Provided is a mobile terminal test device that tests a mobile communication terminal by simulating a mobile communication base station, the mobile terminal test device including: an acquisition unit that acquires terminal capability information, which is information related to a capability of the mobile communication terminal, by communicating with the mobile communication terminal; a generation unit that generates a test case as a combination of parameter setting values set in test parameters based on the terminal capability information; an execution unit that sequentially executes the test cases; an identification unit that identifies a parameter condition in which an error occurs, from a set of test cases in which the error occurred among the executed test cases; and a management unit that excludes unexecuted test cases that meet the identified parameter condition from subsequent execution targets.

Provided is a mobile terminal test device that tests a mobile communication terminal by simulating a mobile communication base station, the mobile terminal test device including: an acquisition unit that acquires terminal capability information, which is information related to a capability of the mobile communication terminal, by communicating with the mobile communication terminal; a generation unit that generates a test case as a combination of parameter setting values set in test parameters based on the terminal capability information; an execution unit that sequentially executes the test cases; an identification unit that identifies a parameter condition in which an error occurs, from a set of test cases in which the error occurred among the executed test cases; and a management unit that excludes unexecuted test cases that meet the identified parameter condition from subsequent execution targets.

A system and method for multimode graphic visualization of wireless link parameters is disclosed. In embodiments, the system receives sensed or simulated network performance data relevant to wireless link connections (e.g., communications, navigation, ranging) between network nodes or platforms. The system derives from the network performance data link performance parameters for each wireless link between a first platform or node and other platforms of the network, e.g., bandwidths, waveform types, success/failure indicators, link non-reception or jamming statuses, low probability of intercept (LPI) signal detection/interception statuses, and negative link margins. The system generates graphic visualizations of the network nodes, the wireless links therebetween, and selected performance parameters for each link in one or more selectable performance modes for presentation to a user/operator via a display system; the user/operator may control the presentation mode or displayed elements via control input.

Methods of identifying electrical connections between primary ports of a radio frequency circuit and primary ports of a radio are provided. A method of identifying the electrical connections includes receiving a radio frequency signal via each of the primary ports of the radio frequency circuit. Moreover, the method includes providing, by the radio frequency circuit, different responses to the radio frequency signal that is received via the primary ports, respectively, of the radio frequency circuit. In some embodiments, the different responses are different frequency responses or different delay responses. Related radio frequency circuits are also provided.

A topology-reprogrammable test environment is provided that can support the needs of CI/CD/CV in the field. The system disclosed provides a highly scalable network architecture to simplify the implementation of network slicing, TaaS and network CI/CD, and solves problems related to the complexity of cloud-native network (CNN) deployments. A Network Cell (NC), comprises or consists of a Containerized Network Function (CNF), a Containerized Digital Twin (CDT), and a Containerized Test Agent (CTA). The CDT has at least two personalities, e.g., an emulator of the CNF in the same NC or a nodal of the CNF. The choice of personality of the CDT is controlled by the CTA of the NC. A number of NCs use a 3D IP address to interconnect and form a new kind of CNN over the infrastructure of VRs.

In one example embodiment, a method includes obtaining sets of input data and an objective, the sets of input data including values of wireless network communication parameters, generating sets of output data for the sets of input data in accordance with the objective, generating a mapping of the sets of input data to the sets of output data and training a network controller using the mapping.

In one example embodiment, a method includes obtaining sets of input data and an objective, the sets of input data including values of wireless network communication parameters, generating sets of output data for the sets of input data in accordance with the objective, generating a mapping of the sets of input data to the sets of output data and training a network controller using the mapping.

Methods, systems, and non-transitory computer readable media for validating a simulated component of a communication network using real traffic. More particularly, a simulator instantiates a simulation environment that includes a base station module, a user equipment (UE) module, and a simulated communication link therebetween. Real traffic generated by a non-simulated UE is sent to a proxy that routes the traffic to the UE module. As a result, test software instated in the simulation environment can be validated using traffic generated by a non-simulated UE.

A system that incorporates aspects of the subject disclosure may perform operations including, for example, obtaining uplink information associated with a downlink path, wherein the uplink information includes operational parameters used by a plurality of communication devices for transmitting wireless signals on a plurality of uplink paths; performing, based on the uplink information, a plurality of measurements of the plurality of uplink paths; identifying a measurement from the plurality of measurements that is below a threshold, thereby indicating an affected uplink path of the plurality of uplink paths; initiating a first filtering of the affected uplink path, wherein the initiating is based on the identifying and wherein the first filtering is based upon one or more first filtering parameters; and receiving instructions comprising one or more updated filtering parameters, wherein the instructions are received by the system at a port of the system. Other embodiments are disclosed.

A system that incorporates aspects of the subject disclosure may perform operations including, for example, obtaining uplink information associated with a downlink path, wherein the uplink information includes operational parameters used by a plurality of communication devices for transmitting wireless signals on a plurality of uplink paths; performing, based on the uplink information, a plurality of measurements of the plurality of uplink paths; identifying a measurement from the plurality of measurements that is below a threshold, thereby indicating an affected uplink path of the plurality of uplink paths; initiating a first filtering of the affected uplink path, wherein the initiating is based on the identifying and wherein the first filtering is based upon one or more first filtering parameters; and receiving instructions comprising one or more updated filtering parameters, wherein the instructions are received by the system at a port of the system. Other embodiments are disclosed.