A network isolation device includes an internal network interface to connect the network isolation device to an internal network and an external network interface to connect the network isolation device to an external network. The network isolation device further includes an airgap device that operates to (i) close an air gap to connect the internal network to the external network, (ii) open the air gap to disconnect the internal network from the external network. The device further includes a signal receiver that receives a signal from a signal source, and based on the signal, performs an authentication process to determine whether the signal or the signal source are authorized. In response to determining that the signal or the signal source is authorized, the receiver operates the airgap device to close the air gap and connect the internal network to the external network.

Control information for configuring an audiovisual device to present multimedia content according to a first service type may be generated. A method may include generating first control information for configuring an audiovisual device to decode a multimedia stream, generating first data that indicates a structure of the first control information, and transmitting the first data and the first control information. The first control information may be generated according to a first protocol version. Second data and second control information may be similarly generated and transmitted according to a second protocol version. Disclosed techniques may facilitate receiving devices to determine whether they support received wireless transmissions and decode the transmissions based on the control information.

Control information for configuring an audiovisual device to present multimedia content according to a first service type may be generated. A method may include generating first control information for configuring an audiovisual device to decode a multimedia stream, generating first data that indicates a structure of the first control information, and transmitting the first data and the first control information. The first control information may be generated according to a first protocol version. Second data and second control information may be similarly generated and transmitted according to a second protocol version. Disclosed techniques may facilitate receiving devices to determine whether they support received wireless transmissions and decode the transmissions based on the control information.

The present disclosure describes a point-to-multipoint communication system having a service provider system and one or more subscriber devices. The one or more subscriber devices include multiple physical layer (PHY) devices that can be used for upstream direction and/or downstream direction transfer of information to and/or from the service provider system. The one or more subscriber devices receive subscriber device configuration information from the service provider system indicating which of these multiple PHY devices are to be used for the upstream direction and/or the downstream direction transfer of the information to and/or from the service provider system. In some situations, the subscriber device configuration information identifies various types of information, such as video, audio, and/or data to provide some examples, to be transferred in the upstream direction and/or the downstream direction and/or one or more PHY devices to be used for transferring the various types of information.

A method for Xx/Xn interface communication is disclosed, comprising: at an Xx/Xn gateway for communicating with, and coupled to, a first and a second radio access network (RAN), receiving messages from the first RAN according to a first Xx/Xn protocol and mapping the received messages to a second Xx/Xn protocol for transmission to the second RAN; maintaining state of one of the first RAN or the second RAN at the Xx/Xn gateway; executing executable code received at an interpreter at the Xx/Xn gateway as part of the received messages; altering the maintained state based on the executed executable code; and receiving and decoding an initial Xx/Xn message from the first RAN; identifying specific strings in the initial Xx/Xn message; matching the identified specific strings in a database of stored scripts; and performing a transformation on the initial Xx/Xn message, the transformation being retrieved from the database for stored scripts, the stored scripts being transformations.

A method includes building a wireless packet that includes a preamble that is compliant with a first wireless communication protocol and is forward compatible with a second wireless communication protocol that is different than the first wireless communication protocol. Building the wireless packet includes building the preamble with a first subset of bits that are specified in both the first wireless communication protocol and the second wireless communication protocol, the first subset of bits including one or more media access control (MAC) layer characteristics. Building the wireless packet includes building the preamble with a second subset of bits that are specified in the first wireless communication protocol exclusive of the second wireless communication protocol. The method further includes transmitting the wireless packet to one or more receiver nodes.

A method includes building a wireless packet that includes a preamble that is compliant with a first wireless communication protocol and is forward compatible with a second wireless communication protocol that is different than the first wireless communication protocol. Building the wireless packet includes building the preamble with a first subset of bits that are specified in both the first wireless communication protocol and the second wireless communication protocol, the first subset of bits including one or more media access control (MAC) layer characteristics. Building the wireless packet includes building the preamble with a second subset of bits that are specified in the first wireless communication protocol exclusive of the second wireless communication protocol. The method further includes transmitting the wireless packet to one or more receiver nodes.

A terminal device may be configured to receive support information from a communication device by using a first wireless connection which has been established between the terminal device and the communication device. The support information may indicate whether the communication device supports a predetermined scheme. The terminal device may be configured to, in a case where the support information indicates that the communication device supports the predetermined scheme, execute a first control process for executing wireless communication in conformity with the predetermined scheme between the terminal device and the communication device. The terminal device may be configured to, in a case where the support information indicates that the communication device does not support the predetermined scheme, execute a second control process for executing wireless communication in conformity with a different scheme different from the predetermined scheme between the terminal device and the communication device.

A system comprises a computer having a processor and a memory, the memory storing instructions executable by the processor to receive a communication-protocol-agnostic vehicle control request for a vehicle, determine, based on the communication-protocol-agnostic vehicle control request, a vehicle control operation to be executed at the vehicle, identify, from among a plurality of candidate communication-protocol-specific communication links, a communication-protocol-specific communication link via which to send a vehicle control directive to the vehicle, and send the vehicle control directive to the vehicle via the identified communication-protocol-specific communication link to cause the vehicle to execute the vehicle control operation.

A computing device receives a first communication data associated with a communication connection between a gateway device and an internet service provider; determines a communication protocol associated with the communication connection, wherein the communication protocol comprises a plurality of communication features; identifies a data extraction specification associated with the communication protocol, the data extraction specification comprising an instruction identifying a first communication feature of the plurality of communication features to be extracted from the first communication data; analyzes the first communication data using the data extraction specification; and generates a first extracted data based on the analysis, the first extracted data comprising the first communication feature specified in the data extraction specification.