Data Scheduling Method and Apparatus, Base Station, and Terminal

What is claimed is: 1 . A data scheduling method, comprising: configuring, by a base station, a data scheduling granularity in a time domain and in a frequency domain for a first wireless communications system on a carrier on a specific frequency spectrum; indicating an option of the configured data scheduling granularity on a plurality of carriers on the specific frequency spectrum to a terminal; and performing data scheduling for the terminal according to the configured data scheduling granularity on the carrier on the specific frequency spectrum, and indicating a data scheduling result obtained after the data scheduling to the terminal. 2 . The method according to claim 1 , wherein: configuring the data scheduling granularity in a time domain and in a frequency domain for the first wireless communications system comprises: determining whether a second wireless communications system applied on the carrier on the specific frequency spectrum exists; and in response to determining that no second wireless communications system applied on the carrier on the specific frequency spectrum exists, configuring the data scheduling granularity in the time domain and in the frequency domain for the first wireless communications system on the carrier on the specific frequency spectrum; in the time domain, an effective length of the data scheduling for the first wireless communications system is a duration of an available shared data channel in a data scheduling period; in the frequency domain, an effective length of the data scheduling for the first wireless communications system is a frequency domain width of one physical resource block; and the first wireless communications system is a long term evolution (LTE) system. 3 . The method according to claim 1 , wherein: configuring the data scheduling granularity in a time domain and in a frequency domain for the first wireless communications system comprises: determining whether a second wireless communications system applied on the carrier on the specific frequency spectrum exists; and in response to determining that the second wireless communications system applied on the carrier on the specific frequency spectrum exists, configuring the data scheduling granularity in the time domain and in the frequency domain on the carrier on the specific frequency spectrum; in the time domain, an effective length of the data scheduling for the first wireless communications system is a time domain length of one orthogonal frequency division multiplexing (OFDM) symbol; in the frequency domain, an effective length of the data scheduling for the first wireless communications system is S times bandwidth of an available shared data channel in a data scheduling period, wherein S is a numerical value that is greater than 0 and less than or equal to 1, and wherein the first wireless communications system is a long term evolution (LTE) system; and the second wireless communications system is a wireless fidelity (WiFi) system. 4 . The method according to claim 1 , wherein configuring the data scheduling granularity in a time domain and in a frequency domain for the first wireless communications system comprises: determining whether a second wireless communications system applied on the carrier on the specific frequency spectrum exists; in response to determining that the second wireless communications system applied on the carrier on the specific frequency spectrum exists, configuring a data scheduling granularity in the time domain and in the frequency domain for the first wireless communications system on a carrier on a shared specific frequency spectrum of the specific frequency spectrum, wherein in the time domain, an effective length of the data scheduling for the first wireless communications system is a time domain length of one orthogonal frequency division multiplexing (OFDM) symbol, and wherein in the frequency domain, an effective length of the data scheduling for the first wireless communications system is S times bandwidth of an available shared data channel in a data scheduling period, wherein S is a numerical value that is greater than 0 and less than or equal to 1; and configuring a data scheduling granularity in the time domain and in the frequency domain for the first wireless communications system on a carrier on a non-shared specific frequency spectrum of the specific frequency spectrum, wherein in the time domain, an effective length of the data scheduling for the first wireless communications system is duration of an available shared data channel in a data scheduling period, and in the frequency domain, an effective length of the data scheduling for the first wireless communications system is a frequency domain width of one physical resource block; wherein the first wireless communications system is a long term evolution (LTE) system, and the second wireless communications system existing on the specific frequency spectrum is a wireless fidelity (WiFi) system. 5 . The method according to claim 4 , wherein indicating the option of the configured data scheduling granularity on some or all carriers on the specific frequency spectrum to the terminal comprises: in response to the option of the data scheduling granularity being the data scheduling granularity in the time domain and in the frequency domain for the first wireless communications system on the carrier on the shared specific frequency spectrum of the specific frequency spectrum, indicating the data scheduling granularity to the terminal using scheduling information on the carrier on the shared specific frequency spectrum or scheduling information on a carrier on another frequency spectrum than the carrier on the shared specific frequency spectrum; wherein a condition for not sending an indication to the terminal is that the option of the data scheduling granularity is the data scheduling granularity in the time domain and in the frequency domain for the first wireless communications system on the carrier on the non-shared specific frequency spectrum of the specific frequency spectrum. 6 . The method according to claim 1 , wherein indicating the option of the configured data scheduling granularity on some or all carriers on the specific frequency spectrum to the terminal comprises: acquiring, from the option of the data scheduling granularity, the data scheduling granularity in the time domain and/or in the frequency domain for the first wireless communications system on the specific frequency spectrum; and indicating the data scheduling granularity in the time domain and/or in the frequency domain to the terminal using scheduling information on the carrier on a shared specific frequency spectrum; or indicating the data scheduling granularity in the time domain and/or in the frequency domain to the terminal using scheduling information on a carrier on another frequency spectrum than the carrier on the shared specific frequency spectrum. 7 . The method according to claim 1 , wherein performing data scheduling for the terminal according to the configured data scheduling granularity on the carrier on the specific frequency spectrum comprises: performing data scheduling for the terminal according to the data scheduling granularity that an effective length in the time domain is a duration of an available shared data channel in a data scheduling period, and/or according to the scheduling granularity of a frequency domain width of one resource block in the frequency domain; and acquiring a corresponding data scheduling result. 8 . The method according to claim 7 , wherein indicating the corresponding data scheduling result to the terminal comprises: indicating the data scheduling result of a shared specific frequency spectrum to t