Shifting system for human-powered vehicle

The invention claimed is: 1. A shifting system for a human-powered vehicle, comprising: a controller configured to: receive a cadence of the human-powered vehicle from at least one sensor; and control a shift mechanism to perform a gear shift in accordance with a permitted cadence range by outputting a signal concerning at least one of an estimated travel distance of the shift mechanism and an estimated travel speed of the shift mechanism for performing the gear shift during a permitted shift timing, wherein the permitted shift timing includes a first timing interval, and the first timing interval has a first start and a first end. 2. The shifting system according to claim 1 , wherein the controller is configured to output a command signal for the gear shift to the shift mechanism if the cadence is determined to be within the permitted cadence range. 3. The shifting system according to claim 1 , wherein the controller is configured to refrain from outputting a command signal to the shift mechanism if the cadence is determined to be outside the permitted cadence range. 4. The shifting system according to claim 1 , wherein the controller is configured to receive a driving torque of the human-powered vehicle from at least one sensor. 5. The shifting system according to claim 4 , wherein the controller is configured to determine the permitted shift timing based on the driving torque and the cadence. 6. The shifting system according to claim 5 , wherein the controller is configured to control the shift mechanism to perform the gear shift by: calculating an estimated duration of time that is required for performing the gear shift based on at least one of the estimated travel distance and the estimated travel speed; determining that the gear shift can be commenced after the first start of the first timing interval and completed prior to the first end of the first timing interval; and outputting a command signal to the shift mechanism based on the determination result. 7. The shifting system according to claim 6 , wherein the estimated travel speed is calculated based on the cadence and the travel distance. 8. The shifting system according to claim 6 , wherein the gear shift is one of a plurality of gear shifts, the estimated travel distance is one of a plurality of estimated travel distances, and the estimated travel speed is one of a plurality of estimated travel speeds, and the controller is configured to: store a map that maps each of the plurality of gear shifts to an associated one of the plurality of estimated travel distances and one of the plurality of estimated travel speeds in a memory, and determine the at least one of the estimated travel distance and the estimated travel speed for performing the gear shift at least in part by using the map to identify at least one of the estimated travel distance and the estimated travel speed associated with the gear shift. 9. The shifting system according to claim 6 , further comprising: the shift mechanism including a rear derailleur having a rear chain guide configured for lateral movement over the estimated travel distance in a direction parallel to the rotational axis of the rear sprocket assembly having a plurality of rear sprockets to urge a chain from the one of the rear sprockets to the other of the rear sprockets in the gear shift. 10. The shifting system according to claim 6 , further comprising: the shift mechanism including a front derailleur having a front chain guide configured for lateral movement over the estimated travel distance in a direction parallel to the rotational axis of the front sprocket assembly having a plurality of front sprockets to urge a chain from the one of the front sprockets to the other of the front sprockets in the gear shift. 11. The shifting system according to claim 1 , wherein the gear shift is configured to be commenced after the first start of the first timing interval and completed prior to the first end of the first timing interval. 12. The shifting system according to claim 1 , wherein the permitted shift timing includes a second timing interval, the second timing interval has a second start and a second end, and the second timing interval is different from the first timing interval. 13. A shifting system for a human-powered vehicle, comprising: a controller configured to: receive a cadence of the human-powered vehicle from at least one sensor; and control a shift mechanism to perform a gear shift in accordance with a permitted cadence range by outputting a signal concerning at least one of an estimated travel distance of the shift mechanism and an estimated travel speed of the shift mechanism for performing the gear shift, wherein the controller is configured to receive a driving torque of the human-powered vehicle from at least one sensor, the controller is configured to determine a permitted shift timing based on the driving torque and the cadence, the permitted shift timing includes a first timing interval that has a first start and a first end, and the controller is configured to control the shift mechanism to perform the gear shift by: calculating an estimated duration of time that is required for performing the gear shift based on at least one of the estimated travel distance and the estimated travel speed; determining that the gear shift can be commenced after the first start of the first timing interval and completed prior to the first end of the first timing interval; and outputting a command signal to the shift mechanism based on the determination result.