Patent ID: 11876724
Assignee: HUAWEI TECHNOLOGIES CO., LTD.
Field: Digital communication (Electrical engineering)
Classification: CPC H | IPC H

Claim 7:
8. The method according to claim 7, wherein
the first packet flow comprises aggregated burst traffic segments of n burst levels, wherein n is an integer greater than 1,
in ascending order of burst levels, data volumes of the aggregated burst traffic segments of n burst levels increase sequentially, and time intervals between adjacent aggregated burst traffic segments of the n burst levels increase sequentially; and
determining the burst parameter of the first packet flow based on the burst, parameter distribution comprises at least one of:
determining a first data volume, in the data volume distribution, as an aggregated burst traffic segment of the 1st burst level, wherein the 1st burst level is a lowest burst level in the n burst levels, and the first data volume corresponds to a largest quantity of burst traffic segments in the data volume distribution;
determining n interval levels based on the time interval distribution, wherein an interval level comprises at least one time interval, quantities of burst traffic segments corresponding to time intervals in the interval level increase sequentially from a boundary of the interval level to a center of the interval level, and time intervals in the n interval levels increase sequentially, and determining a time interval between adjacent aggregated burst traffic segments of a kth burst level based on a time interval in a kth interval level of the n interval levels, wherein 1≤k≤n, and k is an integer;
determining a data volume of an aggregated burst traffic segment of an ith burst level based on a total quantity of burst traffic segments in the time interval distribution, a total quantity of burst traffic segments corresponding to a time interval of an ith interval level of the n interval levels, and. the data volume of the aggregated burst traffic segment of the 1st burst level, wherein 1<i≤n, and i is an integer;
determining duration of an aggregated burst traffic segment of the kth burst level based on total duration corresponding to a data volume of the aggregated burst traffic segment of the kth burst level in the duration distribution and a quantity of burst traffic segments corresponding to the data volume of the aggregated burst traffic segment of the kth burst level in the data volume distribution; and
determining a rate of the aggregated burst traffic segment of the kth burst level based on the data volume of the aggregated burst traffic segment of the kth burst level and the duration of the aggregated burst traffic segment of the kth burst level.