A method is presented of determining whether a digital subscriber line is susceptible to radio frequency interference. The method measures the signal to noise ratio (SNR) margin on the digital subscriber line over a number of 24 hour periods. The measured SNR margin over a given 24 hour period is then compared to a reference function of SNR margin over time (24 hours), where the SNR margin of the reference function is higher during the day and lower during the night, and also repeats daily. A measure of the interference susceptibility is generated based on the degree of similarity between the measured SNR margin and the reference function.

A method is presented of determining whether a digital subscriber line is susceptible to radio frequency interference. The method measures the signal to noise ratio (SNR) margin on the digital subscriber line over a number of 24 hour periods. The measured SNR margin over a given 24 hour period is then compared to a reference function of SNR margin over time (24 hours), where the SNR margin of the reference function is higher during the day and lower during the night, and also repeats daily. A measure of the interference susceptibility is generated based on the degree of similarity between the measured SNR margin and the reference function.

Remote on-demand site link testing is provided. A site link tester (SLT) system includes an SLT connected to a customer's VoIP phone system. The SLT is configured to communicate with a front end client application operating remotely on a user's computing device. The packet-capture application receives instructions from the client application to perform a packet capture in association with the SLT's network interface and/or to operate as an emulated VoIP endpoint and conduct a test call (e.g., to confirm the customer's VoIP system's compliance with 911-associated legislation or to troubleshoot a VoIP issue). Results of the packet capture may be sent to the client application and analyzed for remotely diagnosing and troubleshooting VoIP-related problems. Using the SLT system, the technician is enabled to perform 911-associated legislation compliance and diagnose VoIP issues on-demand from a remote location, which can reduce or eliminate the need for a technician to be on-site.

An apparatus for telephone line testing provides a tone generator that can be remotely switched to short or open via a cable pair by monitoring shorts on the cable pair itself to allow a simplified testing protocol with reduced technician travel and without the need for a remote controller carried by the technician.

Various embodiments relate to a method, controller, and machine-readable storage medium for verifying controlled devices attached to the controller including one or more of the following: selecting, using a system model that models a system of devices comprising the controlled devices attached to the controller, a grouping of the system of devices to be tested; conducting a test of the grouping to produce a test result for the grouping, wherein conducting the test comprises transmitting a communication to at least one device associated with the grouping; choosing a graphical representation of a portion of the system model from a plurality of graphical representations based on the graphical representation including a representation of the grouping; and displaying, on a user interface, the graphical representation and an indication of the test result.

Controllers that control a building's state functions can be controlled by a master controller that the controllers choose themselves. The master controller communicates with the controllers and sensors to determine when a building state should change. When the building state should change, the master controller or another controller determines the device or devices that need to modify state values of the building, and send messages to the devices so that they can change building state. If the master controller has a fault, the working controllers can choose another master controller. When a sensor indicates that a building state needs to be changed the master controller determines which device should change state, then tells the controller that is attached to the device.

The invention relates to a phase detection method (200) comprising the following steps: receiving (201) a receiving sequence (Y.sub.j) of values (Y.sub.0, Y.sub.1, . . . , Y.sub.N-1) of a receiving signal (Y), said values (Y.sub.0, Y.sub.1, . . . , Y.sub.N-1) having been sampled with a known sampling frequency f.sub.s and said receiving signal (Y) representing a reaction to a transmitting signal having a known transmitting frequency f.sub.w; providing (202) a sine sequence (S.sub.j) and a cosine sequence (C.sub.j) for each index (j) of the receiving sequence (Y.sub.j), said sine sequence (S.sub.j) comprising sine values of consecutive multiples of a known circular frequency, which depends on the transmitting frequency and the sampling frequency, and said cosine sequence (C.sub.j) comprising cosine values of consecutive multiples of the known circular frequency; and determining (203) a phase real part (U) of the receiving signal (Y) based on a scalar product of the receiving sequence (Y.sub.j) with the cosine sequence (C.sub.j) and a phase imaginary part (V) of the receiving signal based on a scalar product of the receiving sequence (Y.sub.j) with the sine sequence (S.sub.j).

Reliable call hand-offs from a cellular network to a Wi-Fi network. A hand-off controller detects a hand-off condition (e.g., hand-off request, potential/predicted hand-off request) and, in response, initiates a test call. For example, a telephone call made through a smart phone, using a cellular network (e.g., Verizon, AT&T or Sprint) can be handed over to a hot spot at a Starbucks. In response to detecting an available data network, transmission quality for VOIP conditions is automatically tested. If the network conditions meet a certain predetermined threshold, the VOIP hand-off is executed. If the predetermined threshold is not met, the VOIP hand-off may not be executed, or may be delayed.

Disclosed are a line diagnosis method and apparatus. The method includes: acquiring a test result reported by a test device, herein, the test result is a test result acquired after the test device tests a line that needs line diagnosis (S102); and invoking a dynamic language file to analyze the test result and obtaining a line diagnosis result, herein, the dynamic language file includes known line fault types described in a dynamic language and corresponding judging conditions (S104). Through the technical solution, the problem in the related art that the time period of re-customizing a diagnosis program for line diagnosis is too long to satisfy the user demand is solved; the time period required by function customization is largely shortened during line diagnosis, and a user can rapidly adjust the analysis solution according to changes of the line situations, the user demand is satisfied and the user satisfaction is improved.

Disclosed are a line diagnosis method and apparatus. The method includes: acquiring a test result reported by a test device, herein, the test result is a test result acquired after the test device tests a line that needs line diagnosis (S102); and invoking a dynamic language file to analyze the test result and obtaining a line diagnosis result, herein, the dynamic language file includes known line fault types described in a dynamic language and corresponding judging conditions (S104). Through the technical solution, the problem in the related art that the time period of re-customizing a diagnosis program for line diagnosis is too long to satisfy the user demand is solved; the time period required by function customization is largely shortened during line diagnosis, and a user can rapidly adjust the analysis solution according to changes of the line situations, the user demand is satisfied and the user satisfaction is improved.