A bicycle wheel sensor is provided and includes a housing configured to be at least partially disposed within a tire of a bicycle wheel. The sensor may be mounted opposite a valve stem location to help balance the bicycle wheel. The bicycle wheel sensor has one or more sensors exposed to the inside of the tire and is configured to provide data obtained from within the tire. The sensor includes an electronic control unit that receives the data from the sensors and transmits the data to a user device via a transceiver.

A vehicle includes a suspension that supports a front wheel thereon, and a road surface state decision unit that decides a road surface state by detection of an acceleration sensor. The acceleration sensor is provided at a lower portion of the suspension and is capable of detecting an acceleration at least in a one-axis direction. The suspension is a front fork that supports the front wheel of the saddle riding vehicle. The front fork includes a bottom case that connects a lower portion of the front fork and an axle of the front wheel to each other. The acceleration sensor is attached to the bottom case.

A motorbike including an assistant system to a braking system, of the type comprising a phonic wheel, a phonic wheel speed sensor (200), and a related cable (201) for the transmission of a signal of said speed sensor (200), a supporting structure, for supporting the phonic wheel speed sensor (200) and a brake caliper (300), comprises: a main body (1) fastened or which can be fastened to a stem of a fork (F) of a motorbike; a wheel support (2) connected to said main body (1) for supporting a wheel of the motorbike; an extension (3) which develops from said main body (1) and comprises a fastening device (30) for a brake caliper (300), wherein said extension (3) comprises a pair of ribs (33, 34) defining opposite edges thereof, a reinforcing plate (35) extending between said pair of ribs (33, 34), said ribs (33, 34) forming thickenings of the extension (3) with respect to said reinforcing plate (35), and a pass-through opening (31) for housing the phonic wheel sensor (200) and defined in said reinforcing plate (35) in an intermediate position between said ribs (33, 34); and a cable fastening device (4) fastened to an upper portion of said brake caliper (300).

To permit easy reduction of a large-type rear fender or the like and to realize easy enhancement of appearance quality and mounting/detaching operability in the periphery of a license plate. A caliper bracket that is rotatably supported together with a rear wheel and that supports a rear wheel brake caliper is provided. The caliper bracket supports a license plate stay to which a license plate is attached.

A bicycle wheel sensor is provided and includes a housing configured to be at least partially disposed within a tire of a bicycle wheel. The sensor may be mounted opposite a valve stem location to help balance the bicycle wheel. The bicycle wheel sensor has one or more sensors exposed to the inside of the tire and is configured to provide data obtained from within the tire. The sensor includes an electronic control unit that receives the data from the sensors and transmits the data to a user device via a transceiver.

A bicycle motorization device is attached to a bicycle. The motorization device includes: a calculation unit configured to calculate speed of the bicycle; an estimation unit configured to estimate pedal force applied to pedals of the bicycle; an electric motor; a battery which supplies electric power to the electric motor; and a control unit configured to apply auxiliary driving force to a wheel of the bicycle by driving the electric motor based on the speed calculated and the pedal force estimated.

A control system for a human-powered vehicle includes an input device, an additional input device, and a controller. The input device is configured to receive manual input from a rider. The additional input device is configured to receive manual input from the rider. The controller is configured to control a shifting device of the human-powered vehicle based on one of an output signal from the input device and an output signal from the additional input device. The controller is configured to output one of a first control signal for a single shifting operation and a second control signal for a multiple shifting operation in response to the manual input received by one of the input device and the additional input device. The controller is further configured to output one of a first control signal and a second control signal based on a state of the human-powered vehicle.

Provided is an intelligent electric wheel hub which belongs to the field of bicycle parts. Two ends of a cylindrical wheel hub housing (2) of the electric wheel hub are respectively connected to a wheel hub left end cover (25) and an outer flywheel ring (7) of a flywheel mechanism to form an inner cavity for integrating and accommodating a gear motor, a battery pack and a controller panel. The intelligent electric wheel hub is highly integrated and is energy-saving and environmentally friendly

A front fork, which suspends a front wheel is a compression type and includes a pressure tank at a lower end portion thereof. The front fork includes, at the lower end portion, a caliper bracket which supports a brake caliper which constitutes a disc brake and a sensor mounting portion on which a wheel speed sensor is mounted. The caliper bracket includes a pair of an upper caliper support portion and a lower caliper support portion. In a vehicle side view, the pressure tank is disposed between the upper caliper support portion and the lower caliper support portion, and the sensor mounting portion is disposed inferior to or superior to the pressure tank.

A front fork, which suspends a front wheel is a compression type and includes a pressure tank at a lower end portion thereof. The front fork includes, at the lower end portion, a caliper bracket which supports a brake caliper which constitutes a disc brake and a sensor mounting portion on which a wheel speed sensor is mounted. The caliper bracket includes a pair of an upper caliper support portion and a lower caliper support portion. In a vehicle side view, the pressure tank is disposed between the upper caliper support portion and the lower caliper support portion, and the sensor mounting portion is disposed inferior to or superior to the pressure tank.