Methods of and systems of service capabilities exposure function (SCEF) based internet-of-things (IOT) communications

The invention claimed is: 1. A method, comprising: receiving, by an augmented service capability exposure function (A-SCEF), a command message from an application server (AS) comprising an external identification tag, an application programming interface (API) instruction associated with the external identification tag, and a security credential; confirming that the security credential is authorized for the external identification tag; in response to the confirming, locating in a first electronically searchable catalog, by the A-SCEF, at least one network identifier associated with the external identification tag, wherein the at least one network identifier is different from the external identification tag; selecting, by the A-SCEF, a data connectivity pathway to at least one user equipment (UE) from at least two data connectivity pathways based at least in part on a selection hierarchy; and sending, by the A-SCEF, a communication to the at least one UE associated with the at least one network identifier based on the API instruction, the communication being sent over the data connectivity pathway that is selected. 2. The method of claim 1 , wherein the confirming includes locating an association between the external identification tag and the security credential in a second electronically searchable catalog of a plurality of external identification tags and associated security credentials. 3. The method of claim 1 , wherein the external identification tag is an external group identification tag, and the at least one network identifier associated with the group external identification tag comprises a plurality of associated network identifiers, each one of the plurality of associated network identifiers identifying a respective UE, and wherein the communication is sent to each of the UEs associated with the plurality of associated network identifiers. 4. The method of claim 1 , wherein the API instruction is a forward data instruction, and wherein: the method further includes identifying, in response to the forward data instruction, in a policy profile associated with at least one of the AS or the UE, a forward data policy setting, wherein the forward data policy setting is at least one of: an active pull setting, a store-and-forward setting, a data rate setting, a memory allocation setting, or a priority setting; and the sending, by the A-SCEF, the communication to the at least one UE comprises at least one of sending, by the A-SCEF, the communication at least one of at a time interval, at a rate, or after other communications between the UE and the A-SCEF or the AS and the A-SCEF, based on the forward data policy setting. 5. The method of claim 4 , wherein the sending, by the A-SCEF, the communication based on the forward data policy setting is sent independent of the API instruction. 6. The method of claim 4 , wherein the command message further comprises a reply interval, and the method further comprising: receiving by the A-SCEF at least one update message, comprising data, from the UE associated with the network identifier; locating in the first electronically searchable catalog, by the A-SCEF, the external identification tag associated with the network identifier; and sending, by the A-SCEF in accordance with the reply interval, a reply message to the AS, the reply message comprising: the external identification tag, and the data received from the UE associated with the network identifier. 7. The method of claim 1 , wherein the command message is a send data command message further comprising data, and the method further comprises sending, by the A-SCEF, the data in the communication to the at least one UE. 8. The method of claim 1 , wherein the communication comprises a short message service (SMS), and wherein the API instruction is a device trigger that instructs the at least one UE to transition from a sleep state wherein power consumption is reduced to a non-sleep state and to connect to an application. 9. The method of claim 1 , wherein the sending, by the A-SCEF, the communication to the at least one UE associated with the at least one network identifier based on the API instruction further comprises sending, by the A-SCEF, the communication to the at least one UE associated with the at least one network identifier over a selected data connectivity pathway. 10. The method of claim 9 , wherein the selecting, by the A-SCEF, the data connectivity pathway to the at least one UE from the at least two data connectivity pathways comprises: determining that more than one of the at least two data connectivity pathways is open; determining a preferred data connectivity pathway based on the selection hierarchy; and selecting the preferred data connectivity pathway. 11. The method of claim 9 , wherein the selecting, by the A-SCEF, the data connectivity pathway to the UE from the at least two data connectivity pathways comprises locating, in a UE capabilities database, a device capabilities list associated with the UE. 12. The method of claim 9 , wherein the selected data connectivity pathway comprises at least one of: a non-IP-via-SGi connectivity pathway; an IP-via-SGi connectivity pathway; an NIDD-via-T6a connectivity pathway; an MT-SMS-via-T4 connectivity pathway; an SMS-via-SGd connectivity pathway; or an SMS-via-Gd connectivity pathway. 13. The method of claim 9 , wherein the selected data connectivity pathway is selected based on traffic data associated with at least one of the at least two data connectivity pathways. 14. The method of claim 13 , wherein the traffic data is associated with a 3GPP network and comprises at least one of: network latency across at least one connectivity pathway; historical network latency across at least one connectivity pathway; load information on at least part of the 3GPP network; historical load information on at least part of the 3GPP network; or priority information. 15. The method of claim 1 , wherein the A-SCEF includes a device gateway function (DG) and a plurality of service capability exposure functions (SCEFs); wherein the locating the at least one network identifier is by the DG; and wherein the sending, by the A-SCEF, the communication to the at least one UE comprises: the DG selecting an active SCEF associated with the UE from among the plurality of SCEFs; and the DG sending the network identifier and information based on the API instruction to the selected SCEF. 16. The method of claim 1 , wherein: the A-SCEF includes a device gateway function (DG) and a service capability exposure function (SCEF); the locating the at least one network identifier is by the DG; and the sending, by the A-SCEF, the communication to the at least one UE comprises the DG sending the network identifier and information based on the API instruction to the SCEF. 17. The method of claim 16 , wherein the receiving is by the DG and the receiving comprises receiving via a fully qualified domain name (FQDN). 18. The method of claim 1 , wherein the sending, by the A-SCEF, the communication to the at least one UE comprises: selecting an SGi pathway; and sending, by the A-SCEF, at least the network identifier to a PGW via the selected SGI pathway. 19. A method, comprising: receiving, by an augmented service capability exposure function (A-SCEF), a command message from an application server (AS) comprising an external identification tag, a security credential, an application programming interface (API) instruction that comprises a forward data instruction;