Method and apparatus for allocating uplink resource, and macro base station

What is claimed is: 1 . A macro base station, comprising: a receiver, configured to receive a measurement report reported by user equipment; and a processor, configured to classify the user equipment into a first user equipment group or a second user equipment group according to the measurement report reported by the user equipment, wherein user equipment in the second user equipment group is located at an edge of a micro cell and is not located in a soft handover area, and a distance that is from the user equipment in the second user equipment group to the macro base station is longer than a distance that is from user equipment in the first user equipment group to the macro base station; and further configured to allocate, within a scheduling period and based on a proportion of a quantity of user equipments in the first user equipment group to a quantity of user equipments in the second user equipment group, uplink data transmission subframes to the user equipments in the first user equipment group and the user equipments in the second user equipment group. 2 . The macro base station according to claim 1 , wherein the processor is further configured to: after classifying the user equipment into the second user equipment group, separately determine, according to a measurement report reported by each user equipment in the second user equipment group, a micro cell corresponding to each user equipment, wherein each user equipment is located at an edge of one or more micro cells; and separately classify each user equipment into a corresponding small group in the second user equipment group according to the micro cell corresponding to each user equipment, wherein the micro cell corresponding to each user equipment corresponds to one small group in the group. 3 . The macro base station according to claim 2 , wherein the processor is specifically configured to separately classify each user equipment into a normal small group in the second user equipment group according to the micro cell corresponding to each user equipment, wherein there is a one-to-one correspondence between the normal small group and the micro cell corresponding to each user equipment. 4 . The macro base station according to claim 2 , wherein the processor is specifically configured to: if any user equipment in the second user equipment group is located at an edge of only a single micro cell, classify the any user equipment into a normal small group in the second user equipment group, wherein there is a one-to-one correspondence between the normal small group and the single micro cell; or if the any user equipment is located at edges of at least two micro cells, classify the any user equipment into a particular small group corresponding to the at least two micro cells, wherein the particular small group is a small group other than the normal small group. 5 . The macro base station according to claim 4 , wherein the processor is further configured to: after classifying the any user equipment into the particular small group corresponding to the at least two micro cells, if the particular small group comprises only one user equipment, classify the user equipment in the particular small group into a normal small group that corresponds to any micro cell of the at least two micro cells, and delete the particular small group. 6 . The macro base station according to claim 3 , wherein the processor is further configured to: after classifying the user equipment into the corresponding normal small group in the second user equipment group, if a unit small group comprising only one user equipment exists in the normal small group, classify the user equipment in the unit small group into the first user equipment group, and delete the unit small group. 7 . The macro base station according to claim 2 , wherein the processor is further configured to: after allocating the uplink data transmission subframes to the user equipments in the first user equipment group and the user equipments in the second user equipment group, allocate, according to a proportion of a quantity of user equipments in each small group in the second user equipment group to the quantity of user equipments in the second user equipment group, uplink data transmission subframes that are allocated to the second user equipment group to the user equipment in each small group in the second user equipment group. 8 . The macro base station according to claim 1 , wherein the measurement report is obtained through measurement by the user equipment according to a measurement configuration and is reported by the user equipment, and the measurement configuration carries information about a first intra-frequency measurement report event and information about a second intra-frequency measurement report event; when a pilot signal of a micro cell corresponding to the user equipment becomes good, the micro cell triggers the first intra-frequency measurement report event; and when the pilot signal of the micro cell becomes poor, the micro cell triggers the second intra-frequency measurement report event. 9 . The macro base station according to claim 8 , wherein the processor is specifically configured to: if the measurement report reported by the user equipment is reported by means of triggering of the first intra-frequency measurement report event, classify the user equipment into the second user equipment group; or if the measurement report reported by the user equipment is reported by means of triggering of the second intra-frequency measurement report event, compare a quantity of corresponding micro cells that are before the user equipment performs measurement with a quantity of micro cells that trigger the second intra-frequency measurement report event; and when the quantity of corresponding micro cells that are before the user equipment performs measurement is greater than the quantity of micro cells that trigger the second intra-frequency measurement report event, classify the user equipment into the second user equipment group; or when the quantity of corresponding micro cells that are before the user equipment performs measurement is equal to the quantity of micro cells that trigger the second intra-frequency measurement report event, classify the user equipment into the first user equipment group. 10 . A radio network controller, comprising: a sender, configured to deliver a measurement configuration to user equipment, wherein the measurement configuration carries information about a first intra-frequency measurement report event and information about a second intra-frequency measurement report event, when a pilot signal of a micro cell corresponding to the user equipment becomes good, the micro cell triggers the first intra-frequency measurement report event, and when the pilot signal of the micro cell becomes poor, the micro cell triggers the second intra-frequency measurement report event; and further configured to forward, to a macro base station, a measurement report that is obtained through measurement by the user equipment according to the measurement configuration and that is reported by the user equipment; and a receiver, configured to receive the measurement report. 11 . User equipment, comprising: a receiver, configured to receive a measurement configuration delivered from a network side, wherein the measurement configuration carries information about a first intra-frequency measurement report event and information about a second intra-frequency measurement report event, when a pilot signal of a micro cell corresponding to the user equipment becomes good, the micro cell triggers the first intra-frequency measurement report event, and when the pilot signal of the micro cell becomes