Method and apparatus for controlling small data transmission on the uplink

What is claimed is: 1. A user equipment (UE) comprising physical layer circuitry to: transmit first data on a logical uplink channel, the logical uplink channel having been assigned for use by machine-type communications (MTC) applications for transmission of MTC application data; receive transmission time restriction information, responsive to the transmitting, that indicates time periods during which the UE is permitted to transmit additional MTC data on the logical uplink channel; and refrain from transmitting additional MTC data in a time period on the logical uplink channel based on the transmission time restriction information, wherein the transmission time restriction information is received in a radio resource control (RRC) signal from an evolved Node B (eNodeB) in accordance with a standard of the 3 rd Generation Partnership Project (3GPP) family of standards, the RRC signal including an information element (IE) to identify a Data Radio Bearer (DRB) and the logical uplink channel for which the transmission time restriction applies, and the RRC signal further including a transmission time restriction IE; wherein the transmission time restriction IE includes a subframe restriction bitmap for indicating subframes for which the UE is permitted to transmit on the logical uplink channel, and wherein the UE includes a first application with a first priority level and a second application with a second priority level, lower than the first priority level, the refraining includes refraining from transmitting data of the second application, and the UE is further configured to, subsequent to receiving transmission time restriction IE, transmit data for the first application on another logical uplink channel separate from the logical uplink channel in a time period on which the UE refrains from transmitting data for the second application. 2. The UE of claim 1 , wherein the transmission time restriction IE includes a plurality of subframe restriction bitmaps, and the UE is configured to receive an index value, in physical downlink control channel (PDCCH) downlink control information (DCI), indicating which of the plurality of subframe restriction bitmaps to use for the refraining. 3. The UE of claim 1 , wherein the transmission time restriction IE includes a plurality of subframe restriction bitmaps, and the UE is configured to receive an index value, in a medium access control (MAC) control element indicating which of the plurality of subframe restriction bitmaps to use for the refraining. 4. The UE of claim 1 , wherein the UE is configured to: receive and store application data to be transmitted on an uplink resource; determine whether to transmit an uplink scheduling request (SR) to request resources for transmitting the buffered data, based on a value of a delay parameter; and refrain from transmitting the uplink SR if the value of the delay parameter is below a threshold. 5. The UE of claim 4 , wherein the UE is configured to: apply the transmission time restriction data for determining whether to refrain from transmitting on a first uplink logical channel, and apply the delay parameter for determining whether to refrain from transmitting the uplink SR. 6. The UE of claim 5 , wherein threshold information for the delay parameter is based on an identity of the second uplink logical channel, on a type of an application for which the data is to be transmitted, or on an identity of the UE, and the threshold information is included in a logical channel configuration information element (IE) transmitted in accordance with a standard of the 3 rd Generation Partnership Project (3GPP) family of standards. 7. An evolved NodeB (eNodeB) comprising: a transceiver arranged to receive a transmission on an uplink connection from a user equipment (UE); and a processor arranged to: determine that the UE is a machine-type communications (MTC) UE and that the transmission is for a low-priority application wherein the determining is based on an amount of data in the transmission and on a logical channel on which the transmission was transmitted, wherein a low priority MTC communication is received on a first logical channel and a high priority MTC communication is received on a second logical channel different from the first logical channel; and based on the determining, configure a radio resource control (RRC) configuration message for transmission to the UE, the RRC configuration message including an information element (IE) including information identifying a Data Radio Bearer (DRB) and the logical uplink channel for which the transmission time restriction applies, and the RRC message further including a transmission time restriction IE indicating uplink subframes for which the UE is restricted from transmitting; wherein the transceiver is further arranged to receive additional MTC communications from the UE in a time period based on the transmission time restriction IE and wherein the high priority MTC communication is received on the second logical channel in a time period for which the UE refrains from transmitting low priority MTC communications on the first logical channel responsive to the transmission time restriction IE. 8. The eNodeB of claim 7 , wherein the RRC configuration message includes a plurality of subframe restriction configurations, a first configuration of the plurality of configurations restricting UE uplink transmissions on a subframe that is not restricted by a second configuration of the plurality of configurations; and the one or more processors are arranged to configure a second message for indicating which configuration of the plurality of configurations is to be used by the UE. 9. The eNodeB of claim 8 , wherein the second message includes physical downlink control channel (PDCCH) downlink control information (DCI) formatted in accordance with a standard of the 3 rd Generation Partnership Project (3GPP) family of standards for long term evolution (LTE). 10. The eNodeB of claim 8 , wherein the second message includes a medium access control (MAC) Control Element formatted in accordance with a standard of the 3 rd Generation Partnership Project (3GPP) family of standards for long term evolution (LTE). 11. A method, performed by user equipment (UE), for small data transmission, the method comprising: transmitting first data on a logical uplink channel, the logical uplink channel having been mapped for transmission of machine-type communications (MTC) application data; receiving transmission time restriction information, in a radio resource control (RRC) signal from an evolved Node B (eNodeB) in accordance with a standard of the 3 rd Generation Partnership Project (3GPP) family of standards, the transmission time restriction information including an information element (IE) to identify a Data Radio Bearer (DRB) and the logical uplink channel for which the transmission time restriction applies, and the transmission time restriction information further including a transmission time restriction IE including a pattern configuration field to identify time periods for which uplink transmission is permitted for the UE; and refraining from transmitting in a subframe of an uplink channel based on the transmission time restriction information; wherein the transmission time restriction IE includes a subframe restriction bitmap for indicating subframes for which the UE is permitted to transmit on the logical uplink channel; and; wherein the UE includes a first application with a first priority level and a second application with a second priority level lower than the first priority level, and the method further comprises: transmitting, subsequent to receiving transmission time re