A saddle riding vehicle includes a steering handlebar, a pair of left and right handle posts that supports the handlebar, and a stay that supports an electric part. In the saddle riding vehicle, the stay is supported by the handle posts, the electric part includes a first electric part and a second electric part, and the second electric part is disposed at least at a position between the left and right handle posts in a vehicle front view.

A vehicle collision avoidance and driver notification system includes an object detection unit configured to detect environmental obstacles and a collision detection unit for assessing risk of collision. Depending on risk assessment, a collision avoidance unit gives feedback to the driver or directly interacts with the vehicle engine.

A display device for a bicycle, e.g., a Pedelec, and/or a bicycle element, and a method of operating a bicycle with a display device are disclosed. The display device includes a carrier for mounting on a handlebar of the bicycle or for mounting on a bicycle helmet. On the carrier, a plurality of controllable luminous elements are arranged.

This saddle-type vehicle includes a warning vibration generator (205) that generates a predetermined vibration to issue a warning to a driver, the warning vibration generator (205) includes a warning selection unit (210) that selects a predetermined warning in accordance with a strength of driving assist control, and, in accordance with the warning selected by the warning selection unit (210), the warning vibration generator (205) generates a vibration (a haptic vibration) as a warning in a frequency band that avoids a vibration frequency common to a motorcycle.

When an external detection device detects an obstacle (another vehicle (T)) on either a left or right side of the own vehicle (M), a control device of a steering assistance device for a saddle type vehicle controls an assist torque so that a handle operation to the side opposite to the side on which the obstacle is detected becomes heavier (more difficult to turn) than a case in which the obstacle is not detected. The handle operation to the side on which the obstacle is detected makes a handle relatively light (makes it easier to turn) while steering assist is maintained.

An integrated bicycle control device has a handlebar portion of a bicycle handlebar assembly. The handlebar portion has a body with a gripping portion adjacent a distal end of the body and a transition portion spaced from the gripping portion. A compartment may be formed in the transition portion and an opening in the body may permit access to the compartment. An actuator is disposed near the distal end of the gripping portion. A control element and/or other elements or circuitry may be disposed within the compartment. The control device may include integrated accessory attachment structure.

An integrated bicycle control device has a handlebar portion of a bicycle handlebar assembly. The handlebar portion has a body with a gripping portion adjacent a distal end of the body and a transition portion spaced from the gripping portion. A compartment may be formed in the transition portion and an opening in the body may permit access to the compartment. An actuator is disposed near the distal end of the gripping portion. A control element and/or other elements or circuitry may be disposed within the compartment. The control device may include integrated accessory attachment structure.

An operating device for a bicycle is disclosed. The operating device includes a display ring and a coaxially arranged operating ring arranged to rotate relative to the display ring. The display ring includes a display for displaying information and a first magnetic element that cooperates with a second magnetic element arranged on or in the operating ring. In a first position of the operating ring relative to the display ring, the first magnetic element is proximate to the second magnetic element, and if the operating ring is rotated away from the first position, the first magnetic element and the second element magnetically cooperate to bias the operating ring back to the first position. The display ring further includes a sensor that receives a signal when in proximity of a signal providing element.

A bicycle operating apparatus for wirelessly controlling at least one component of a bicycle includes a carrier element on a fastening device for fixing the bicycle operating apparatus to a handlebar of the bicycle, a housing attachable to the carrier element having an energy storage compartment for receiving an energy storage element and having an electronic circuit arrangement in the housing. At least one switch is connected to the electronic circuit arrangement on the housing. An operating component mounted on the carrier element to be pivotable about an operating axis preloaded into a neutral position which is able to be deflected out of the neutral position in a first direction of rotation about the operating axis in order to actuate the switch, and the operating axis extends obliquely with respect to the flat outer surface.

An operating device for a human-powered vehicle comprises a base structure, a first switch unit, and a second switch unit. The base structure defines a mounting axis. The first switch unit comprises a first switch base member, a first switch, and a first point. The first point is closest to the mounting axis along a first direction parallel to a first pivot axis. The second switch unit comprises a second switch base member, a second switch, and a second point. The second point is closest to the mounting axis along a second direction parallel to a second pivot axis. A second minimum distance is longer than a first minimum distance. A third minimum distance is longer than a fourth minimum distance.