Abstract: A micromobility transit vehicle may include a steering assembly. The steering assembly may include a fork, a steer tube, a stiffening brace, and a stem. The steer tube may extend from the fork and be positioned to rotate within a headtube. The stiffening brace may extend from the fork and be positioned about the headtube. The stiffening brace may include a first engagement surface. The stem may be coupled to the steer tube and the stiffening brace to secure the steering assembly to the headtube. The stem may include a second engagement surface complementary to the first engagement surface and engaged with the first engagement surface to rotationally lock the stem and stiffening brace together.

Abstract: Techniques are disclosed for systems and methods associated with a cable lock assembly for a micromobility transit vehicle. A lock assembly may include a latch, an actuator, and an electric motor. The latch may be movable between a first, locking configuration securing a locking pin in place and a second, unlocking configuration disengaging the latch from the locking pin. The actuator may be coupled to the latch and movable between a plurality of positions, such as first, second, and third positions. The first position may secure the latch in the first configuration. The second position may move the latch to the second configuration. The third position may allow the latch to move between the first configuration and the second configuration. The electric motor may move the actuator between positions. A tolerance between the actuator and the latch may limit a load applied to the actuator by the latch.

Abstract: A micromobility transit vehicle may include a steering assembly. The steering assembly may include a fork, a steer tube, a stiffening brace, and a stem. The steer tube may extend from the fork and be positioned to rotate within a headtube. The stiffening brace may extend from the fork and be positioned about the headtube. The stiffening brace may include a first engagement surface. The stem may be coupled to the steer tube and the stiffening brace to secure the steering assembly to the headtube. The stem may include a second engagement surface complementary to the first engagement surface and engaged with the first engagement surface to rotationally lock the stem and stiffening brace together.

Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: Techniques related to retroreflective surface layers for micro-mobility transit vehicles are disclosed. A retroreflective surface layer may be formed over at least a portion of a component of a micro-mobility transit vehicle by forming a powder coat layer over the portion of the component and baking the powder coat layer to cure the powder coat layer. An uncured clear coat layer may be formed over the powder coat layer. The uncured clear coat layer may be impregnated with a plurality of glass beads via an air-pressure applicator. The uncured clear coat layer impregnated with the glass beads may be baked to cure the clear coat layer. The retroreflective surface layer may include the powder coat layer, clear coat layer, and the plurality of glass beads distributed within the clear coat layer. The retroreflective surface layer may reflect incident light back to its source with minimal scattering of the light.

Abstract: Techniques are disclosed for systems and methods to provide modular docking systems and rebalancing systems for micro-mobility fleet vehicles. A modular micro-mobility fleet vehicle docking system includes a base platform including a modular station body receptacle disposed on a top surface of the base platform and a modular station body including a vehicle retention system configured to secure a micro-mobility fleet vehicle to the modular station body. The modular station body includes a base platform interface disposed at a bottom surface of the modular station body that is configured to be physically secured to the base platform by the modular station body receptacle. The modular station body receptacle includes a station locking interface configured to releasably secure the modular station body to the base platform and/or an electrical interface configured to provide power to the modular station body.