Abstract: A system is adapted to automatically optimize the routing of incoming calls. The system includes: a session controller; a first group of media servers; a second group of media servers; and a processor configured to perform operations. The operations include: regularly polling the first group of media servers to determine a first group of most-available servers, and regularly polling the second group of media servers to determine a second group of most-available servers. The operations also include, when the session controller receives an inbound call: selecting a server from the first group of most-available servers or the second group of most-available servers; and connecting the inbound call to the selected server.

Abstract: Methods, non-transitory computer readable media, and work order analysis server devices are disclosed that train a machine learning model based on historical invoice data and target quote rates. A baseline quote rate for an enterprise is generated based historical invoices, quotes, and NTE values. A target quote rate is generated based on the baseline quote rate, tolerance data for the enterprise, and first business rule(s). The tolerance data includes a quantitative indication of an efficiency preference of the enterprise with respect to work order review. The machine learning model is then applied to the target quote rate and work order data extracted from an NTE limit request received from the enterprise to generate a model-recommended NTE limit. A prescribed NTE limit is returned in response to the NTE limit request, which is generated based on an application of second business rule(s) to the model-recommended NTE limit.

Abstract: The present invention relates to a modified ?-Glucocerebrosidase (GCase) polypeptide and a polynucleotide comprising a modified glucocerebrosidase (GBA) nucleotide sequence. The invention further relates to a viral particle comprising a recombinant genome comprising the polynucleotide of the invention, and a composition comprising the modified GCase polypeptide, polynucleotide, or viral particle of the invention. The invention also relates to methods of using, and uses of, the modified GCase polypeptide, polynucleotide, viral particle and/or composition of the invention. The invention further relates to the modified GCase polypeptide, polynucleotide, viral particle, or composition of the invention for use in a method of treatment, or use in the manufacture of a medicament for use in a method of treatment.

Abstract: Methods, non-transitory computer readable media, and an apparatus that assess an impact of a change in a scenario on workplace management include receiving an identification of a workplace environment and a selection of one of a plurality of types of scenarios associated with one of a plurality of types of workplace management machine learning models from one of a plurality of client devices. A subset of stored workplace environment data is retrieved based on the identification of the workplace environment and one or more inputs for the one of workplace management machine learning models associated with the selected one of the scenarios. One or more simulations are executed based one on more received changes in the retrieved subset of workplace environment data in the selected one of the types of workplace management machine learning models to generate a set of insight data. The generated set of insight data for the workplace environment is output to the one of the client devices.

Abstract: A gas turbine combustion system includes a combustor that has at least two injection stages each configured to inject fuel into a combustion chamber of the combustor. A fuel supply circuit is in fluid communication with the at least two injection stages for providing the fuel from a fuel supply to the injection stages. The fuel supply circuit includes at least two branches, each branch being fluidly coupled to a respective injection stage. The gas turbine combustion system further includes at least two heat exchangers fluidly coupled to a thermal fluid supply. Each heat exchanger is disposed in thermal communication on a respective branch of the at least two branches for modifying a temperature of fuel within the respective branch.

Abstract: A telecommunications service provider's real time analysis system analyzes communications data to detect potentially fraudulent communications data, where the analysis is performed in real time in the routing path of the communications data. The communications data may include calls (e.g., SS7, VoIP, etc. based calls) and messages (e.g., SMS, MMS, etc.). The real time analysis system rejects potentially fraudulent communications data and non-fraudulent communications data in order to be used in real time in the routing path of the communications data. A rejection by the real time analysis system may cause non-fraudulent communications data to still be sent to the intended destination of the communications data. The real time analysis system can be in the routing path of the communications data without further routing non-fraudulent communications data traffic to the next appropriate hop in the routing path.

Abstract: The present invention relates to polynucleotides comprising a GBA nucleotide sequence that encodes a GCase protein or fragment thereof and wherein a portion of the coding sequence is not wild type. The present invention further relates to viral particles comprising a recombinant genome comprising the polynucleotide of the invention, compositions comprising the polynucleotides or viral particles, and methods and uses of the polynucleotides, viral particles or compositions.

Abstract: A method that detects unwanted calls based on information shared between a first telecommunications network provided by a first service provider and a second service provider providing a second telecommunications network including receiving, by a data-processing system, a request to provide a telecommunications service to the first telecommunications network, the request being received by the first telecommunications network from a user of the first telecommunications network through a first gateway, and wherein the request comprises a calling party identification that identified a calling party and a called party identification that identified a called party.

Abstract: A telecommunications service provider's real time analysis system analyzes communications data to detect potentially fraudulent communications data, where the analysis is performed in real time in the routing path of the communications data. The communications data may include calls (e.g., SS7, VoIP, etc. based calls) and messages (e.g., SMS, MMS, etc.). The real time analysis system rejects potentially fraudulent communications data and non-fraudulent communications data in order to be used in real time in the routing path of the communications data. A rejection by the real time analysis system may cause non-fraudulent communications data to still be sent to the intended destination of the communications data. The real time analysis system can be in the routing path of the communications data without further routing non-fraudulent communications data traffic to the next appropriate hop in the routing path.

Abstract: A telecommunications service provider's real time analysis system analyzes communications data to detect potentially fraudulent communications data, where the analysis is performed in real time in the routing path of the communications data. The communications data may include calls (e.g., SS7, VoIP, etc. based calls) and messages (e.g., SMS, MMS, etc.). The real time analysis system rejects potentially fraudulent communications data and non-fraudulent communications data in order to be used in real time in the routing path of the communications data. A rejection by the real time analysis system may cause non-fraudulent communications data to still be sent to the intended destination of the communications data. The real time analysis system can be in the routing path of the communications data without further routing non-fraudulent communications data traffic to the next appropriate hop in the routing path.

Abstract: A telecommunications service provider's real time analysis system analyzes communications data to detect potentially fraudulent communications data, where the analysis is performed in real time in the routing path of the communications data. The communications data may include calls (e.g., SS7, VoIP, etc. based calls) and messages (e.g., SMS, MMS, etc.). The real time analysis system rejects potentially fraudulent communications data and non-fraudulent communications data in order to be used in real time in the routing path of the communications data. A rejection by the real time analysis system may cause non-fraudulent communications data to still be sent to the intended destination of the communications data. The real time analysis system can be in the routing path of the communications data without further routing non-fraudulent communications data traffic to the next appropriate hop in the routing path.

Abstract: A telecommunications service provider's real time analysis system analyzes communications data to detect potentially fraudulent communications data, where the analysis is performed in real time in the routing path of the communications data. The communications data may include calls (e.g., SS7, VoIP, etc. based calls) and messages (e.g., SMS, MMS, etc.). The real time analysis system rejects potentially fraudulent communications data and non-fraudulent communications data in order to be used in real time in the routing path of the communications data. A rejection by the real time analysis system may cause non-fraudulent communications data to still be sent to the intended destination of the communications data. The real time analysis system can be in the routing path of the communications data without further routing non-fraudulent communications data traffic to the next appropriate hop in the routing path.

Abstract: A telecommunications service provider's real time analysis system analyzes communications data to detect potentially fraudulent communications data, where the analysis is performed in real time in the routing path of the communications data. The communications data may include calls (e.g., SS7, VoIP, etc. based calls) and messages (e.g., SMS, MMS, etc.). The real time analysis system rejects potentially fraudulent communications data and non-fraudulent communications data in order to be used in real time in the routing path of the communications data. A rejection by the real time analysis system may cause non-fraudulent communications data to still be sent to the intended destination of the communications data. The real time analysis system can be in the routing path of the communications data without further routing non-fraudulent communications data traffic to the next appropriate hop in the routing path.

Abstract: A telecommunications service provider's real time analysis system analyzes communications data to detect potentially fraudulent communications data, where the analysis is performed in real time in the routing path of the communications data. The communications data may include calls (e.g., SS7, VoIP, etc. based calls) and messages (e.g., SMS, MMS, etc.). The real time analysis system rejects potentially fraudulent communications data and non-fraudulent communications data in order to be used in real time in the routing path of the communications data. A rejection by the real time analysis system may cause non-fraudulent communications data to still be sent to the intended destination of the communications data. The real time analysis system can be in the routing path of the communications data without further routing non-fraudulent communications data traffic to the next appropriate hop in the routing path.

Abstract: A method that detects unwanted calls based on information shared between a first telecommunications network provided by a first service provider and a second service provider providing a second telecommunications network including receiving, by a data-processing system, a request to provide a telecommunications service to the first telecommunications network, the request being received by the first telecommunications network from a user of the first telecommunications network through a first gateway, and wherein the request comprises a calling party identification that identified a calling party and a called party identification that identified a called party.

Abstract: A system and method for connecting a call from an originating endpoint of a calling party to a terminating endpoint of a called party. The system comprises: a first computer system configured to i) receive, from a second computer system, a plurality of subscriber identifiers for a first over-the-top (OTT) call service, comprising a subscriber identifier of the called party, ii) receive, from a third computer system, a first series of plural updates for a predetermined connection characteristic and corresponding to the subscriber identifier of the called party, and iii) generate a signal for controlling the call, wherein the signal indicates to route the call either a) via the first OTT call service or b) via a different call service, based the first series of plural updates; and a networking device configured to route the call to the terminating endpoint, based on the signal.

Abstract: A telecommunications service provider's real time analysis system analyzes communications data to detect potentially fraudulent communications data, where the analysis is performed in real time in the routing path of the communications data. The communications data may include calls (e.g., SS7, VoIP, etc. based calls) and messages (e.g., SMS, MMS, etc.). The real time analysis system rejects potentially fraudulent communications data and non-fraudulent communications data in order to be used in real time in the routing path of the communications data. A rejection by the real time analysis system may cause non-fraudulent communications data to still be sent to the intended destination of the communications data. The real time analysis system can be in the routing path of the communications data without further routing non-fraudulent communications data traffic to the next appropriate hop in the routing path.

Abstract: A system and method for connecting a call from an originating endpoint of a calling party to a terminating endpoint of a called party. The system comprises: a first computer system configured to i) receive, from a second computer system, a plurality of subscriber identifiers for a first over-the-top (OTT) call service, comprising a subscriber identifier of the called party, ii) receive, from a third computer system, a first series of plural updates for a predetermined connection characteristic and corresponding to the subscriber identifier of the called party, and iii) generate a signal for controlling the call, wherein the signal indicates to route the call either a) via the first OTT call service or b) via a different call service, based the first series of plural updates; and a networking device configured to route the call to the terminating endpoint, based on the signal.

Abstract: When a roaming telephone user in a visited network dials a long-distance number, he is transferred to a substitute telephone number which is local to that network and belongs to a service center which can route his call efficiently and cost effectively. Typically, the visited network contacts the user's home network for permission to complete the long-distance call. When that happens, the home network obtains the substitute number from a database on a telephone number server, based upon the location of the visited network, and responds to the visited network, instructing it to forward the user's call to the substitute telephone number. When the service center receives the roaming user's telephone call, it contacts the telephone number server and obtains the original long-distance number, which is stored in the database in association with the substitute telephone number.

Abstract: Fraudulent VoIP calls are detected and blocked by automated procedures performed at a router server in the VoIP service provider's system which, usually, just analyzes call requests and sets up a route between the calling and called parties. The stringency of automated fraudulent call detection and blocking processes is based on calling customer credit worthiness and the destination of the call.