A vehicle can include a base assembly, a rack assembly, and a processing system. The base assembly can include a platform, a plurality of wheels and a motor for driving at least one of the plurality of wheels. The rack assembly can include a storage shelf connected to the base assembly through a coupling, which includes a bearing assembly enabling the storage shelf to rotate with respect to the platform. The processing system can be configured to communicatively couple with the rack assembly and include one or more processors configured to: determine a location of a target good; cause the storage shelf to move based on the determined location.

The disclosure generally pertains to systems and methods for assisting a customer retrieve a package from an autonomous vehicle. In an example procedure, the autonomous vehicle may detect the customer waiting at a first spot and may determine that the first spot is unsuitable/unsafe for the customer to retrieve a package from a locked compartment in the autonomous vehicle. The autonomous vehicle may therefore instruct the customer to move to a second spot that is safer and closer to the compartment and may then execute an authentication procedure to authenticate the customer and unlock a door of the compartment. In an alternative approach, the autonomous vehicle may travel to a parking spot that is safer and closer to where the customer is waiting (rather than instructing the customer to move) before authenticating and unlocking the door of the compartment to allow the customer to retrieve the package.

A trailer for carrying plate glass has an elongated deck and an elongated rigid beam that extends above the deck. The beam supports plate glass transported by the trailer. The deck and the beam may be made from aluminum.

An autonomous delivery system for a vehicle is described and includes a plurality of cubbies for retaining items for delivery to users, wherein each of the cubbies comprises a door for selectively enabling access to contents of the cubby, wherein each of the doors comprises a selectively transparent display and wherein upon arrival at a delivery destination, the selectively transparent displays communicate to a recipient associated with the delivery destination in which one of the cubbies a delivery associated with the recipient is retained; and an authentication system for authenticating the recipient and, subsequent to successful authentication of the recipient, permitting access to contents of the one of the cubbies in which the delivery associated with the recipient is retained.

Provided herein is an autonomous or semi-autonomous vehicle fleet comprising a plurality of autonomous or semi-autonomous vehicles coordinated by a fleet management module. Each vehicle may be configured to receive a modular unit, wherein the modular unit is configured to secure a consumer product.

An electrical system for a mobile power generation device and a mobile power generation device are disclosed. The electrical system includes an electrical cabin and a generator switch cabinet located inside the electrical cabin and including a generator switch device, the generator switch device being configured to connect or disconnect the generator of the mobile power generation device from an external load, the generator switch cabinet further includes a first output end configured to be electrically connected to the external load through a connection conductor, the first output end includes a connection terminal or a connector, the electrical cabin includes a first bottom plate, the generator switch cabinet is arranged on the first bottom plate, and the first bottom plate includes a first hollow portion, and an orthographic projection of the generator switch cabinet on the first bottom plate is at least partially overlapped with the first hollow portion.

Cot fastening systems (2) which fix and hold an emergency cot (14) to a crash stable cot fastener track (12) provided within an emergency vehicle (8). The track (12) has a longitudinal length with front (85) and back ends (80), open side rails (28, 30) longitudinally extending between the ends, and a channel (86, 88) centrally located between the rails. The side rails (28, 30) align, accommodate and guide a forward fixture (4) of the cot towards the front end (85) as the cot (14) is rolled within the vehicle to retain the forward fixture (4) adjacent the front end (85) at least vertically and laterally. The channel (86, 88) accommodates and retains a rearward fixture (6) adjacent the back end (80) at least vertically and laterally. A securing mechanism (70,102) releasably prevents removal of the forward fixture (4) from the open side rails and removal of the rearward fixture (6) from the channel (86, 88).

An electric vehicle is in a fleet. A first electric vehicle includes one or more components that have unique identifications and a unique public key stored at the one or more components. When a message is received by the first electric vehicle, the first and second components provide a verification of their existence. The first and second components decrypt and verify their parts of the message. A first electric vehicle processor is provided. The first electric vehicle processor provides at least one of a database, an order module, a distribution module, and a loading module.

A self-propelled vehicle for handling glass-sheet supporting racks of the type comprising: a front rack-supporting chassis provided with a substantially U-shaped rigid oblong frame having two longitudinal beams that extend horizontally and parallel to the longitudinal axis of the vehicle, on opposite sides of the vehicle midplane, and that delimit a large central slit or compartment open at the front and dimensioned to accommodate a glass-sheet supporting rack; a rear tractor unit which is firmly connected to the front rack-supporting chassis via mechanical means allowing the rack-supporting chassis to move vertically with respect to the tractor unit; a lifting apparatus Adapted to vary, on command, the height from the ground of the rigid oblong frame of the rack-supporting chassis; and an electronic vehicle-load detecting apparatus which is adapted to detect the geometric and/or structural features of the glass-sheet supporting rack during insertion into the central slit or compartment of the rack-supporting chassis.

A transport trailer and a method for transporting an oversize load are provided. In one nonlimiting example, the transport trailer includes a trailer. The trailer includes an elongated body that extends in a length direction and that has an upper base surface. A support assembly is configured to support the oversize load and is pivotably coupled to the trailer to move between a first position and a second position. In the first position, the support assembly extends over the upper base surface and beyond the trailer in a width direction that is transverse to the length direction to define a wide load overhang that extends beyond the trailer in the width direction. In the second position, the support assembly is positioned at an incline relative to the first position to one of reduce and eliminate the wide load overhang.