Container adapted for cargo or personnel transport, the container being substantially prismatic, cylindrical or cubic in shape, wherein the container comprises: an internal surface and an external surface, a rigid frame, which defines a plurality of container faces, wherein the confluence of two or more of said container faces define edge portions being substantially chamfered, and one or more shock absorbing corner protectors adapted for being mounted on the edge portions, characterized in that the edge portions of the rigid frame comprise one or more beams arranged substantially in parallel to the direction of the confluence of two container faces, and the inner face of the corner protectors comprise at least a flange adapted for fitting in the one or more beams of the edge portions, such that the corner protectors substantially protrude from the external surface.

Container adapted for cargo or personnel transport, the container being substantially prismatic, cylindrical or cubic in shape, wherein the container comprises: an internal surface and an external surface, a rigid frame, which defines a plurality of container faces, wherein the confluence of two or more of said container faces define edge portions being substantially chamfered, and one or more shock absorbing corner protectors adapted for being mounted on the edge portions, characterized in that the edge portions of the rigid frame comprise one or more beams arranged substantially in parallel to the direction of the confluence of two container faces, and the inner face of the corner protectors comprise at least a flange adapted for fitting in the one or more beams of the edge portions, such that the corner protectors substantially protrude from the external surface.

Methods perform one or more dispatched medical logistics operations using a modular autonomous bot apparatus assembly and a dispatch server where the operations are related to a diagnosis kit for treating a patient. The MAM of the bot receives a dispatch command, verifies compatibility of the bot assembly with the dispatched operation(s), receives a diagnosis kit in the CSS, has the MAM autonomously causing the MB to move to a destination location while notifying the authorized delivery recipient for the diagnosis kit of the approaching delivery. With appropriate authentication input received, the MAM coordinates with the CSS to provide access to the kit, monitor unloading of the kit, provide instructional information on use of the kit, and autonomously cause the MB to return to the original location with a return item related to the diagnosis kit with notification to personnel at the medical entity about the return item.

Methods perform one or more dispatched medical logistics operations using a modular autonomous bot apparatus assembly and a dispatch server where the operations are related to a diagnosis kit for treating a patient. The MAM of the bot receives a dispatch command, verifies compatibility of the bot assembly with the dispatched operation(s), receives a diagnosis kit in the CSS, has the MAM autonomously causing the MB to move to a destination location while notifying the authorized delivery recipient for the diagnosis kit of the approaching delivery. With appropriate authentication input received, the MAM coordinates with the CSS to provide access to the kit, monitor unloading of the kit, provide instructional information on use of the kit, and autonomously cause the MB to return to the original location with a return item related to the diagnosis kit with notification to personnel at the medical entity about the return item.

A transportable slurry box includes a structure comprising an interior to contain a cuttings slurry; a door movable between a closed position and an open position to provide access to the interior of the structure, wherein the door is located within a top surface of the transportable slurry box; a mechanical bay in the structure; and a heating unit removably mounted within the mechanical bay of the transportable slurry box for heating the cuttings slurry within the interior.

A modular mobility base for a modular autonomous bot apparatus transporting an item being shipped including a mobile base platform, a component alignment interface, a mobility controller, a propulsion and steering system, and sensors. The component alignment interface provides an alignment channel into which another modular component can be placed and secured on the platform. The mobility controller generates propulsion control signals for controlling speed of the modular mobility base and steering control signals for navigation of the modular mobility base. The propulsion system is connected to the platform and responsive to the propulsion control signal. The steering system is connected to the mobile base platform and is responsive to the steering control signal to cause changes to directional movement of the modular mobility base. The sensors are disposed on the platform provide feedback sensor data to the mobility controller about a condition of the modular mobility base.

A modular mobility base for a modular autonomous bot apparatus transporting an item being shipped including a mobile base platform, a component alignment interface, a mobility controller, a propulsion and steering system, and sensors. The component alignment interface provides an alignment channel into which another modular component can be placed and secured on the platform. The mobility controller generates propulsion control signals for controlling speed of the modular mobility base and steering control signals for navigation of the modular mobility base. The propulsion system is connected to the platform and responsive to the propulsion control signal. The steering system is connected to the mobile base platform and is responsive to the steering control signal to cause changes to directional movement of the modular mobility base. The sensors are disposed on the platform provide feedback sensor data to the mobility controller about a condition of the modular mobility base.

A detachable modular mobile autonomy module (MAM) for a modular autonomous bot apparatus includes a housing with latching points, an autonomous controller, location circuitry, external sensors monitoring an environment external to the MAM and providing sensor data to the controller, multi-element light panels on the housing driven by the controller; and a modular component power and data bus. The bus has a bottom side modular component electronics interface disposed on the housing that mates to a corresponding interface on another proximately-attached modular component of the bot. The MAM receives sensor data from the external sensors, receives outside sensor data from additional sensors disposed on a mobility unit of the bot, generates steering and propulsion control output signals based on location data from the location circuitry, external sensor data, mobility unit sensor data, and destination information data maintained by the controller, and generates transport and delivery information for the light panels.

A detachable modular mobile autonomy module (MAM) for a modular autonomous bot apparatus includes a housing with latching points, an autonomous controller, location circuitry, external sensors monitoring an environment external to the MAM and providing sensor data to the controller, multi-element light panels on the housing driven by the controller; and a modular component power and data bus. The bus has a bottom side modular component electronics interface disposed on the housing that mates to a corresponding interface on another proximately-attached modular component of the bot. The MAM receives sensor data from the external sensors, receives outside sensor data from additional sensors disposed on a mobility unit of the bot, generates steering and propulsion control output signals based on location data from the location circuitry, external sensor data, mobility unit sensor data, and destination information data maintained by the controller, and generates transport and delivery information for the light panels.

A transportable container includes: a container, wherein the container comprises: two sidewalls; a front wall; and a floor; and a mating assembly, wherein the mating assembly is attached to the container and comprises: two or more rails secured to an underneath plane of the floor, wherein the two or more rails matingly engage with two or more hoist rails of a roll-off truck; two or more rear rollers; and a loading assembly. The mating assembly and the loading assembly can be attached to the container after the container has been transported from a first location to a second location. The container can thus, be re-purposed for loading, transporting, and unloading via a roll-off truck. The container can be loaded, transported, and unloaded via a cable/winch system or a hook/lift system of the roll-off truck.