A method includes recording data about an advertising campaign; converting the data about advertising campaigns into ad time slot data including a time range in which a broadcast program runs and average number of times the advertisements run during the time range; and selectively generating an output visually indicating cost of advertisements versus time of day, number of intakes versus time of day, and cost of the advertisements versus time of day. Other systems and methods are provided.

A method includes recording data about an advertising campaign; converting the data about advertising campaigns into ad time slot data including a time range in which a broadcast program runs and average number of times the advertisements run during the time range; and selectively generating an output visually indicating cost of advertisements versus time of day, number of intakes versus time of day, and cost of the advertisements versus time of day. Other systems and methods are provided.

A personal mobility includes a steering shaft, a handlebar extending from an upper end of the steering shaft to opposite sides, two grip parts installed on opposite ends of the handlebar, respectively, to be displaceable with respect to the handlebar in a direction of intersecting a longitudinal direction of the handlebar, and a buffer device provided between each of the grip parts and the handlebar to reduce vibration or shock transmitted from the handlebar to the grip part.

A personal mobility includes a steering shaft, a handlebar extending from an upper end of the steering shaft to opposite sides, two grip parts installed on opposite ends of the handlebar, respectively, to be displaceable with respect to the handlebar in a direction of intersecting a longitudinal direction of the handlebar, and a buffer device provided between each of the grip parts and the handlebar to reduce vibration or shock transmitted from the handlebar to the grip part.

An elongate, tubular handlebar can include a laterally extending central mounting portion, a tubular left body section extending laterally from one side of the mounting portion a tubular right body section extending laterally from the other side of the mounting portion. The right body section may have an elongate, tubular right control portion extending laterally from an inboard end to an outboard end and configured to support a generally laterally extending grip and a right transition portion having a non-circular, transition cross-sectional shape at a first location defining a first width measured in a first direction and a second width that is greater than the first width and is measured in a second direction. Whereby right body section has a first stiffness in the first direction and a second stiffness that is greater than the first stiffness in the second direction.

In an electric steering lock device for saddle-ride type vehicle, a casing movably supports a lock pin and a slider. The lock pin is linearly movable between a lock position and an unlock position. The slider is movable in a direction identical to a movement direction of the lock pin. The casing houses an elastic member that is interposed between the lock pin and the slider, and an electric motor that provides a power that drives the slider. The electric steering lock device for saddle-ride type vehicle avoids being large-sized and reliably detects a position of the lock pin. A casing 18 movably supports a first interlocking member 72 and a second interlocking member 73. The first interlocking member 72 moves in a direction identical to a lock pin 19 by interlocking with the lock pin 19. The second interlocking member 73 moves in a direction orthogonal to the movement direction of the lock pin 19 and the first interlocking member 72 by interlocking with the first interlocking member 72. A switch 74 that detects a position of the second interlocking member 73 is mounted on the casing 18.

An elongate, tubular handlebar can include a laterally extending central mounting portion, a tubular left body section extending laterally from one side of the mounting portion a tubular right body section extending laterally from the other side of the mounting portion. The right body section may have an elongate, tubular right control portion extending laterally from an inboard end to an outboard end and configured to support a generally laterally extending grip and a right transition portion having a non-circular, transition cross-sectional shape at a first location defining a first width measured in a first direction and a second width that is greater than the first width and is measured in a second direction. Whereby right body section has a first stiffness in the first direction and a second stiffness that is greater than the first stiffness in the second direction.

A stem buffer suspension assembly structure includes a main suspension stem inserted into a stem channel of a front buffer frame assembly and including a buffer assembly, wherein a stem and a headset are assembled on an end of the main suspension stem protruded out of the buffer assembly; an upper end cover assembled with the buffer assembly and abutted with a top of the stem; a lower pressing assembly is assembled with the main suspension stem and includes a lower plug member, a locking pin, a pressing member and a limit block. The lower plug member is assembled on the main suspension stem, and the lower plug member is locked with the locking part, the locking pin is screwed with the pressing member, the limit block is mounted with the locking pin and located between the lower plug member and the pressing member.

A stem buffer suspension assembly structure includes a main suspension stem inserted into a stem channel of a front buffer frame assembly and including a buffer assembly, wherein a stem and a headset are assembled on an end of the main suspension stem protruded out of the buffer assembly; an upper end cover assembled with the buffer assembly and abutted with a top of the stem; a lower pressing assembly is assembled with the main suspension stem and includes a lower plug member, a locking pin, a pressing member and a limit block. The lower plug member is assembled on the main suspension stem, and the lower plug member is locked with the locking part, the locking pin is screwed with the pressing member, the limit block is mounted with the locking pin and located between the lower plug member and the pressing member.

The damping device according to the invention includes a pressing member, a shock absorption member and an adjustment member. The shock absorption member is disposed in an accommodation room defined between the pressing member and the handlebar seat. The shock absorption member are arranged in contact with the pressing member and the handlebar seat, so that when a rider is riding a bicycle on an uneven road causing the front fork tube to shake up and down, the invention disclosed herein would absorb the shock force as the pressing member presses against the shock absorbing member. The adjustment member is arranged to extend through the handlebar seat into the pressing member and contact the shock absorption member, so that the strain rate of the damping device can be adjusted by the adjustment member, thereby performing various degrees of shock absorption effects.