Measurement method and device for wireless network communication system

The invention claimed is: 1. A measurement method for a wireless network communications system, wherein the method is applied in time division duplex (TDD) standard systems for wireless communication, comprising: measuring, by a user equipment in the TDD standard systems for wireless communication, Interference Signal Code Power (ISCP) of downlink Time Slot 0 (TS 0 ) of the TDD standard systems for wireless communication, and storing measurement results of the ISCP of TS 0 according to a predetermined recording policy; and reporting, by the user equipment, the measurement results of the ISCP of TS 0 to a base station in the TDD standard systems for wireless communication, according to a predetermined reporting policy, wherein the predetermined reporting policy includes that the user equipment obtains the previously stored measurement results of the ISCP of TS 0 before the user equipment enters into a connected status, wherein the predetermined recording policy comprises storing the measurement results of the ISCP of TS 0 when a predetermined storing triggering condition is satisfied, wherein the predetermined storing triggering condition is that when the user equipment experiences handover failure, the user equipment stores events of user equipment handover failure, and when the ISCP of TS 0 in the TDD standard systems for wireless communication system parameters is lower or higher than a first predetermined corresponding threshold, the user equipment stores the ISCP of TS 0 which has been obtained by a present measurement. 2. The method according to claim 1 , wherein the user equipment which stores the measurement results of the system parameters for the TDD standard systems for wireless communication comprises: all user equipments in the TDD standard systems for wireless communication; or user equipment(s) with specified function(s) in the TDD standard systems for wireless communication; or equipment(s) which is(are) at a specified location in the TDD standard systems for wireless communication; or equipment(s) owned by a specified user in the TDD standard systems for wireless communication. 3. The method according to claim 1 , wherein the system parameters of the TDD standard systems for wireless communication further comprise one or more of the following: Received Signal Code Power (RSCP) of Primary Common Control Physical Channel (P-CCPCH) in the TDD standard systems for wireless communication; RSCP of Secondary Common Control Physical Channel (S-CCPCH) in the TDD standard systems for wireless communication; the events of user equipment Downlink Pilot Channel (DwPCH) synchronization signal decoding failure; and the events of user equipment handover failure. 4. The method according to claim 1 , further comprising: storing, by the user equipment, a cell global identifier and a measurement timestamp corresponding to the measurement results of the system parameters. 5. The method according to claim 1 , wherein when the user equipment has positioning function, the method further comprises: storing, by the user equipment, a location identifier corresponding to the measurement results of the system parameters. 6. The method according to claim 1 , wherein the predetermined recording policy further comprises one or more of the following: storing the measurement results of the system parameters according to a predetermined time period; and storing the measurement results of the system parameters according to predetermined timings. 7. The method according to claim 1 , wherein the predetermined storing triggering condition further comprises one or more of the following: when RSCP of P-CCPCH in the TDD standard systems for wireless communication is lower or higher than a second predetermined corresponding threshold, the user equipment stores presently measured RSCP of P-CCPCH; when RSCP of S-CCPCH in the TDD standard systems for wireless communication is lower or higher than a third predetermined corresponding threshold, the user equipment stores presently measured RSCP of S-CCPCH; when the user equipment fails to decode DwPCH synchronization signal, the user equipment stores events of DwPCH synchronization signal decoding failure; and when the user equipment camps or connects to specified cells in the TDD standard systems for wireless communication, the user equipment stores measurement results of present system parameters. 8. The method according to claim 1 , wherein the predetermined reporting policy, comprises one or more of the following: reporting the measurement results of the system parameters according to a predetermined time period; reporting the measurement results of the system parameters by selecting a timing point randomly within a predetermined time duration; and reporting the measurement results of the system parameters when a predetermined reporting triggering condition is satisfied. 9. The method according to claim 1 , wherein, whether the user equipment performs measurement in the TDD standard systems for wireless communication, system parameters to be recorded, a predetermined recording policy and a predetermined reporting policy, are acquired by the user equipment, according to received system broadcast messages or dedicated radio connection control messages sent by the base station in the TDD standard systems for wireless communication or information contained in non-access stratum (NAS) messages which are forwarded by the base station. 10. A user equipment which is applied in time division duplex (TDD) standard systems for wireless communication, comprising: a processor; a hardware memory, which is connected with the processor via a bus interface and is configured to store program and data used for the processor; a transceiver, which is configured to communicate with other devices through transmission media, when the processor calls and executes the program and data stored in the hardware memory, the user equipment executes the following processing: measuring Interference Signal Code Power (ISCP) of downlink Time Slot 0 (TS 0 ) of the TDD standard systems for wireless communication, and storing measurement results of the ISCP of TS 0 according to a predetermined recording policy; and reporting the measurement results of the ISCP of TS 0 to a base station in the TDD standard systems for wireless communication, according to a predetermined reporting policy, wherein the predetermined reporting policy includes that the user equipment obtains the previously stored measurement results of the ISCP of TS 0 before the user equipment enters into a connected status, wherein the predetermined recording policy comprises storing the measurement results of the ISCP of TS 0 when a predetermined storing triggering condition is satisfied, wherein the predetermined storing triggering condition is that when the user equipment experiences handover failure, the user equipment stores events of user equipment handover failure, and when the ISCP of TS 0 in the TDD standard systems for wireless communication system parameters is lower or higher than a first predetermined corresponding threshold, the user equipment stores the ISCP of TS 0 which has been obtained by a present measurement. 11. The user equipment according to claim 10 , wherein the user equipment is configured for: storing a cell global identifier and a measurement timestamp corresponding to the measurement results of the system parameters. 12. The user equipment according to claim 10 , wherein when the user equipment has positioning function, the user equipment is configured for: storing a location identifier corresponding to the measurement results of the system parame