a boundary of the predetermined area and other objects in a first direction; and when there is no position at which the object does not interfere with the boundary and the other objects in the first direction, searching for a position at which the object does not interfere with the boundary and the other objects in the first direction at a position shifted in a second direction orthogonal to the first direction.

A modular home includes a first housing portion including a first floor, a ceiling, at least three walls, a first vertical edge of a first wall, a second vertical edge of a second wall, and an opening between a horizontal edge of the first floor, a first horizontal edge of the first ceiling, and the first and second vertical edges. The modular home further includes a second housing portion including a second floor, a ceiling, at least three walls, a third vertical edge of a third wall, a fourth vertical edge of a fourth wall, and an opening between a horizontal edge of the second floor, a second horizontal edge of the second ceiling, and the third and fourth vertical edges. The first vertical edge is coupled to the third vertical edge by a hinge, and the second vertical edge is configured to be coupled to the fourth vertical edge.

A modular robot system which may be configured to accommodate packages of varying sizes is provided. The modular robot may include a base having omni-directional wheels and cameras and sensors, one or more modular containers, and a lid, which may be releasably linked together to form a small, medium or larger units. The base may include a lifting mechanism to vertically raise the robot to a desired height in alignment with a delivery vehicle. Moreover, retractable loading arms of the vehicle may be extended from the vehicle to engage with the robot to facilitate self-loading of the robot into the delivery vehicle.

A modular robot system which may be configured to accommodate packages of varying sizes is provided. The modular robot may include a base having omni-directional wheels and cameras and sensors, one or more modular containers, and a lid, which may be releasably linked together to form a small, medium or larger units. The base may include a lifting mechanism to vertically raise the robot to a desired height in alignment with a delivery vehicle. Moreover, retractable loading arms of the vehicle may be extended from the vehicle to engage with the robot to facilitate self-loading of the robot into the delivery vehicle.