A solution is provided that can be used in a communication node. A case is provided that supports a card module. The card module includes a circuit board with a front edge and a rear edge and includes a chiclet mounted adjacent the front edge. A housing can be pressed onto the circuit board and chiclet and be retain the housing in place. A transformer box is provided is provided on the circuit board between the housing and the rear edge. A POE card can be mounted on the circuit board between the transformer box and the housing.

A solution is provided that can be used in a communication node. A case is provided that supports a card module. The card module includes a circuit board with a front edge and a rear edge and includes a chiclet mounted adjacent the front edge. A housing can be pressed onto the circuit board and chiclet and be retain the housing in place. A transformer box is provided is provided on the circuit board between the housing and the rear edge. A POE card can be mounted on the circuit board between the transformer box and the housing.

Systems and methods for monitoring and detecting parameters within a facility. The systems and methods include an actuator to adjust a position of a sensor device, the sensor device capable of gathering sensor data related to one or more parameters. The sensor device is in communication with a transmitter to transmit sensor data, a horizontal position, and a vertical position of the sensor device as it moves and gathers the sensor data. The data is assembled into a data structure showing the data throughout the facility for identification of abnormalities and adjustment of facility parameters.

Systems and methods for monitoring and detecting parameters within a facility. The systems and methods include an actuator to adjust a position of a sensor device, the sensor device capable of gathering sensor data related to one or more parameters. The sensor device is in communication with a transmitter to transmit sensor data, a horizontal position, and a vertical position of the sensor device as it moves and gathers the sensor data. The data is assembled into a data structure showing the data throughout the facility for identification of abnormalities and adjustment of facility parameters.

A signal interpolation method is described. The method includes: receiving an analog input signal; digitizing the analog input signal received, thereby obtaining a digitized input signal having samples; determining a crossing of the digitized input signal with respect to a threshold that was set; and interpolating a signal between at least two successive samples, wherein the signal interpolated has two signal portions each having a linear slope, and wherein one of the signal portions crosses the threshold. A measurement instrument is also described.

Methods, systems, and devices for wireless communications are described. A base station may transmit a downlink message to a user equipment (UE). The base station may allocate a receive time window associated with receiving an uplink message from the UE responsive to the downlink message, wherein the receive time window is allocated based at least in part on a maximum propagation round trip time (RTT) associated with UEs within a coverage area of the base station and a frame size of the uplink message. The base station may monitor the receive time window for the uplink message from the UE. The base station may receive the uplink message from the UE during the receive time window.

A failure identification and handling method includes capturing video including a failure code, identifying the failure code in the video and obtaining an identified failure code, determining failure related information corresponding to the failure code based on the identified failure code and generating display data based on the failure related information, and displaying the failure related information based on the display data. A failure identification and handling system includes an imaging unit, an identification unit, a determination unit, and a display unit. The imaging unit captures video including a failure code. The identification unit identifies the failure code in the video and obtains an identified failure code. The determination unit determines failure related information corresponding to the failure code based on the identified failure code, and generates display data based on the failure related information. The display unit displays the failure related information based on the display data.

A device receives an analog voltage signal over a single physical electrical connection. The analog voltage signal can be converted into a digital value which can then be correlated to (i) an indication of a connection state of the primary device, and (ii) information about another device (or set of devices) which is connected to the device.

A device receives an analog voltage signal over a single physical electrical connection. The analog voltage signal can be converted into a digital value which can then be correlated to (i) an indication of a connection state of the primary device, and (ii) information about another device (or set of devices) which is connected to the device.

A user equipment (UE) operating in a communication system comprising a base station and one or more UEs. The UE may be configured to operate on or “camp” on two different networks with one radio. In this exemplary system, the radio may be normally connected to the first network (NW1) and may from time to time be “tuned away” from NW1 to a second network (NW2). The UE may inform NW1 that it has tuned away to another network, e.g., using start and end indicators. This information may prevent NW1 from wasting downlink capacity by unnecessarily allocating downlink resources to the UE during the tune-away. Alternatively, or in addition, this information may prevent NW1 from penalizing the UE, e.g., by reducing its future downlink allocations, since the UE does not respond to NW1 commands during the tune-away.