Method and electronic device for managing network resources among application traffic

What is claimed is: 1. A method for managing network resources among application traffic by an electronic device, comprising: identifying a real time application that is running on the electronic device and consuming network resources; determining whether the real time application belongs to a prioritized class or a non-prioritized class, wherein the prioritized class is prioritized for the network resources over the non-prioritized class; in response to determining that the real time application belongs to the prioritized class, determining a User Identifier (UID) of the real time application; and prioritizing the network resources for the real time application based on the UID, wherein prioritizing the network resources for the real time application comprises controlling a data speed limit of background traffic that is associated with other applications running in a background on the electronic device, based on a data speed of the real time application that belongs to the prioritized class, and the data speed limit of the background traffic is determined as a ratio among a plurality of predetermined ratios with respect to the data speed of the real time application, and wherein determining whether the real time application belongs to the prioritized class or the non-prioritized class comprises: determining that the real time application is a Voice/Video over Internet Protocol (VoIP) application which consumes an audio hardware of the electronic device, when detecting the audio hardware of the electronic device is consumed; determining that the real time application is a gaming application which consumes a real time User Datagram Protocol (UDP) traffic, when detecting the real time UDP traffic is consumed; and determining that the real time application belongs to the prioritized class, when the real time application is determined as one of the VoIP application and the gaming application. 2. The method of claim 1 , wherein determining whether the real time application belongs to the prioritized class or the non-prioritized class, further comprises: determining that the real time application belongs to the non-prioritized class, when the real time application is not the VoIP application or the gaming application. 3. The method of claim 1 , wherein prioritizing the network resources for the real time application based on the UID, comprises: setting a flag for the UID of the real time application in a UID owner map that includes the UID and associated parameters, the associated parameters including at least one of a protocol, a source address, a source port, a destination address, and a destination port; detecting the flag that is set for the UID of the real time application from the UID owner map; sending packet data embedded with the associated parameters of the real time application to an Extended Berkley Packet Filter (eBPF) ingress of the electronic device; searching for the associated parameters from packet data upon receiving the packet data; and controlling the data speeds of the real time application and the non-real time application of the electronic device based on detection of the associated parameters, wherein the non-real time application belongs to a non-prioritized class. 4. The method of claim 3 , wherein the controlling comprises: prioritizing the real time application, upon detecting the associated parameters of the real time application from the packet data; and deprioritizing the non-real time application, upon not detecting associated parameters of the non-real time application from the packet data. 5. The method of claim 3 , wherein the controlling comprises: determining a total data speed that is available at the electronic device; determining the data speed of the non-real time application based on the total data speed and an application behavior of priority class traffic of the real time application; determining whether the data speed of the non-real time application is greater than a lower data speed threshold; setting the data speed of the non-real time application to a pre-defined data speed, based on the data speed of the non-real time application being greater than the lower data speed threshold; polling the data speed of the real time application by determining the data speed of the real time application using a Simple Moving Average (SMA) method and an Exponential Moving Average (EMA) method; determining whether the data speed of the real time application is one of progressing or shrinking or stable, based on a higher data speed threshold; and continue polling of the data speed when the data speed of the real time application is progressing, reducing the data speed for the non-real time applications and continuing polling of the data speed of the real time application, when the data speed of the real time application is shrinking, and identifying the higher data speed threshold as a minimum data speed for the real time application, reducing the data speed for the non-real time application, and continuing polling of the data speed of the real time application, when the data speed of the real time application is stable. 6. The method of claim 1 , wherein the real time application is a foreground application running in the foreground on the electronic device. 7. The method of claim 1 , wherein the prioritized class comprises edge traffic, foreground traffic, a network slice, or real time traffic. 8. An electronic device for managing network resources among application traffic comprising: a memory; at least one processor coupled to the memory, the at least one processor configured to: identify a real time application that is running on the electronic device and that is consuming network resources, determine whether the real time application belongs to a prioritized class or a non-prioritized class, wherein the prioritized class is prioritized for the network resources over the non-prioritized class, in response to determining that the real time application belongs to the prioritized class, determine a User Identifier (UID) of the real time application, and prioritize the network resources for the real time application based on the UID, wherein to prioritize the network resources for the real time application, the at least one processor is configured to control a data speed limit of background traffic that is associated with other applications running in a background on the electronic device, based on a data speed of the real time application that belongs to the prioritized class, and the data speed limit of the background traffic is determined as a ratio among a plurality of predetermined ratios with respect to the data speed of the real time application, and wherein to determine whether the real time application belongs to the prioritized class or the non-prioritized class, the at least one processor is configured to: determine that the real time application is a Voice/Video over Internet Protocol (VoIP) application which consumes an audio hardware of the electronic device, when detecting that the audio hardware of the electronic device is consumed; determine that the real time application is a gaming application which consumes a real time User Datagram Protocol (UDP) traffic, when detecting the real time UDP traffic is consumed; and determine that the real time application belong to the prioritized class, when the real time application is determined as one of the VoIP application and the gaming application. 9. The electronic device of claim 8 , wherein to determine whether the real time application belongs to the prioritized class or the non-prioritized class, the at least one processor is configured to: determine that the real time application belongs to the