Systems and methods are disclosed herein for an interchangeable electric scooter with seating option for 2 passengers is proposed. The assembly provides various advancements including but not limited to a glossy finish, a rectangular front frame member, an aerodynamic manual brake fin, a communication device support member, floor and front panels having multiple colors and designs, On/Off digital locking system, front and back cameras, solar panel, retractable umbrella, cell phone charging spot and holder, Bluetooth connectivity, GPS enabled, smart helmet, an integrated router forming a Wi-Fi hotspot, a daytime running lamp and back lit lights, number plate, a help switch, a sound system, a camera for livestream and social media synchronization, a communication device charger, an integral GPS.

A tilting vehicle includes a frame, a right wheel and a left wheel set alongside one another, a suspension system that operatively connects the right and left wheels to the frame, and an electronic control system operatively connected to the suspension system; the suspension system includes a first extensible assembly between the right wheel and the frame, and being designed to exert a thrust action between the right wheel and the frame to control tilting of the vehicle; the suspension system including a second extensible assembly between the left wheel and the frame, and being designed to exert a thrust action between the left wheel and the frame, to control tilting of the vehicle; the vehicle includes an actuation interface having an exposed surface operatively connected to the control system; the actuation interface is designed to be operated by a driver to control tilting of the vehicle upon command.

A tilting vehicle includes a frame, a right wheel and a left wheel set alongside one another, a suspension system that operatively connects the right and left wheels to the frame, and an electronic control system operatively connected to the suspension system; the suspension system includes a first extensible assembly between the right wheel and the frame, and being designed to exert a thrust action between the right wheel and the frame to control tilting of the vehicle; the suspension system including a second extensible assembly between the left wheel and the frame, and being designed to exert a thrust action between the left wheel and the frame, to control tilting of the vehicle; the vehicle includes an actuation interface having an exposed surface operatively connected to the control system; the actuation interface is designed to be operated by a driver to control tilting of the vehicle upon command.

A rigid and aerodynamic device for external protection for motorcycle and bicycle vehicles with 2 to 4 wheels. This removable dome type device is formed by multiple overlapping panels that form an oval shell type structure, which protects both the vehicle and the pilot from external weather conditions and physical damage in the event of a collision.

A seating arrangement for a vehicle having a cabin space is provided. The seating arrangement includes a vehicle, at least one front seat within the vehicle, and at least one rear seat arranged behind the at least one front seat of the vehicle. The at least one front seat is rigidly fixed to and suspended from a portion of the vehicle, thereby providing a free space underneath the at least one front seat, such that an occupant of the vehicle seated in the at least one rear seat is able to position at least a lower portion of one or both legs thereof in the free space underneath the at least one front seat. A flexible covering, such as bristles may be attached to the periphery of the vehicle floor opening, so that a driver's foot can pass from inside the vehicle cabin, to the ground outside the vehicle.

An oscillation-type vehicle includes a front vehicle body that suspends a front wheel in a steerable manner, a rear vehicle body that suspends left and right drive wheels, and an oscillation mechanism that causes the front vehicle body and the rear vehicle body to oscillate relative to each other. The oscillation-type vehicle being capable of carrying out drive control of the left and right drive wheels such that the drive wheels behave differently from each other in response to oscillation of the oscillation-type vehicle, wherein the drive control of the left and right drive wheels is carried out using information on the oscillation and information on a speed of vehicle.

A straddled vehicle having a body frame including a head pipe, a front cover disposed in front of the head pipe, a duct disposed in front of the head pipe and extending rearward from an opening in the front cover, to thereby form a traveling wind pathway for traveling wind taken in through the opening, and an aero-stabilizing member. The aero-stabilizing member includes a middle portion disposed below a lower distal end of the front cover, directly below the opening in a front view, a lateral portion extending from the middle portion to a more outer side than the opening in a width direction, apart from the front cover with a gap therebetween in an up-and-down direction, and a front edge slanted forward and downward from the middle portion and the lateral portion, the front edge being partially disposed further forward than a lower front end of the duct.

A straddled vehicle having a body frame including a head pipe, a front cover disposed in front of the head pipe, a duct disposed in front of the head pipe and extending rearward from an opening in the front cover, to thereby form a traveling wind pathway for traveling wind taken in through the opening, and an aero-stabilizing member. The aero-stabilizing member includes a middle portion disposed below a lower distal end of the front cover, directly below the opening in a front view, a lateral portion extending from the middle portion to a more outer side than the opening in a width direction, apart from the front cover with a gap therebetween in an up-and-down direction, and a front edge slanted forward and downward from the middle portion and the lateral portion, the front edge being partially disposed further forward than a lower front end of the duct.

A leaning vehicle leaning leftward or rightward when turning left or right. The leaning vehicle include a main body, left and right front wheels, a linkage mechanism located between and supporting the left and right front wheels, and a lean actuator connected to the linkage mechanism. The lean actuator is located at least partially further rearward than the linkage mechanism, and at least partially between the left and right front wheels in a left-right direction. The leaning vehicle further has a leg shield located further rearward than the left and right front wheels, with at least a portion thereof between each of the left and right front wheels, and a leg of a driver when the driver is driving the leaning vehicle. The leg shield includes an intermediate portion covering at least a part of a left portion and a right portion of the lean-actuator.

A leaning vehicle including a vehicle body, front and rear wheels, a leaning mechanism that causes the vehicle body and the front and rear wheels to lean left or right when the leaning vehicle turns left or right, a lean actuator, a support stand, a detection device that detects a getting on intention input and or a getting off intention input, which respectively indicate that a rider of the leaning vehicle intends to get on and off the leaning vehicle, and a control device configured to control the lean actuator to thereby control a lean angle of the vehicle body while the vehicle body is in motion, based on a manipulation that the rider performs for turning in the left or right direction, and control the lean angle of the vehicle body while the leaning vehicle is not in motion, based on a detection result of the detection device.