Signaling radio bearer optimizations and other techniques for supporting small data transmissions

What is claimed is: 1. An evolved Node B (eNodeB) comprising: hardware processing circuitry comprising processor coupled with memory and configured to: process a notification that a User Equipment (UE) is configured to be used for Machine Type Communication (MTC); determine whether there is small data (SD) to transfer to the UE; and configure the UE to use a small data signaling radio bearer (SDSRB), on a control plane to receive the SD, in response to determining that the UE is configured to be used for MTC and that there is SD to transfer to the UE, wherein the SDSRB on the control plane uses non-access stratum (NAS) signaling to send the SD, wherein the SDSRB is a signaling radio bearer other than signaling radio bearers (SRB) SRB0, SRB1, SRB2 and other than a data signaling radio bearer; wherein the SDSRB is configured for highly delay tolerant data that is less than 1024 bits. 2. The eNodeB of claim 1 , wherein operations to configure the UE to use the SDSRB include operations to select a value of a Logical Channel Identification (LCID) field in an identity of the logical channel range. 3. The eNodeB of claim 1 , wherein operations to configure the UE to use the SDSRB include operations to select a value of a Logical Channel Identification (LCID) field in a reserved range. 4. The eNodeB of claim 1 , wherein the SDSRB comprises a first Logical Channel Identification (LCID) for Downlink Shared Channel (DL-SCH) and a second LCID for Uplink Shared Channel (UL-SCH). 5. The eNodeB of claim 1 further comprising, operations to configure the SDSRB using Radio Resource Control (RRC) connection establishment. 6. The eNodeB of claim 5 , wherein operations to configure the SDSRB include using a new value in RRCConnnectionRequest, wherein the new value specifies that the SD has delay tolerance. 7. The eNodeB of claim 1 further comprising, operations to configure the SDSRB using Radio Resource Control (RRC) connection reconfiguration. 8. The eNodeB of claim 1 wherein the SDSRB is connected to a dedicated traffic channel (DTCH). 9. The eNodeB of claim 1 further comprising, operations to transfer SD to the UE using the SDSRB. 10. The eNodeB of claim 9 , wherein the SD is sent after Access Stratum (AS) security is established. 11. The eNodeB of claim 1 , wherein the SD is data that is less than 1,024 bits. 12. The eNodeB of claim 1 , wherein the hardware processing circuitry to configure the UE to use the SDSRB comprises configuring the SDSRB for one of a radio link control (RLC) transparent mode. 13. At least one non-transitory machine-readable medium including instructions for operation of a computing system, which when executed by a machine, cause the machine to perform operations comprising: determine, by an eNodeB, whether a User Equipment (UE) is configured to be used for a Machine Type Communication (MTC); determine whether there is small data (SD) to transfer to the UE, wherein SD includes data that has delay tolerance; and configure the UE to use a small data signaling radio bearer (SDSRB), on a control plane to receive the SD, in response to determining that the UE is configured to be used for MTC and that there is SD to transfer to the UE, wherein the SDSRB on the control plane uses non-access stratum (NAS) signaling to send the SD, wherein the SDSRB is a signaling radio bearer other than signaling bearers (SRB) SRB0, SRB1, SRB2 and other than a data signaling radio bearer; wherein the SDSRB is configured for highly delay tolerant data that is less than 1024 bits. 14. The at least one non-transitory machine-readable medium of claim 13 , wherein operations to configure the UE to use the SDSRB comprises operations to select a value of a Logical Channel Identification (LCID) field in an identity of a logical channel range or a reserved range. 15. The at least one non-transitory machine-readable medium of claim 13 , wherein operations to configure the UE to use the SDSRB comprises configuring the SDSRB for one of a radio link control (RLC) unacknowledged mode. 16. User Equipment (UE) comprising: a transceiver configured to transmit and receive a Machine Type Communication (MTC); and a processor, coupled to the transceiver, arranged to: determine whether the UE has small data (SD) to transfer; and configure the UE to use a small data signaling radio bearer (SDSRB) on a control plane to send the SD, in response to determining that the UE has SD to transfer, wherein configuration of the UE to use the SDSRB to send the SD includes selection of a value of a Logical Channel Identification (LCID) field in an identity of the logical channel range or a reserved range, wherein the SDSRB on the control plane is established using Radio Resource Control (RRC) connection establishment, wherein the SDSRB is a signaling radio bearer other than signaling radio bearers SRB0, SRB 1, SRB2 and other than a data signaling radio bearer; wherein the SDSRB is configured for highly delay tolerant data that is less than 1024 bits. 17. The UE of claim 16 , wherein the processor arranged to configure the UE to use the SDSRB comprises configuring UE to use the SDSRB in one of a radio link control (RLC) unacknowledged mode. 18. A method performed by circuitry of a User Equipment (UE) comprising: determining, by the UE, whether the UE is configured to be used for Machine Type Communication (MTC); determining whether the UE has small data (SD) to transmit, wherein SD includes data that has delay tolerance; and configuring a small data signaling radio bearer (SDSRB) on a control plane using Radio Resource Control (RRC) connection establishment, wherein the SDSRB is a signaling radio bearer other than signaling radio bearers SRB0, SRB 1, SRB2 and other than a data signaling radio bearer; and configuring the UE to use the SDSRB to send the SD, in response to determining that the UE is configured to be used for MTC and that the UE has SD to transfer, wherein configuring the UE to use the SDSRB to send the SD includes selecting a value of a Logical Channel Identification (LCID) field in an identity of the logical channel range or a reserved range; wherein the SDSRB is configured for highly delay tolerant data that is less than 1024 bits. 19. The method of claim 18 , wherein the configuring of the UE to use the SDSRB includes sending an indication to an evolved Node B (eNodeB) that the SD to transfer has delay tolerance. 20. The method of claim 18 further comprising, sending information about Radio Resource Control (RRC) state transitions to an evolved Node B (eNodeB). 21. The method of claim 18 , wherein a transmission that results in configuring the UE occurs over a wireless communications network operating in accordance with a standard from a 3rd Generation Partnership Project (3GPP) long term evolution (LTE) standards family. 22. The method of claim 18 , wherein configuring the UE to use the SDSRB comprises configuring UE to use the SDSRB in a radio link control (RLC) transparent mode.