Method and device in a node used for wireless communication

What is claimed is: 1 . A first node for wireless communications, comprising: a first receiver, receiving a first information block; and a first receiver, monitoring a first-type signaling in a first resource pool; wherein the first information block is used for determining the first resource pool; the first resource pool comprises K resource sets, K being a positive integer greater than 1; any of the K resource sets comprises a positive integer number of resource group(s), any resource group in the first resource pool belongs to one of M resource group subsets, M being a positive integer number greater than 1; a first resource set is one of the K resource sets, a first index is an index of the first resource set in a first resource sub-pool, and a number of resource group(s) comprised in the first resource set is equal to L0, L0 being a positive integer; the first resource sub-pool comprises K1 resource set(s) in the K resource sets, and a number of resource group(s) comprised in any resource set in the first resource sub-pool is equal to the L0, K1 being a positive integer not greater than the K; the first resource set comprises a first resource group, and a second index is an index of the first resource group in the first resource set; the first resource group belongs to a first resource group subset in the M resource group subsets, and the first resource group subset is related to at least one of the first index or the second index. 2 . The first node according to claim 1 , wherein the M resource group subsets respectively correspond to M spatial relations, and the M spatial relations respectively indicate M reference signals. 3 . The first node according to claim 1 , wherein when the L0 is equal to L and the L is a positive integer not less than the M, the first resource set comprises L resource groups, for any given resource group subset in the M resource group subsets, there exists a resource group in the L resource groups belonging to the given resource group subset. 4 . The first node according to claim 3 , wherein a second resource set is a resource set different from the first resource set in the K resource sets; a number of resource groups comprised in the second resource set is equal to the L; a number of resource group(s) belonging to the first resource group subset in the first resource set is not equal to a number of resource group(s) belonging to the first resource group subset in the second resource set. 5 . The first node according to claim 1 , wherein when there exist L1 resource groups in the first resource set belonging to the first resource group subset and L1 is a positive integer greater than 1, indexes of the L1 resource groups in the first resource group subset are consecutive. 6 . The first node according to claim 1 , wherein the M resource group subsets respectively correspond to M reference values; an index of the first resource group in the first resource group subset is related to a first reference value, and the first reference value is a reference value corresponding to the first resource group subset in the M reference values. 7 . The first node according to claim 1 , wherein the M resource group subsets respectively belong to M resource group sets, and the first information block is used for respectively indicating the M resource group subsets out of the M resource group sets. 8 . A second node for wireless communications, comprising: a second processor, transmitting a first information block; and a first transmitter, transmitting a first signaling in a first resource block; wherein the first information block is used for determining the first resource pool; the first resource pool comprises K resource sets, K being a positive integer greater than 1; any of the K resource sets comprises a positive integer number of resource group(s), any resource group in the first resource pool belongs to one of M resource group subsets, M being a positive integer number greater than 1; a first resource set is one of the K resource sets, a first index is an index of the first resource set in a first resource sub-pool, and a number of resource group(s) comprised in the first resource set is equal to L0, L0 being a positive integer; the first resource sub-pool comprises K1 resource set(s) in the K resource sets, and a number of resource group(s) comprised in any resource set in the first resource sub-pool is equal to the L0, K1 being a positive integer not greater than the K; the first resource set comprises a first resource group, and a second index is an index of the first resource group in the first resource set; the first resource group belongs to a first resource group subset in the M resource group subsets, and the first resource group subset is related to at least one of the first index or the second index. 9 . The second node according to claim 8 , wherein the M resource group subsets respectively correspond to M spatial relations, and the M spatial relations respectively indicate M reference signals. 10 . The second node according to claim 8 , wherein when the L0 is equal to L and the L is a positive integer not less than the M, the first resource set comprises L resource groups, for any given resource group subset in the M resource group subsets, there exists a resource group in the L resource groups belonging to the given resource group subset. 11 . The second node according to claim 10 , wherein a second resource set is a resource set different from the first resource set in the K resource sets; a number of resource groups comprised in the second resource set is equal to the L; a number of resource group(s) belonging to the first resource group subset in the first resource set is not equal to a number of resource group(s) belonging to the first resource group subset in the second resource set. 12 . The second node according to claim 8 , wherein when there exist L1 resource groups in the first resource set belonging to the first resource group subset and L1 is a positive integer greater than 1, indexes of the L1 resource groups in the first resource group subset are consecutive. 13 . The second node according to claim 8 , wherein the M resource group subsets respectively correspond to M reference values; an index of the first resource group in the first resource group subset is related to a first reference value, and the first reference value is a reference value corresponding to the first resource group subset in the M reference values. 14 . The second node according to claim 8 , wherein the M resource group subsets respectively belong to M resource group sets, and the first information block is used for respectively indicating the M resource group subsets out of the M resource group sets. 15 . A method in a first node for wireless communications, comprising: receiving a first information block; and monitoring a first-type signaling in a first resource pool; wherein the first information block is used for determining the first resource pool; the first resource pool comprises K resource sets, K being a positive integer greater than 1; any of the K resource sets comprises a positive integer number of resource group(s), any resource group in the first resource pool belongs to one of M resource group subsets, M being a positive integer number greater than 1; a first resource set is one of the K resource sets, a first index is an index of the first resource set in a first resource sub-pool, and a number of resource group(s) comprised in the first resource set is equal to L0, L0 being a positive integer; the first resource sub-pool comprises K1 resource set(s) in the K resourc