Method for managing a surveillance system, and associated apparatus

What is claimed is: 1 . A method for managing a surveillance system, the surveillance system comprising at least one camera, the method applied to a control circuit of the surveillance system and comprising: predicting at least one time interval that complies with a predetermined condition based on statistics data to determine target time and performing a timing operation corresponding to the target time, wherein the predetermined condition relates to an event count of the at least one time interval, and the target time falls within a range of the time interval; and performing at least one configuration updating operation upon the camera when the target time expires. 2 . The method of claim 1 , wherein the step of predicting the time interval that complies with the predetermined condition based on the statistics data to determine the target time and performing the timing operation corresponding to the target time further comprises: calculating a plurality of decision-making indexes corresponding to a plurality of future time intervals, respectively, wherein each of the plurality of decision-making indexes corresponds to a predicted event count of one of the plurality of future time intervals; selecting at least one candidate update time interval from the plurality of future time intervals according to the plurality of decision-making indexes and a decision-making index threshold value, wherein the candidate update time interval falls within the range of the time interval; and determining the target time according to the candidate update time interval. 3 . The method of claim 2 , wherein the step of predicting the time interval that complies with the predetermined condition based on the statistics data to determine the target time and performing the timing operation corresponding to the target time further comprises: obtaining the predicted event counts based on at least one set of event counts corresponding to at least one set of previous time intervals, respectively, wherein each set of the set of previous time intervals corresponds to the plurality of future time intervals, respectively; and normalizing the predicted event counts, to generate the plurality of decision-making indexes corresponding to the plurality of future time intervals. 4 . The method of claim 3 , wherein the set of previous time intervals comprises a plurality of sets of previous time intervals, a first set of previous time intervals of the plurality of sets of previous time intervals falls within a first time period within a plurality of time periods, and a second set of previous time intervals within the plurality of sets of previous time intervals falls within a second time period within the plurality of time periods; the set of event counts comprises a plurality of sets of event counts, wherein the plurality of sets of event counts comprises a first set of event counts corresponding to the first set of previous time intervals, and a second event count corresponding to the second set of previous time intervals; and the step of predicting the time interval that complies with the predetermined condition based on the statistics data to determine the target time and performing the timing operation corresponding to the target time further comprises: performing a plurality of weighted average operations based on the plurality of sets of event counts, to generate a set of average event counts corresponding to the plurality of future time intervals, respectively, wherein a weighted average operation within the plurality of weighted average operations comprises performing a weighted average operation upon corresponding event counts that correspond to each other in the plurality of sets of event counts; and utilizing the set of average event counts as the predicted event counts. 5 . The method of claim 4 , wherein the first time period leads the second time period; and during performing the plurality of weighted average operations, a weight of the first set of event counts is smaller than a weight of the second set of event counts. 6 . The method of claim 3 , wherein the set of event counts comprises a single set of event counts; and the step of predicting the time interval that complies with the predetermined condition based on the statistics data to determine the target time and performing the timing operation corresponding to the target time further comprises: utilizing the single set of event counts as the predicted event counts. 7 . The method of claim 2 , wherein the candidate update time interval comprises a plurality of candidate update time intervals; and the step of predicting the time interval that complies with the predetermined condition based on the statistics data to determine the target time and performing the timing operation corresponding to the target time further comprises: comparing each of the plurality of decision-making indexes with the decision-making index threshold value, to find, from the plurality of future time intervals, at least one set of adjacent time intervals, each of which is associated to a corresponding decision-making index that does not exceed the decision-making index threshold value, wherein the set of adjacent time intervals is used as at least one set of candidate update time intervals within the plurality of candidate update time intervals; and selecting a specific set of adjacent time intervals from the set of adjacent time intervals, to determine the target time. 8 . The method of claim 7 , wherein the set of adjacent time intervals comprises a plurality of sets of adjacent time intervals; and a length of the specific set of adjacent time intervals within the plurality of sets of adjacent time intervals is greater than or equal to a length of any other set of adjacent time intervals within the plurality of sets of adjacent time intervals. 9 . The method of claim 1 , wherein the step of performing the configuration updating operation upon the camera further comprises: applying at least one predetermined configuration to the camera when the target time expires. 10 . The method of claim 9 , wherein the step of predicting the time interval that complies with the predetermined condition based on the statistics data to determine the target time and performing the timing operation corresponding to the target time further comprises: after obtaining the predetermined configuration, predicting the time interval that complies with the predetermined condition based on the statistics data to determine the target time, and performing the timing operation corresponding to the target time. 11 . An apparatus for managing a surveillance system, the surveillance system comprising at least one camera, the apparatus comprising at least a portion of the surveillance system, the apparatus comprising: an interface circuit, arranged to couple to the camera; and a control circuit, coupled to the interface circuit, the control circuit arranged to predict at least one time interval that complies with a predetermined condition based on statistics data, to determine target time, and perform a timing operation corresponding to the target time, wherein the predetermined condition relates to an event count of the time interval, the target time is within the time interval, and the control circuit performs at least one set of configuration updating operations upon the camera when the target time expires. 12 . The apparatus of claim 11 , wherein the control circuit calculates a plurality of decision-making indexes corresponding to a plurality of future time intervals, respectively, wherein each of the plurality of decision-making indexes corresponds to a predicted even