The present application discloses systems and methods to present information to recreational vehicle riders and to provide customizable visual information to recreational vehicle riders. The present application further discloses systems and methods to connect and transmit audio information between a driver portable communication device and a driver audio interface device through the recreational vehicle and audio information between a passenger portable communication device and a passenger audio interface device.

A leg actuator mechanism, a method of manufacturing the leg actuator mechanism, and a doll implementing a leg actuator mechanism is provided. The leg actuator includes an upper leg mechanism comprising a hip end and an opposing knee end. The leg actuator also includes a lower leg mechanism comprising a first end and an opposing second end, wherein the first end of the lower leg portion is operably coupled to the knee end of the upper leg portion. The leg actuator further includes a follower mechanism. The follower mechanism includes a mounting defining a follower pathway configured to receive a follower joint. The follower mechanism also includes an upper follower connector and a lower follower connector. The follower mechanism moves at least one of the upper leg mechanism or the lower leg mechanism when activated.

An operating device for a human-powered vehicle comprises a base member, an informing unit, and an operating member. The base member is configured to be mounted to a handlebar. The informing unit is configured to inform a user of first information relating to an assist driving unit configured to assist a human power. The operating member is movably coupled to the base member to control a component different from the assist driving unit.

An operating device for a human-powered vehicle comprises a base member, an informing unit, and an operating member. The base member is configured to be mounted to a handlebar. The informing unit is configured to inform a user of first information relating to an assist driving unit configured to assist a human power. The operating member is movably coupled to the base member to control a component different from the assist driving unit.

An operating device for a human-powered vehicle comprises a base member, an operating member, and an assist operating interface. The base member includes a coupling end, a free end, and a grip portion. The coupling end is configured to be coupled to a handlebar. The free end is opposite to the coupling end. The grip portion is provided between the coupling end and the free end. The operating member is pivotally coupled to the base member about a pivot axis. The assist operating interface is configured to receive a first user input indicating that an assist driving unit generates a temporary assist driving force for a limited period corresponding to an operation of the first user input.

An operating device for a human-powered vehicle comprises a base member, an operating member, and an assist operating interface. The base member includes a coupling end, a free end, and a grip portion. The coupling end is configured to be coupled to a handlebar. The free end is opposite to the coupling end. The grip portion is provided between the coupling end and the free end. The operating member is pivotally coupled to the base member about a pivot axis. The assist operating interface is configured to receive a first user input indicating that an assist driving unit generates a temporary assist driving force for a limited period corresponding to an operation of the first user input.

An operating system for a human-powered vehicle comprises a first operating device and a controller. The first operating device is configured to output a first control signal. The controller is configured to determine whether the first operating device meets a first predetermined condition. The controller is configured to assign, if the first operating device meets the first predetermined condition, an additional electric device a function of the first operating device so that the additional electric device outputs the first control signal.

An operating system for a human-powered vehicle comprises a first operating device and a controller. The first operating device is configured to output a first control signal. The controller is configured to determine whether the first operating device meets a first predetermined condition. The controller is configured to assign, if the first operating device meets the first predetermined condition, an additional electric device a function of the first operating device so that the additional electric device outputs the first control signal.

A vehicle 1 as a host vehicle includes: detection unit that detects a translationally-moving two-wheeled vehicle 9 traveling in front of or alongside the host vehicle; an on-board communication device capable of communicating with a communication device mounted on the vehicle 9; an ECU that determines whether the host vehicle is at either one of blind spots BR and BL of the vehicle 9, based on a detection result of the detection unit, and that transmits a warning notification from the on-board communication device to the communication device mounted on the vehicle 9 when determining that the host vehicle is at the blind spot BR or BL. In this case, it is preferable that the ECU changes an actuation condition so that an automatic operation according to contact avoidance control is started more promptly than when the host vehicle is determined to be outside the blind spots BR, BL.

A personal mobility device including handle grips coupled to both ends of a handle, a sterilization and drying unit disposed inside a frame of the handle and including an ultraviolet (UV) generator and a fan, and a controller configured to turn on the UV generator and the fan, based on the handle grips being positioned inside the frame.