A railcar loading system utilizing roller ball track assemblies, or the like, in the center to enable cargo to be moved thereover in any direction (moving cargo in/out and within the railcar). Powered movement devices (e.g., rollers, conveyors) are utilized in the center to assist in movement of cargo in/out or within the railcar. Roller track assemblies, or the like, are utilized on sides of railcar to move cargo to/from the sides. Airbags may be utilized in track assemblies and powered movement devices to raise devices up when activated. Railcar may include an air connector on each side to provide air to solenoid valve that routes air to appropriate airbags. Cargo table is used to move cargo from cargo bay to railcar. Wireless controller may be used to control railcar and table including what tracks are raised and direction cargo is to be moved (what powered movements devices are operational).

Disclosed are various embodiments for optimizing cubic utilization when loading items into a loading space. A current loading configuration of the loading space can be determined according to image data obtained by 3D sensors. Item data (e.g., volume, mass, type, dimensions, etc.) can be determined for incoming items to be loaded into the loading space. The current loading configuration and the item data can be used to determine an item sequence and optimal placement location for the next item to be loaded such that a cubic efficiency of the loading space is maximized and amount of air gaps between items is minimized. The current loading configuration can further be used to determine if a sensing system or an item loading system needs to be repositioned. Whether the next item was placed in the optimal placement can also be verified based on subsequent image data obtained by the 3D sensors.

The present disclosure is directed to a system for non-stop high-speed rail transportation having a high-speed rail car with a movable cabin, and a high-speed rail shuttle reaching a speed equivalent to that of the high-speed rail car. The system also includes a mechanical coupling between the high-speed rail car and the high-speed rail shuttle, and a transfer platform system supporting a transfer of the movable cabin from the high-speed rail car to the high-speed rail shuttle. The present disclosure is also directed to a method of non-stop high-speed rail transportation including operating a high-speed rail car at a high-speed and a high-speed rail shuttle at the high-speed alongside the high-speed rail car. The method also includes coupling the high-speed rail car to the high-speed rail shuttle, transferring a movable cabin from the high-speed rail car to the high-speed rail shuttle, and decoupling the high-speed rail shuttle from the high-speed rail shuttle.

The present disclosure is directed to a system for non-stop high-speed rail transportation having a high-speed rail car with a movable cabin, and a high-speed rail shuttle reaching a speed equivalent to that of the high-speed rail car. The system also includes a mechanical coupling between the high-speed rail car and the high-speed rail shuttle, and a transfer platform system supporting a transfer of the movable cabin from the high-speed rail car to the high-speed rail shuttle. The present disclosure is also directed to a method of non-stop high-speed rail transportation including operating a high-speed rail car at a high-speed and a high-speed rail shuttle at the high-speed alongside the high-speed rail car. The method also includes coupling the high-speed rail car to the high-speed rail shuttle, transferring a movable cabin from the high-speed rail car to the high-speed rail shuttle, and decoupling the high-speed rail shuttle from the high-speed rail shuttle.

A method of loading components into a vehicle includes the steps of opening an access door to gain access to a cabin of the vehicle, actuating a lift assembly to the open access door, securing the lift assembly to a portion of the cabin of the vehicle, and transferring the components to be loaded into the vehicle from the lift assembly to the cabin of the vehicle. The lift assembly is provided with the components to be loaded into the vehicle.

A method of loading components into a vehicle includes the steps of opening an access door to gain access to a cabin of the vehicle, actuating a lift assembly to the open access door, securing the lift assembly to a portion of the cabin of the vehicle, and transferring the components to be loaded into the vehicle from the lift assembly to the cabin of the vehicle. The lift assembly is provided with the components to be loaded into the vehicle.

A device is disclosed. The device includes an exterior conveyor and a storage area. The exterior conveyor is configured to convey baggage to and from the storage area. The baggage may be sorted to the storage area by a lateral sorter and a vertical sorter. The baggage be conveyed from a front of the storage area to a rear of the storage area by a storage area conveyor.

A device is disclosed. The device includes an exterior conveyor and a storage area. The exterior conveyor is configured to convey baggage to and from the storage area. The baggage may be sorted to the storage area by a lateral sorter and a vertical sorter. The baggage be conveyed from a front of the storage area to a rear of the storage area by a storage area conveyor.

An apparatus for loading a cargo space includes a conveyor and a stacker for stacking goods in the cargo space. The stacker is before the conveyor. In addition, a buffer conveyor is between the stacker and the conveyor to permit the uninterrupted operation of the stacker. A transfer conveyor is between the buffer conveyor and the conveyor for moving a stack from the buffer conveyor to the conveyor.

An apparatus for loading a cargo space includes a conveyor and a stacker for stacking goods in the cargo space. The stacker is before the conveyor. In addition, a buffer conveyor is between the stacker and the conveyor to permit the uninterrupted operation of the stacker. A transfer conveyor is between the buffer conveyor and the conveyor for moving a stack from the buffer conveyor to the conveyor.