Congestion control in wireless networks

What is claimed is: 1 . A destination station (STA) in a wireless network, comprising: a memory; and a processor coupled to the memory, the processor configured to: receive, from a source STA via a router, a plurality of packets, the router being located between the destination STA and a source STA; determine a congestion prediction to the source STA based on packet arrival times of the plurality of packets; compare the congestion prediction with a first threshold; generate a congestion prediction signal based on the comparison, wherein the congestion prediction signal indicates an operation mode of the source STA; and transmit, to the source STA via the router, the congestion prediction signal. 2 . The destination STA of claim 1 , wherein the packet arrival times are associated with delay in a buffer at the router or propagation delay between the destination STA and the source STA. 3 . The destination STA of claim 1 , wherein the processor is further configured to, during a first time window: determine that the congestion prediction is less than the first threshold; and generate the congestion prediction signal indicating a first operation mode that the source STA operates in a single link operation mode using a primary link or that the source STA maintains a packet transmission rate from source STA to the destination STA. 4 . The destination STA of claim 3 , wherein the processor is further configured to, during a second time window: determine that the congestion prediction is greater than the first threshold; and generate the congestion prediction signal indicating a second operation mode that the source STA operates in a multi-link operation mode using the primary link and one or more secondary links or that the source STA decreases the packet transmission rate from the source STA to the destination STA. 5 . The destination STA of claim 4 , wherein the processor is further configured to, during a third time window: determine that the congestion prediction is less than a second threshold, wherein the second threshold is less than the first threshold; and generate the congestion predication signal indicating that the source STA returns to operating in the first operation mode. 6 . The destination STA of claim 1 , wherein the processor is further configured to estimate a set of autoregressive coefficients that models congestion from the packet arrival packet times. 7 . The destination STA of claim 6 , wherein the processor is further configured to perform training on samples within a training interval to estimate the set of autoregressive coefficients. 8 . The destination STA of claim 1 , wherein the processor is further configured: receive, from the router, a congestion notification signal indicating congestion at the router; and perform a logical operation based on the received congestion notification signal and the congestion prediction signal to generate the congestion prediction signal. 9 . A source station (STA) in a wireless network, comprising: a memory; and a processor coupled to the memory, the processor configured to: receive, from a destination STA via a router, a congestion predication signal that indicates an operation mode for the source STA, the router being located between the source STA and the destination STA; and transmit packets to the destination STA based on the operation mode indicated by the congestion predication signal. 10 . The source STA of claim 9 , wherein the processor is further configured to, during a first time window: operate in a first operation mode such that the source STA operates in a single link operation mode using a primary link or that the source STA maintains a packet transmission rate from source STA to the destination STA based on the congestion prediction signal indicating the first operation mode. 11 . The source STA of claim 10 , wherein the processor is further configured to, during a second time window: operate in a second operation mode such that source STA operates in a multi-link operation mode using the primary link and one or more secondary links or that the source STA decreases the packet transmission rate from the source STA to the destination STA based on the congestion predication signal indicating the second operation mode. 12 . The source STA of claim 11 , wherein the processor is further configured to, during a third time window: return to operating in the first operation mode based on the congestion predication signal indicating the first operation mode. 13 . A computer-implemented method for wireless communication by a destination station (STA) in a wireless network, comprising: receiving, from a source STA via a router, a plurality of packets, the router being located between the destination STA and a source STA; determining a congestion prediction to the source STA based on packet arrival times of the plurality of packets; comparing the congestion prediction with a first threshold; generating a congestion prediction signal based on the comparison, wherein the congestion prediction signal indicates an operation mode of the source STA; and transmitting, to the source STA via the router, the congestion prediction signal. 14 . The computer implemented method of claim 13 , wherein the packet arrival times are associated with delay in a buffer at the router or propagation delay between the destination STA and the source STA. 15 . The computer implemented method of claim 13 , further comprising, during a first time window: determining that the congestion prediction is less than the first threshold; and generating the congestion prediction signal indicating a first operation mode that the source STA operates in a single link operation mode using a primary link or that the source STA maintains a packet transmission rate from source STA to the destination STA. 16 . The computer implemented method of claim 15 , further comprising, during a second time window: determining that the congestion prediction is greater than the first threshold; and generating the congestion prediction signal indicating a second operation mode that the source STA operates in a multi-link operation mode using the primary link and one or more secondary links or that the source STA decreases the packet transmission rate from the source STA to the destination STA. 17 . The computer implemented method of claim 16 , further comprising, during a third time window: determining that the congestion prediction is less than a second threshold, wherein the second threshold is less than the first threshold; and generating the congestion predication signal indicating that the source STA returns to operating in the first operation mode. 18 . The computer implemented method of claim 13 , further comprising estimating a set of autoregressive coefficients that models congestion from the packet arrival packet times. 19 . The computer implemented method of claim 18 , further comprising performing training on samples within a training interval to estimate the set of autoregressive coefficients. 20 . The computer implemented method of claim 13 , further comprising: receiving, from the router, a congestion notification signal indicating congestion at the router; and performing a logical operation based on the received congestion notification signal and the congestion prediction signal to generate the congestion prediction signal.