A method and system for providing a cooperative automotive mobile charging infrastructure are described. In one embodiment, a method for providing a cooperative automotive mobile charging infrastructure includes receiving a notification indicating an availability for providing mobile charging to electric personal transport devices. Each notification includes an identification of an electrified vehicle to provide the mobile charging and a location of the electrified vehicle. The method includes receiving a request for mobile charging from a user and determining a candidate electrified vehicle that is available to provide mobile charging to the user. The method also includes providing the location of the candidate electrified vehicle to the user to provide mobile charging at the location to an electric personal transport device associated with the user.

A multiplexed battery set includes a plurality of battery units connected in series in such a manner that the battery units are bendable at connection positions, each of which is between each adjacent two of the battery units. Each battery unit includes a plurality of contacts. The battery set further includes a plurality of electrical wires respectively electrically connected between the contacts of each adjacent two battery units to electrically connect the battery units in series. The electrical wires has a length capable for keeping battery units in an electrically connected status when each adjacent two battery units are bent by an external force.

An apparatus for managing a shared personal mobility (PM) vehicle comprises a battery unit configured to supply power, a communication unit configured to communicate with a server and road side units, and a control unit configured to determine whether to manage a PM vehicle based on at least one of a position, a position change, and a battery charge amount of the PM vehicle and transmit a management notification message to the server.

A detachable modular electric skateboard which comprises a board body, wheel frames arranged at the bottom of the board body and provided with wheels driven by external force to travel together with the board body and the wheel frames, a traveling suspension part detachably installed at the end of the board body, and a power supply control part arranged at the bottom of the board body and provided with a detachably-installed battery assembly, and further discloses a remote control device for controlling the electric skateboard. Through the detachable traveling suspension part and the power supply control part, the advantages of existing electric skateboards and ordinary skateboards are integrated, a user can achieve the function switching according to requirements, and the detachable modular electric skateboard can replace daily vehicles driven by manpower and perfectly shows the recreational significance of ordinary skateboards serving as sports equipment.

A rechargeable motorized personal shopping and utility cart. Designed for elderly or infirm consumers who find it difficult to pull or push a manual utility cart, particularly on inclines, the electronic shopping cart would propel itself on demand. Designed in every aspect for the ultimate in convenience, the front of the unit would also feature an easy-access swing-open door which makes the loading and unloading of the electronic shopping cart far easier, even for extra tall items.

The present disclosure includes a transportation apparatus. The apparatus comprises: a surface to receive a plurality of forces at a plurality of locations thereon; a plurality of force sensors, attached to the surface, to provide information related to the plurality of forces; a plurality of wheels beneath the surface, each of the plurality of wheels being coupled with a motor; and a controller to: determine, based on the provided information, a first plurality of forces at the plurality of locations; determine, based on the first plurality of forces, a reference distribution associated with the plurality of locations; determine, based on the provided information, a second plurality of forces; determine a target speed and a target direction of the apparatus based on the reference distribution and the second plurality of forces; and provide one or more signals to the motors based on the target speed and the target direction.

The wheeled riding device employs a frame system mounted to the bottom of the deck, independent suspension links pivotally connect to the wheel assemblies enabling four wheel independent suspensions. A centrally mounted steering and suspension pivot, provides both steering control and suspension attachment for the shock and spring. The device is controlled by the rider using body movement, and a hand held remote when electrically driven. Whether manually or electrically propelled the invention brings improvements in both steering and ride stability while riding over adverse terrain.

A self-balancing tilting vehicle comprising a rear frame section having two drive wheels and a front frame section having at least one front wheel, connected to the rear frame section such as to be tiltable about a tilt axis that extends in a length direction, the front frame section carrying a driver seat, the rear frame section comprising an electric propulsion drive for rotating the drive wheels, an electric tilting drive for tilting the front frame section about the tilting axis and a power generating unit, the front wheel being rotatable about a steering axis that extends transversely to the tilt axis, characterised in that the drive unit of the tilting vehicle is cut off well before the tilting drive.

An apparatus and method for charging movable devices like carts or trolleys. Each movable device includes a charging unit and a charging connector coupled to the charging unit, including a male plug at one end, a female socket at the other end, and two electrodes interconnected. When the devices are in a queue, the male plug of the connector of a device in the rear is connected to the female socket of the same in the front so that a plurality of movable devices are connected to each other in tandem and charged simultaneously. The method includes connecting the plurality of devices in tandem with the respective connectors so that the devices can be charged simultaneously. A plurality of movable devices can be charged simultaneously and the charging process can be simplified, thereby improving the utilization and safety of the movable devices and reducing the cost of maintenance.

An electronic apparatus to promote rider safety is provided. The electronic apparatus receives a trip plan associated with a user identifier. The trip plan includes a current travel route of a micro-mobility vehicle associated with a shared mobility service. The electronic apparatus determines incident information associated with a number of past traffic incidents on at least one portion of the current travel route. The electronic apparatus controls a display device to display an option to replace the current travel route with a safer alternate route. The electronic apparatus receives a user input that includes a selection of the displayed option. The electronic apparatus determines a discount applicable on an initial trip cost associated with the trip plan based on received user input and controls the display device to display, based on the determined discount, an incentive including a final trip cost associated the trip plan.