A method for concurrent execution of multiple protocols using a single radio of a wireless communication device is provided that includes receiving, in a radio command scheduler, a first radio command from a first protocol stack of a plurality of protocol states executing on the wireless communication device, determining a scheduling policy for the first radio command based on a current state of each protocol stack of the plurality of protocol stacks, and scheduling the first radio command in a radio command queue for the radio based on the scheduling policy, wherein the radio command scheduler uses the radio command queue to schedule radio commands received from the plurality of protocol stacks.

An electronic device according to various example embodiments includes: at least one wireless communication module comprising wireless communication circuitry configured to support a first communication protocol and a second communication protocol, at least one processor operatively connected to the wireless communication module, and a memory electrically connected to the processor and configured to store instructions executable by the processor. When the instructions are executed by the processor, the processor may, using the wireless communication module, set a schedule for a first data link that uses a first frequency band as the second communication protocol with a first external electronic device, set a schedule for a second data link that uses a second frequency band as the second communication protocol with a second external electronic device, and change the second data link to a third data link that uses a third frequency band and perform communication with the second external electronic device, based on the third frequency band being available due to a termination of the first data link.

An electronic device according to various example embodiments includes: at least one wireless communication module comprising wireless communication circuitry configured to support a first communication protocol and a second communication protocol, at least one processor operatively connected to the wireless communication module, and a memory electrically connected to the processor and configured to store instructions executable by the processor. When the instructions are executed by the processor, the processor may, using the wireless communication module, set a schedule for a first data link that uses a first frequency band as the second communication protocol with a first external electronic device, set a schedule for a second data link that uses a second frequency band as the second communication protocol with a second external electronic device, and change the second data link to a third data link that uses a third frequency band and perform communication with the second external electronic device, based on the third frequency band being available due to a termination of the first data link.

A mobile edge computing (MEC) service area can utilized packet header source and/or destination internet protocol data and session initiation protocol source and/or destination internet protocol data to map internet protocol addresses associated with mobile devices. The MEC can comprise a translation component that translates service provider internet protocol addresses such that they are perceived as enterprise premises internet protocol addresses. Conversely, the translation component can translate enterprise premises internet protocol addresses such that they are perceived as service provider internet protocol addresses.

Techniques for operating a network device for multiple packet encapsulation for different tunnels are provided. In some embodiments, the network device may receive an original packet on an ingress port, the original packet being received from a first host and addressed to a second host; encapsulate the original packet in a first tunnel packet for a first tunnel; recirculate the first packet through a loopback port; encapsulate the recirculated packet in a second tunnel packet for a second tunnel; and egress the packet encapsulated for the second tunnel. The switch may further add a first tunnel header to the original packet to encapsulate the first packet and add a second tunnel header to the recirculated packet to encapsulate the recirculated packet.

Techniques for operating a network device for multiple packet encapsulation for different tunnels are provided. In some embodiments, the network device may receive an original packet on an ingress port, the original packet being received from a first host and addressed to a second host; encapsulate the original packet in a first tunnel packet for a first tunnel; recirculate the first packet through a loopback port; encapsulate the recirculated packet in a second tunnel packet for a second tunnel; and egress the packet encapsulated for the second tunnel. The switch may further add a first tunnel header to the original packet to encapsulate the first packet and add a second tunnel header to the recirculated packet to encapsulate the recirculated packet.

Methods and systems of monitoring and managing a facility. One system includes a universal gateway device including an electronic processor configured to receive, via a first communication protocol, a first set of data from a first end point device. The electronic processor is also configured to receive, via a second communication protocol different from the first communication protocol, a second set of data from a second end point device. The electronic processor is also configured to process the first set of data and the second set of data pursuant to a third communication protocol. The electronic processor is also configured to enable, via the third communication protocol, transmission of the processed first set of data and the processed second set of data to a remote device for virtual processing.

Methods and systems of monitoring and managing a facility. One system includes a universal gateway device including an electronic processor configured to receive, via a first communication protocol, a first set of data from a first end point device. The electronic processor is also configured to receive, via a second communication protocol different from the first communication protocol, a second set of data from a second end point device. The electronic processor is also configured to process the first set of data and the second set of data pursuant to a third communication protocol. The electronic processor is also configured to enable, via the third communication protocol, transmission of the processed first set of data and the processed second set of data to a remote device for virtual processing.

An apparatus of a wireless system, product to be implemented at a computer process of the wireless system, and method to operate the apparatus. The apparatus includes an input; an output; and processing circuitry connected to the input and to the output, the processing circuitry to implement logic to: receive, through the input and from a first modem of the wireless system, information on a traffic attribute relating to communication in compliance with a first wireless communication protocol; determine, based on the traffic attribute, blacklisted channels to be avoided during a discovery procedure by a second modem of the wireless system, the discovery being in compliance with a second wireless communication protocol; and send, through the output, information based on the blacklisted channels to the second modem to cause the second modem to avoid the blacklisted channels during the discovery procedure.

An apparatus of a wireless system, product to be implemented at a computer process of the wireless system, and method to operate the apparatus. The apparatus includes an input; an output; and processing circuitry connected to the input and to the output, the processing circuitry to implement logic to: receive, through the input and from a first modem of the wireless system, information on a traffic attribute relating to communication in compliance with a first wireless communication protocol; determine, based on the traffic attribute, blacklisted channels to be avoided during a discovery procedure by a second modem of the wireless system, the discovery being in compliance with a second wireless communication protocol; and send, through the output, information based on the blacklisted channels to the second modem to cause the second modem to avoid the blacklisted channels during the discovery procedure.