Identifying a dynamic network parameter probe interval in an SD-WAN

The invention claimed is: 1. A method comprising: defining, by a controller in a software-defined Wide Area Network (SD-WAN), a probe profile of an uplink in the SD-WAN, wherein the probe profile of the uplink includes a static probe interval whose expiration triggers a probe for determining a value of a network parameter for the uplink and a probe retry value that defines a number of times the value of the network parameter is to be determined; determining, by the controller, the value of the network parameter for the uplink prior to expiration of a static probe timer determining, by the controller, whether the value of the network parameter is in negative deviation with a baseline value determined for the network parameter; in response to the value of the network parameter being in negative deviation with the baseline value, identifying, by the controller, a dynamic probe interval for a respective subsequent determination of the value of the network parameter, wherein identification of the dynamic probe interval is based on at least one previously determined value of the network parameter, and wherein the subsequent determination of the value of the network parameter is performed for the probe retry value; and initiating, by the controller in the SD-WAN, duplicate network traffic, identical to network traffic passing through the uplink, on the secondary uplink in the SD-WAN, wherein the duplicate network traffic is transferred on the secondary uplink until expiration of the static probe timer. 2. The method of claim 1 , further comprising reducing the dynamic probe interval in response to a successive decrease in the value of the network parameter. 3. The method of claim 1 , further comprising increasing the dynamic probe interval in response to an increase in the value of the network parameter. 4. The method of claim 1 , wherein the baseline value of the network parameter is a frequent value of the network parameter for the uplink. 5. The method of claim 1 , wherein, in response to determining that a last determined value of the network parameter is in negative deviation with the baseline value, stopping transfer of the network traffic on the uplink and continuing transfer of the duplicate network traffic on the secondary uplink. 6. The method of claim 1 , wherein in response to determining that a last determined value of the network parameter has regained the baseline value, stopping transfer of the duplicate network traffic on the secondary uplink and continuing transfer of the network traffic on the uplink. 7. The method of claim 1 , wherein the network traffic via the uplink and the duplicate network traffic via the secondary uplink terminate at a headend gateway device capable of eliminating duplicate network packets through de-duplication. 8. The method of claim 1 , wherein the uplink includes a communication channel based on one of: Multiprotocol Label Switching (MPLS), fourth generation (4G) long-term evolution (LTE) cellular wireless communication, fifth generation (5G) cellular wireless communication, and broadband Internet. 9. A controller in a software-defined Wide Area Network (SD-WAN), comprising: a processor; and a machine-readable medium storing instructions that, when executed by the processor, cause the processor to: define a probe profile of an uplink in the SD-WAN, wherein the probe profile of the uplink includes a static probe interval whose expiration triggers a probe for determining a value of a network parameter for the uplink and a probe retry value that defines a number of times the value of the network parameter is to be determined; determine the value of the network parameter for the uplink prior to expiration of static probe timer; determine whether the value of the network parameter is in negative deviation with a baseline value determined for the network parameter; in response to the value of the network parameter being in negative deviation with the baseline value, identify a dynamic probe interval for a respective subsequent determination of the value of the network parameter, wherein identification of the dynamic probe interval is based on at least one previously determined value of the network parameter, and wherein the subsequent determination of the value of the network parameter is performed for the probe retry value; and initiate duplicate network traffic, identical to network traffic passing through the uplink, on the secondary uplink in the SD-WAN until expiration of the static probe timer. 10. The controller of claim 9 , wherein the network parameter includes one or more of: jitter, latency, packet loss, and bandwidth utilization. 11. The controller of claim 9 , wherein the secondary uplink includes a communication channel based on one of: Multiprotocol Label Switching (MPLS), fourth generation (4G) long-term evolution (LTE) cellular wireless communication, 5G cellular wireless communication, and broadband Internet. 12. The controller of claim 9 , wherein the network traffic via the uplink and the duplicate network traffic via the secondary uplink terminate at a headend gateway device capable of eliminating duplicate network packets through de-duplication. 13. The controller of claim 9 , wherein the network traffic is associated with a specific application. 14. The controller of claim 9 , wherein the instructions to identify the dynamic probe interval include instructions to reduce or increase the dynamic probe interval in response to a decrease or an increase, respectively, in the value of the network parameter. 15. A non-transitory machine-readable storage medium comprising instructions, the instructions executable by a processor of a controller system of a software-defined Wide Area Network (SD-WAN) to: define a probe profile of an uplink in the SD-WAN, wherein the probe profile of the uplink includes a static probe interval whose expiration triggers a probe for determining a value of a network parameter for the uplink and a probe retry value that defines a number of times the value of the network parameter is to be determined; determine the value of the network parameter for the uplink, prior to expiration of static probe timer; determine whether the value of the network parameter is in negative deviation with a baseline value determined for the network parameter; in response to the value of the network parameter being in negative deviation with the baseline value, identify a dynamic probe interval for a respective subsequent determination of the value of the network parameter, wherein identification of the dynamic probe interval is based on at least one previously determined value of the network parameter, and wherein the subsequent determination of the value of the network parameter is performed for the probe retry value; and initiate duplicate network traffic, identical to network traffic passing through the uplink, on the secondary uplink in the SD-WAN until expiration of the static probe timer. 16. The storage medium of claim 15 , wherein the controller system includes an SD-WAN branch gateway device. 17. The storage medium of claim 15 , wherein the network traffic via the uplink and the duplicate network traffic via the secondary uplink terminate at a headend gateway device capable of eliminating duplicate network packets through de-duplication. 18. The storage medium of claim 15 , wherein the instructions to identify the dynamic probe interval include instructions to reduce the dynamic probe interval in response to decrease in the value of the network parameter. 19. The stora