A method for handling of a jamming condition affecting a wireless device operating in normal coverage mode includes: determining a base station supporting enhanced coverage mode, providing signals sufficient for decoding in enhanced coverage mode, receiving enhanced coverage system information from said enhanced coverage base station, storing data relating to received enhanced coverage system information broadcast and/or the enhanced coverage base station,
in case of detection of a jamming condition affecting signals from the current base station: checking ability to decode signals from said enhanced coverage base station indicated by said stored data, in case downlink signals of said enhanced coverage base station are decodable in enhanced coverage, starting operation with said enhanced coverage base station in enhanced coverage mode, and sending a jamming indication message to a remote server accessible via the cellular network by means of said enhanced coverage base station.

An access point may include a radio. The radio may receive a waveform, and the waveform may comprise a plurality of pulses. The access point may further include a hardware processor coupled to the radio. The hardware processor may determine a model of the received waveform. Determining a model of the received waveform may include extracting a plurality of characteristics corresponding to the received waveform, determining a plurality of parameters, wherein each of the plurality of parameters is based on a corresponding characteristic of the plurality of characteristics, and constructing an output waveform model based on the plurality of parameters, wherein the output waveform model corresponds to the received waveform. The hardware processor may further transmit the output waveform model to the hardware processor as an input waveform, wherein the input waveform is to tune the model. Moreover, the access point may include a dynamic frequency switching (DFS) module coupled to the hardware processor to receive the output waveform model.

An access point may include a radio. The radio may receive a waveform, and the waveform may comprise a plurality of pulses. The access point may further include a hardware processor coupled to the radio. The hardware processor may determine a model of the received waveform. Determining a model of the received waveform may include extracting a plurality of characteristics corresponding to the received waveform, determining a plurality of parameters, wherein each of the plurality of parameters is based on a corresponding characteristic of the plurality of characteristics, and constructing an output waveform model based on the plurality of parameters, wherein the output waveform model corresponds to the received waveform. The hardware processor may further transmit the output waveform model to the hardware processor as an input waveform, wherein the input waveform is to tune the model. Moreover, the access point may include a dynamic frequency switching (DFS) module coupled to the hardware processor to receive the output waveform model.

A method includes determining that a first receiver of a node of a mobile ad-hoc network (MANET) is in an electromagnetic contested environment for a first frequency. The method also includes scanning a frequency coverage range of a second receiver of the node for unused frequencies. The method additionally includes selecting a frequency from the unused frequencies, the selected frequency to be used for communication of messages from another node of the MANET to the node via the second receiver. The method further includes transmitting, to the other node, a message including information of the selected frequency via the transmitter.

Dynamic frequency selection (DFS) is often a requirement for a wireless local area network (WLAN) apparatus to prevent the apparatus from interfering with other systems that have a priority to a radio frequency (RF) channel. When DFS is executed, the WLAN apparatus ceases WLAN operations on the channel and searches for an open channel to resume WLAN operations. Often a WLAN apparatus misinterprets signals from another system as operating on the channel when actually the received signals are signals leaked into the channel from a system transmitting on a different channel. Presented herein are methods and apparatuses for preventing unnecessary DFS operations resulting from misinterpreted signals through the use of a signal to noise ratio determined from a pulse spectral density of the received signal.

Various techniques are provided for a method that may include generating an additional frequency shift for wireless transmission, generating a frequency shift pattern based on a standard carrier frequency and the additional frequency shift, communicating, by a base station to a user equipment, information related to the additional frequency shift, and communicating, by the base station to the user equipment, a data stream using the frequency shift pattern.

A wireless communication terminal has a plurality of communicators, a radar detection circuit, a channel use confirmation circuit, a channel information acquisition circuit, a channel information notification circuit, a channel determination circuit, and a channel setting circuit. First communication channel information indicates a data communication channel set in a communicator of a first peripheral terminal. Second communication channel information indicates a monitoring communication channel set in the communicator of the first peripheral terminal or a communication channel confirmed to be usable by the channel use confirmation circuit of the first peripheral terminal. The channel determination circuit determines a communication channel different from any of a first communication channel indicated by the first communication channel information and a second communication channel indicated by the second communication channel information as the data communication channel.

In a wireless communication terminal, a controller wirelessly receives communication channel information from a first terminal by using a communicator. The communication channel information transmitted from the first terminal to the wireless communication terminal includes first information and second information. The communication channel information transmitted from the second terminal to the first terminal includes the second information. The first information represents a communication channel used for wireless communication by the first terminal. The second information represents a communication channel used for wireless communication by the second terminal. The controller determines a communication channel used for wireless communication by the wireless communication terminal on the basis of the communication channel information.

A controller of a wireless communication terminal wirelessly receives second communication channel information from a second wireless communication terminal using a communicator. The controller wirelessly transmits first communication channel information and the second communication channel information to a third wireless communication terminal using the communicator. The controller wirelessly receives third communication channel information from the third wireless communication terminal using the communicator. The controller wirelessly transmits the first communication channel information and the third communication channel information to the second wireless communication terminal using the communicator.

Methods, systems, and apparatus, including computer programs encoded on a storage device, for triggering an alarm during a sensor jamming attack. In one aspect, a monitoring system sensor unit is disclosed that includes a sensor, a communication unit configured to communicate with a monitoring system using a range of frequencies, and a jamming detection unit. The jamming detection unit may include a processor and a computer storage media storing instructions that, when executed by the processor, cause the processor to perform operations. The operations include detecting a sensor jamming event, selecting a different form of communication other than the range of radio frequencies for the communication unit to communicate with the monitoring system, and providing, to the communication unit, an instruction to communicate with the monitoring system using the form of communication, wherein the communication unit may communicate, to the monitoring system using the form of communication, the sensor data.