Provided are embodiments of systems, devices and methods for lightweight, modular carrier rack and storage systems for vehicles, for example, carrier rack systems that may be integrated into or may be attached to a vehicle. The system may include a carrier bar and a universal mount coupled to the carrier bar. The universal mount may provide charging contacts, and one or more data transfer points.

A network of collection, charging and distribution machines collect, charge and distribute portable electrical energy storage devices. To charge, the machines employ electrical current from an external source. As demand at individual collection, charging and distribution machines increases or decreases relative to other collection, charging and distribution machines, a distribution management system initiates redistribution of portable electrical energy storage devices from one collection, charging and distribution machine to another collection, charging and distribution machine in an expeditious manner. Also, redeemable incentives are offered to users to return or exchange their portable electrical energy storage devices at selected collection, charging and distribution machines within the network to effect the redistribution.

A power assist wheelchair includes a wheel, an electric motor that drives the wheel, an encoder that detects rotation of the electric motor, and a control device that controls the electric motor. The control device includes a total torque value calculator that calculates a total torque value based upon only a detection signal of the encoder, an assist torque value calculator that calculates an assist torque value based upon an output current of the electric motor, a manual torque value calculator that calculates a manual torque value based upon a difference obtained by subtracting the assist torque value from the total torque value, and a target current determiner that determines a target current of the electric motor based upon the manual torque value.

A modular ride-on is provided that is adjustable based on the needs of the operator. The modular ride-on offers children and young adults with disabilities a higher degree of freedom and comfort over traditional mobility devices—such as wheelchairs. The modular ride-on includes a chassis configured to removably couple a plurality of adjustable modules. The independently adjustable modules include a front-end module, first and second drive modules, a seating module, a harness module, an armrest module, a footrest module, a leg support, module, a body module, and a control module.

Techniques are disclosed for systems and methods associated with locking a micromobility transit vehicle to a stationary object. A multimodal transportation system may include a docking station including a securement point, and a micromobility transit vehicle securable to the securement point of the docking station. The micromobility transit vehicle may include a storage basket and a lock cable including a first end coupled to the storage basket and a second end. The second end of the lock cable may be securable to the securement point of the docking station to lock the micromobility transit vehicle to the docking station. The storage basket may include a pin lock. The pin lock may engage a locking pin of the lock cable to lock the micromobility transit vehicle via the lock cable.

The present application describes power tier management for a battery of a light electric vehicle. In examples, a power tier of a battery may have an associated threshold power and time to exert a battery energy over the time of the power tier. Power tiers may be adjusted to lengthen or shorten an overall battery life and remaining battery life of the battery of the light electric vehicle. In an aspect, a processor may control or limit power to specific components and/or functions of the light electric vehicle to stay within or enter a determined power tier. Information may be received and processed by the processor to determine and apply one or more power tiers.

Examples of the present disclosure describe a flexible connector mechanism that may be used to form an electrical connection and/or a communication link between one or more devices. The flexible connector mechanism may comprise one or more interface components that may each comprise one or more contact portions. The interface components may be configured to be selectively coupled to one or more corresponding components of a coupleable object. The flexible connector mechanism may also comprise a flexible portion that enables the interface components to be manipulated along one or more planes or axes. The flexibility of the flexible portion may enable the interface components of the flexible connector mechanism to be adjusted into, and maintained in, an optimal (or operable) position when coupled to a coupleable object in motion.

The present disclosure provides a method for piloting an electric scooter, the electric scooter and a storage medium. The method includes: receiving a driving instruction; and in response to the driving instruction, piloting the electric scooter to a target charging device according to a navigation path at least in one of the following manners: lowering a gravity center of the electric scooter; and under a condition in which an obstacle is detected, controlling the electric scooter to avoid the obstacle or wait for a predetermined period of time.

An engagement unit for co-operation with an attachment unit in a docking and recharging system for a power assisted personal mobility vehicle having a battery accumulating electronic power to be supplied to an electric motor is provided. The engagement unit includes a first electric terminal module configured to establish an electrical connection with a second electric terminal module provided at the attachment unit; a locking means configured to secure the attachment unit when the attachment unit is in a lockable position and an actuation means of the attachment unit is fully engaged with the engagement unit; and a control module configured to receive an identification signal from an identification means provided in the attachment unit. Moreover, the attachment unit for co-operation with the engagement unit includes the second electric terminal module configured to establish the electrical connection with the first electric terminal module provided at the attachment unit.

A network of collection, charging and distribution machines collect, charge and distribute portable electrical energy storage devices (e.g., batteries, supercapacitors or ultracapacitors). To charge, the machines employ electrical current from an external source, such as the electrical grid or an electrical service of an installation location. By default, each portable electrical energy storage device is disabled from accepting a charge unless it receives authentication information from an authorized collection, charging and distribution machine, other authorized charging device, or other authorized device that transmits the authentication credentials. Also, by default, each portable electrical energy storage device is disabled from releasing energy unless it receives authentication information from an external device to which it will provide power, such as a vehicle or other authorization device.