Abstract: An electronic device according to various embodiments of the disclosure includes a communication circuit configured to perform wireless communication and a processor, wherein the processor is configured to control the electronic device to monitor a second beacon signal output from a second electronic device at preset intervals through the communication circuit, to determine that a network state of the second electronic device is an inactive state based on the second beacon signal not being received during a designated time, and to broadcast a first beacon signal including first information indicating that the network state of the second electronic device is the inactive state to at least one other electronic device through the communication circuit.

Abstract: Provided is an electronic device comprising: a memory storing instructions; and at least one processor configured to execute the instructions to: detect at least one event of the electronic device operating in a first mechanism; in response to the detected at least one event, operate in a second mechanism; and transmitting screen information of the electronic device to another electronic device for displaying a virtual reality screen at the other electronic device based on the screen information.

Abstract: The present disclosure provides methods and systems directed to cell-free identification and/or monitoring of pregnancy-related states. A method for identifying or monitoring a presence or susceptibility of a pregnancy-related state of a subject may comprise assaying a cell-free biological sample derived from said subject to detect a set of biomarkers, and analyzing the set of biomarkers with a trained algorithm to determine the presence or susceptibility of the pregnancy-related state.

Abstract: Provided herein are methods for enriching a biological sample for a target nucleic acid, and analyzing the nucleic acid. In some cases, a biological sample is enriched for target nucleic acids associated with a cancer or tumor. In some cases, a biological sample is enriched for target nucleic acids, and the target nucleic acids vary in length. In some cases, one or more probes are used to enrich the biological sample for the target nucleic acid. In some cases, one or more probes hybridize to one or more ends of a target nucleic acid.

Abstract: Provided herein are methods for enriching a biological sample for a target nucleic acid, and analyzing the nucleic acid. In some cases, a biological sample is enriched for target nucleic acids associated with a cancer or tumor. In some cases, a biological sample is enriched for target nucleic acids, and the target nucleic acids vary in length. In some cases, one or more probes are used to enrich the biological sample for the target nucleic acid. In some cases, one or more probes hybridize to one or more ends of a target nucleic acid.

Abstract: An electronic device according to various embodiments of the disclosure includes a communication circuit configured to perform wireless communication and a processor, wherein the processor is configured to control the electronic device to monitor a second beacon signal output from a second electronic device at preset intervals through the communication circuit, to determine that a network state of the second electronic device is an inactive state based on the second beacon signal not being received during a designated time, and to broadcast a first beacon signal including first information indicating that the network state of the second electronic device is the inactive state to at least one other electronic device through the communication circuit.

Abstract: Provided herein are methods for enriching a biological sample for a target nucleic acid, and analyzing the nucleic acid. In some cases, a biological sample is enriched for target nucleic acids associated with a cancer or tumor. In some cases, a biological sample is enriched for target nucleic acids, and the target nucleic acids vary in length. In some cases, one or more probes are used to enrich the biological sample for the target nucleic acid. In some cases, one or more probes hybridize to one or more ends of a target nucleic acid.

Abstract: Novel antibodies for the detection and/or treatment of a cancer (e.g., a pancreatic cancer or an ovarian cancer) are provided. In certain embodiments the antibodies bind a region of the MUC4 protein that does not comprise the central tandem repeat (TR) domain of MUC4. Certain antibodies bind to the MUC4 peptide fragment MUC4-?-N-Ter and/or to the MUC4 peptide fragment MUC4-?-C-Ter. Chimeric constructs comprising such antibodies are also provided.

Abstract: A device may receive a request to present, via a user interface, information associated with an optical network. The information associated with the optical network may be stored using a data structure accessible to provide the information to one or more applications associated with one or more view types. The device may identify an application or a view type associated with the user interface. The device may identify an optical equipment type associated with the request. The optical equipment type may identify a type of optical equipment, associated with the optical network, to be presented for display via the user interface. The device may identify formatting information, for presenting optical network information associated with the optical equipment, based on the optical equipment type and the view type or the application. The device may provide the optical network information, for presentation via the user interface, based on the formatting information.

Abstract: Embodiments of the present invention provide systems, devices and methods for improving the efficient deployment and configuration of networking equipment within a network build-out. In certain embodiments of the invention, an iterative analysis of inter-node equipment placement and connectivity, and inter- and intra-node traffic flow is performed to identify a preferred deployment solution. This analysis of deployment optimization takes into account both configurations from a network node perspective as well as from a network system perspective. Deployment solutions are iteratively progressed and analyzed to determine a preferred solution based on both the cost of deployment and satisfaction of the network demands. In various embodiments of the invention, a baseline marker is generated from which the accuracy of the solution may be approximated that suggests to an engineer whether the deployment is approaching an optimal solution.

Abstract: Embodiments of the invention provide for utilizing an intelligent automated script to test software applications. According to one embodiment, testing a software application can comprise executing a test script for testing a plurality of versions of the software application. For example, executing the test script can comprise instantiating a first instance of the test script for testing the first version of the software application. The first version of the software application can be initiated and a temporary map of the first version of the software application can be built by the test script. The first version of the software application can be tested based on the temporary map. In some cases, a second instance of the test script can be instantiated for testing a second version of the software application. In such cases, the first and second versions of the application may be tested in parallel.

Abstract: The present invention provides a system, apparatus and method for discovery of network elements, which are adjacent within the network data plane but may or may not be adjacent in the network control plane. In one embodiment of the present invention, digital network elements, with a plurality thereof having a lambda switching capability (hereinafter “LSC”) interface, is provided. A digital network element with an LSC interface originates and sends a local advertisement to its immediate control neighbor. Using this LSC originated advertisements; a neighboring network element may be discovered that is adjacent on the network data plane.

Abstract: A method for detecting the liveliness and synchronizing the control-plane and data-plane on protecting connections in a shared mesh network environment through methods for probing the protecting connection conditions by sending in-band messages; and synchronization of control plane and data plane by using LSP-ping messages on the protecting connections.

Abstract: Novel antibodies for the detection and/or treatment of a cancer (e.g., a pancreatic cancer or an ovarian cancer) are provided. In certain embodiments the antibodies bind a region of the MUC4 protein that does not comprise the central tandem repeat (TR) domain of MUC4. Certain antibodies bind to the MUC4 peptide fragment MUC4-?-N-Ter and/or to the MUC4 peptide fragment MUC4-?-C-Ter. Chimeric constructs comprising such antibodies are also provided.

Abstract: A method comprising the steps of receiving a signal indicative of a failure of a working connection in a mesh network having a headend node, a tailend node and an intermediate node, and having a protecting connection, and transmitting an activation message via the protecting connection from at least one of the headend node and the tailend node to the intermediate node for activating the protecting connection.

Abstract: The invention is directed to novel methods of multiplexing nucleic acid reactions, including amplification, detection and genotyping. The invention relies on the use of precircle probes that are circularized in the presence of the corresponding target nucleic acids, cleaved, and then amplified.

Abstract: In accordance with the present disclosure, a method of configuring a wavelength division multiplexed (WDM) network is presented. The WDM network includes circuits that carry optical signals, with each signal corresponding to a wavelength. The WDM network includes nodes, with links connecting the nodes to one another. Each circuit includes at least one link and at least one node. The method comprises assigning each of the circuits to an optical signal, based on first and second criteria, and configuring the nodes based on the assignment.

Abstract: A method for detecting the liveliness and synchronizing the control-plane and data-plane on protecting connections in a shared mesh network environment through methods for probing the protecting connection conditions by sending in-band messages; and synchronization of control plane and data plane by using LSP-ping messages on the protecting connections.

Abstract: The invention is directed to novel methods of multiplexing nucleic acid reactions, including amplification, detection and genotyping. The invention relies on the use of precircle probes that are circularized in the presence of the corresponding target nucleic acids, cleaved, and then amplified.

Abstract: Embodiments of the present invention provide systems, devices and methods for improving the efficient deployment and configuration of networking equipment within a network build-out. In certain embodiments of the invention, an iterative analysis of inter-node equipment placement and connectivity, and inter- and intra-node traffic flow is performed to identify a preferred deployment solution. This analysis of deployment optimization takes into account both configurations from a network node perspective as well as from a network system perspective. Deployment solutions are iteratively progressed and analyzed to determine a preferred solution based on both the cost of deployment and satisfaction of the network demands. In various embodiments of the invention, a baseline marker is generated from which the accuracy of the solution may be approximated that suggests to an engineer whether the deployment is approaching an optimal solution.