A mechanical arm designed to provide automated garbage collection with smooth, constant movement (i.e. movement that has minimal jerk/shock) thereby resulting in limited shock stress on the components and leading to high durability. The mechanical arm including a horizontal displacement system having a plurality of sections rollingly engaged to one another and a motor mounted to an immobile section for drivingly extending section in a generally horizontal orientation, a vertical displacement system having a plurality of masts rollingly engaged to one another and a motor mounted to a first mast for drivingly extending a second mast in a generally vertical orientation, and/or a grabber system having a plurality of fingers mounted to a frame and operated by a single motor.

A harvesting system includes a vertical frame, a plurality of linear robots, a plurality of cameras and a processor. The vertical frame is configured to be positioned opposite a sector to be harvested. The robots are arranged in pairs stacked vertically in the frame, each pair including first and second robots that are configured to move together along a vertical axis, to move independently of one another along a horizontal axis, and have respective first and second robot arms that are configured to approach the sector and harvest fruit. The plurality of cameras is configured to acquire images of the sector. The processor is configured to identify the fruit in the images and control the robots to harvest the fruit.

Systems, methods, and computer-readable media are disclosed for robotic picking assemblies configured to grasp multiple items. In one embodiment, an example system may include a picking assembly coupled to a vacuum system, the picking assembly having a first suction cup assembly with a first suction cup and a first sensor, and a second suction cup assembly with a second suction cup and a second sensor. The example system may include a controller configured to cause the picking assembly to grasp a plurality of items, where the plurality of items includes a first item and a second item. The controller may be further configured to cause the picking assembly to move from a first position to a second position, and cause the picking assembly to release the first item at a first time and the second item at a second time.

New mobility components are provided that can enable a vehicle to traverse difficult terrain. In a particular aspect, vehicle leg components are provided that utilize unique degrees of freedom that can facilitate mobility. In a further aspect, vehicles are provided that contain such components.

New mobility components are provided that can enable a vehicle to traverse difficult terrain. In a particular aspect, vehicle leg components are provided that utilize unique degrees of freedom that can facilitate mobility. In a further aspect, vehicles are provided that contain such components.

A robotic apparatus includes a first guide rail; an elongate support attached to the first guide rail, the elongate support being movable along the first guide rail in two directions and rotatable at each position along the first guide rail; a first limb movable along a second guide rail in the elongate support, the first limb being extendable and retractable; a second limb pivotably attached to the first limb; an end effector mount located at the second limb and rotatable at one end of the second limb; and a third guide rail attached to the elongate support to guide movement of the elongate support in the two directions that the elongate support is movable along the first guide rail; and driving mechanisms to drive movements of the robotic apparatus.

An assistive robot system includes a lifting mechanism, a movable arm assembly, a processing device, and a non-transitory, processor-readable storage medium in communication with the processing device. The processing device transmits a command to the lifting mechanism to cause the lifting mechanism to move the movable arm assembly such that a container is gripped within the movable arm assembly, transmits a first one or more signals to the movable arm assembly to cause the movable arm assembly to extend in a system longitudinal direction such that the movable arm assembly grips the container. The movable arm assembly is positioned at a release location and transmits a second one or more signals to the movable arm assembly to cause the movable arm assembly to extend in a system lateral direction such that the container gripped within the movable arm assembly is released from the movable arm assembly at the release location.

A pickup bed tool assembly includes a handle which has a first portion that slidably engages a second portion such that the handle has a telescopically adjustable length. A push bar is pivotally coupled to the handle for pushing cargo into a pickup bed. The push bar is positionable in a deployed position or a stored position. A locking unit is movably coupled to the handle. The locking unit releasably engages the push bar to retain the push bar in either the stored position or the deployed position. The locking unit is actuatable to disengage the push bar thereby facilitating the push bar to freely pivot on the handle. A hook is coupled to the handle to grapple cargo in the pickup bed for pulling the cargo out of the pickup bed.

An articulated boom having two limbs, wherein at least one of the limbs includes a first section, a second section and an electrically insulating connecting piece which connects the first section to the second section and which is rigidly connected to the first section and to the second section. The connecting piece includes glass fibers which are cast with a plastic matrix.

A self-checkout system can include a plurality of telescoped bagging arm segments moveably coupled together in an order according to respective diameters of the plurality of telescoped bagging arm segments. A scanning system can be configured to provide a characteristic of an item purchased by a user of the self-checkout system and a processor circuit can be operatively coupled to the plurality of telescoped bagging arm segments and to the scanning system, where the processor circuit can be configured to move the plurality of telescoped bagging arm segments relative to one another based on the characteristic of the item to be placed in a bag in use with the self-checkout system.