Method and device for positioning in wireless communication

What is claimed is: 1 . A method in a base station for positioning, comprising: transmitting Q1 first-type radio signals, the Q1 being a positive integer and greater than 1; and receiving second information from a LMF, wherein the second information is used for triggering a transmission of first information; and transmitting the first information to the LMF; wherein the Q1 first-type radio signals are transmitted by Q1 spatial parameter groups respectively; the first information comprises a first Identifier (ID) and Q1 pieces of channel information, the first information includes Q1 indexes, and the Q1 indexes indicates the Q1 geographic positions respectively; the Q1 pieces of channel information are based on channel measurements performed by a target node for the Q1 spatial parameter groups respectively, and the target node is identified by the first ID; and the Q1 spatial parameter groups cover the Q1 geographic positions respectively; each of the Q1 first-type radio signals includes a synchronization signal, the synchronization signal includes a Primary Synchronization Signal and a Secondary Synchronization Signal; the Q1 spatial parameter groups are Q1 antenna port groups respectively and each of the Q1 antenna port groups includes a positive integer number of antenna ports, or, the Q1 spatial parameter groups include Q1 beamforming vectors respectively, the Q1 beamforming vectors are used for forming Q1 beams respectively, and the Q1 beams are used for transmitting the Q1 first-type radio signals respectively; the second information includes an E-CID MEASUREMENT INITIATION REQUEST. 2 . The method according to claim 1 , wherein each of the Q1 first-type radio signals includes a Channel Status Information Reference Signal. 3 . The method according to claim 1 , wherein the Q1 geographic positions are Q1 beam directions respectively. 4 . The method according to claim 1 , comprising: receiving a first radio signal, wherein the first radio signal carries Q1 pieces of channel information; wherein the first radio signal is transmitted on a Physical Uplink Shared Channel. 5 . The method according to claim 1 , wherein each of the Q1 pieces of channel information includes an RSRP, or, each of the Q1 pieces of channel information includes an RSRQ. 6 . A method in a LMF for positioning, comprising: transmitting second information to a base station, wherein the second information is used for triggering a transmission of first information. receiving the first information from the base station; wherein the first information comprises a first Identifier (ID) and Q1 pieces of channel information, the first information includes Q1 indexes, and the Q1 indexes indicates the Q1 geographic positions respectively; the Q1 pieces of channel information are based on channel measurements performed by a target node for Q1 spatial parameter groups respectively, and the target node is identified by the first ID; the Q1 spatial parameter groups cover the Q1 geographic positions respectively; and the Q1 is a positive integer and greater than 1; each of the Q1 first-type radio signals includes a synchronization signal, the synchronization signal includes a Primary Synchronization Signal and a Secondary Synchronization Signal; the Q1 spatial parameter groups are Q1 antenna port groups respectively and each of the Q1 antenna port groups includes a positive integer number of antenna ports, or, the Q1 spatial parameter groups include Q1 beamforming vectors respectively, the Q1 beamforming vectors are used for forming Q1 beams respectively, and the Q1 beams are used for transmitting the Q1 first-type radio signals respectively; the second information includes an E-CID MEASUREMENT INITIATION REQUEST. 7 . The method according to claim 6 , wherein each of the Q1 first-type radio signals includes a Channel Status Information Reference Signal. 8 . The method according to claim 6 , wherein the Q1 geographic positions are Q1 beam directions respectively. 9 . The method according to claim 6 , wherein each of the Q1 pieces of channel information includes an RSRP. 10 . The method according to claim 8 , wherein each of the Q1 pieces of channel information includes an RSRQ. 11 . A base station for positioning, comprising: a first transmitter, to transmit Q1 first-type radio signals, the Q1 being a positive integer and greater than 1; and a second receiver, to receive second information from a LMF, wherein the second information is used for triggering a transmission of first information; and a second transmitter, to transmit the first information to the LMF; wherein the Q1 first-type radio signals are transmitted by Q1 spatial parameter groups respectively; the first information comprises a first Identifier (ID) and the Q1 pieces of channel information, the first information includes Q1 indexes, and the Q1 indexes indicates the Q1 geographic positions respectively; the Q1 pieces of channel information are based on channel measurements performed by a target node for the Q1 spatial parameter groups respectively, and the target node is identified by the first ID; and the Q1 spatial parameter groups cover the Q1 geographic positions respectively; each of the Q1 first-type radio signals includes a synchronization signal, the synchronization signal includes a Primary Synchronization Signal and a Secondary Synchronization Signal; the Q1 spatial parameter groups are Q1 antenna port groups respectively and each of the Q1 antenna port groups includes a positive integer number of antenna ports, or, the Q1 spatial parameter groups include Q1 beamforming vectors respectively, the Q1 beamforming vectors are used for forming Q1 beams respectively, and the Q1 beams are used for transmitting the Q1 first-type radio signals respectively; the second information includes an E-CID MEASUREMENT INITIATION REQUEST. 12 . The base station according to claim 11 , wherein each of the Q1 first-type radio signals includes a Channel Status Information Reference Signal. 13 . The base station according to claim 11 , wherein the Q1 geographic positions are Q1 beam directions respectively. 14 . The base station according to claim 11 , comprising: a first receiver, to receive a first radio signal, wherein the first radio signal carries Q1 pieces of channel information; and wherein the first radio signal is transmitted on a Physical Uplink Shared Channel. 15 . The base station according to claim 13 , wherein each of the Q1 pieces of channel information includes an RSRP, or, each of the Q1 pieces of channel information includes an RSRQ. 16 . A LMF for positioning, comprising: a third transmitter, to transmit second information, wherein the second information is used for triggering a transmission of first information; and a third receiver, to receive the first information; wherein the first information comprises a first Identifier (ID) and Q1 pieces of channel information, the first information includes Q1 indexes, and the Q1 indexes indicates the Q1 geographic positions respectively; the Q1 pieces of channel information are based on channel measurements performed by a target node for Q1 spatial parameter groups respectively, and the target node is identified by the first ID; the Q1 spatial parameter groups cover the Q1 geographic positions respectively; and the Q1 is a positive integer and greater than 1; each of the Q1 first-type radio signals includes a synchronization signal, the synchronization signal includes a Primary Synchronization Signal and a Secondary Synchronization Signal; the Q1 spatial parameter groups are Q1 antenna port gro