Insertion loss mitigation for reference signaling

1 - 15 . (canceled) 16 . An apparatus comprising at least one processor and at least one memory including computer program code, the at least one memory and the computer program code configured to, with the at least one processor, cause the apparatus at least to perform: receiving, from a network node, a first configuration for at least one uplink reference signal to be transmitted through at least one respective antenna port of the apparatus, wherein the first configuration comprises a first set of resource blocks over which the at least one uplink reference signal is to be transmitted; determining whether sufficient power headroom is available at the apparatus to compensate for at least one first insertion loss to be incurred within the apparatus by the at least one respective uplink reference signal transmitted according to the first configuration; if it is determined that sufficient power headroom to compensate for the at least one first insertion loss is not available, transmitting, to the network node, a re-configuration request for the at least one uplink reference signal; receiving, from the network node in response to the re-configuration request, a second configuration for the at least one uplink reference signal associated with a second set of resource blocks over which the at least one uplink reference signal is to be transmitted; and transmitting, to the network node, the at least one uplink reference signal according to the second configuration through the at least one respective antenna port. 17 . The apparatus according to claim 16 , wherein sufficient power headroom is available at the apparatus to compensate for at least one second insertion loss incurred within the apparatus by the at least one respective uplink reference signal transmitted according to the second configuration. 18 . The apparatus according to claim 16 , wherein the determining whether sufficient power headroom is available at the apparatus to compensate for the at least one first insertion loss is at least based on a first required transmission power for the at least one uplink reference signal according to the first configuration, a maximum output power, and the at least one first insertion loss. 19 . The apparatus according to claim 16 , wherein a first required transmission power for the at least one uplink reference signal according to the first configuration is higher than a second required transmission power for the at least one uplink reference signal according to the second configuration. 20 . The apparatus according to claim 16 , wherein the apparats is further caused to at least perform one or more of: determining a first required transmission power for the at least one uplink reference signal according to the first configuration; determining a second required transmission power for the at least one uplink reference signal according to the second configuration; obtaining or determining a maximum output power; or obtaining or determining the at least one first insertion loss or the at least one second insertion loss. 21 . The apparatus according to claim 16 , wherein the re-configuration request for the second configuration comprises one or more of: information indicating that sufficient power headroom to compensate for the at least one first insertion loss is not available; information indicative of the second set of resource blocks; a request for modifying the first set of resource blocks; or a request for applying the second set of resource blocks. 22 . The apparatus according to claim 16 , wherein the second set of resource blocks is a strict subset of the first set of resource blocks and is obtained by masking one or more resource blocks in the first set of resource blocks as being excluded for transmission of the at least one uplink reference signal, or by enabling one or more resource blocks in the first set of resource blocks as being allowed for transmission of the at least one uplink reference signal. 23 . The apparatus according to claim 16 , wherein the apparatus is further caused to at least perform: transmitting, to the network node, the at least one uplink reference signal according to the first configuration through the at least one respective antenna port, if it is determined that sufficient power headroom to compensate for the at least one first insertion loss is available. 24 . The apparatus according to claim 16 , wherein sufficient power headroom at the apparatus to compensate for at least one second insertion loss incurred within the apparatus by the at least one respective uplink reference signal transmitted according to the second configuration is not available, and wherein the apparatus is further caused to at least perform: transmitting, to the network node, in addition to the at least one uplink reference signal according to the second configuration, information indicating at least one uncompensated second insertion loss. 25 . A method comprising, by a user equipment: receiving, from a network node, a first configuration for at least one uplink reference signal to be transmitted through at least one respective antenna port of the user equipment, wherein the first configuration comprises a first set of resource blocks over which the at least one uplink reference signal is to be transmitted; determining whether sufficient power headroom is available at the user equipment to compensate for at least one first insertion loss to be incurred within the user equipment by the at least one respective uplink reference signal transmitted according to the first configuration; if it is determined that sufficient power headroom to compensate for the at least one first insertion loss is not available, transmitting, to the network node, a re-configuration request for the at least one uplink reference signal; receiving, from the network node in response to the re-configuration request, a second configuration for the at least one uplink reference signal associated with a second set of resource blocks over which the at least one uplink reference signal is to be transmitted; and transmitting, to the network node, the at least one uplink reference signal according to the second configuration through the at least one respective antenna port. 26 . The method according to claim 25 , wherein sufficient power headroom is available at the user equipment to compensate for at least one second insertion loss incurred within the user equipment by the at least one respective uplink reference signal transmitted according to the second configuration. 27 . The method according to claim 25 , wherein the determining whether sufficient power headroom is available at the user equipment to compensate for the at least one first insertion loss is at least based on a first required transmission power for the at least one uplink reference signal according to the first configuration, a maximum output power, and the at least one first insertion loss. 28 . The method according to claim 25 , wherein a first required transmission power for the at least one uplink reference signal according to the first configuration is higher than a second required transmission power for the at least one uplink reference signal according to the second configuration. 29 . The method according to claim 25 , wherein the method further comprises, by the user equipment, one or more of: determining a first required transmission power for the at least one uplink reference signal according to the first configuration; determining a second required transmission power for the at least one uplink reference signal according to the second con