Systems and methods for aggregating a dependency structure based on application logging data, application metadata, customer intent and journey, organizational structure, and operational support information. The method includes receiving data using an application programming interface. The method further includes, for each user, determining a start point and an end point corresponding to user activity on a networked system. The method also includes, for each user, determining a task based on the start point and end point corresponding to the user activity. The method further includes, for each user, determining operations data corresponding to the user activity. The method also includes, for each user, determining a dependency structure based on the task and the operations data. The method also includes aggregating the dependency structure, the task, and the operations data into a visualization. The method further includes generating for display the visualization on a user device.

Described are methods, systems and computer readable media for providing a current row position query language construct and array processing query language constructs and associated processing.

Described are methods, systems and computer readable media for providing a current row position query language construct and array processing query language constructs and associated processing.

A collection of data corresponding to a player is assembled at a server from a data provider. A base value of the player based on at least the primary data is added as an attribute to an internal object stored at the server. A modifier is mapped to a second attribute of the internal object. The modifier is based on at least a portion of the secondary data and the tertiary data. A projected value is generated from the base value by applying a modifier and a rule converting the modified second attribute to a projected value. Internal objects are generated according to constraints including having a sum of limiting factors of the internal objects that does not exceed a maximum factor and a sum of projected values a maximum, subject to the first constraint. The server transmits application data including a list representing the internal objects.

A collection of data corresponding to a player is assembled at a server from a data provider. A base value of the player based on at least the primary data is added as an attribute to an internal object stored at the server. A modifier is mapped to a second attribute of the internal object. The modifier is based on at least a portion of the secondary data and the tertiary data. A projected value is generated from the base value by applying a modifier and a rule converting the modified second attribute to a projected value. Internal objects are generated according to constraints including having a sum of limiting factors of the internal objects that does not exceed a maximum factor and a sum of projected values a maximum, subject to the first constraint. The server transmits application data including a list representing the internal objects.

A first system (11) is configured to transmit an interest message, e.g. to a router (21). The interest message specifies criteria identifying data units from an area of interest, e.g. an intersection, which are to be aggregated and comprises at least one parameter specifying how the data units are requested to be aggregated. A second system (1) is configured to receive the interest message from a sender, e.g. a router (21), determine whether the system will return an aggregation of data units matching the criteria, and return a data message comprising an aggregation of data units matching the criteria to the sender (21) if the processing means have determined that the system will return an aggregation of data units matching the criteria. The data units are aggregated in the data message in dependence on how the data units were requested to be aggregated.

A first system (11) is configured to transmit an interest message, e.g. to a router (21). The interest message specifies criteria identifying data units from an area of interest, e.g. an intersection, which are to be aggregated and comprises at least one parameter specifying how the data units are requested to be aggregated. A second system (1) is configured to receive the interest message from a sender, e.g. a router (21), determine whether the system will return an aggregation of data units matching the criteria, and return a data message comprising an aggregation of data units matching the criteria to the sender (21) if the processing means have determined that the system will return an aggregation of data units matching the criteria. The data units are aggregated in the data message in dependence on how the data units were requested to be aggregated.

Systems and methods are disclosed for a 3G gateway. In a first embodiment, a method is disclosed for a network, comprising: receiving a relocation request message at a home nodeB gateway (HNBGW), the HNBGW coupled to an operator core network, the relocation request message including a target super cell identifier and a user equipment (UE) identifier; sending a second relocation request message from the HNBGW to a coordinating node, the coordinating node having as its identifier the target super cell identifier; querying a lookup table at the coordinating node using the UE identifier to determine a target cell identifier; replacing, in the second relocation request message, the target super cell identifier with the target cell identifier to create a third relocation request message; and sending the third relocation request message to a target cell identified by the target cell identifier.

In an aspect of the present disclosure, there is provided a road side apparatus configured to relay a message. The apparatus may include a memory, a processor, and a transceiver. The processor may be configured to: check whether an identifier received together with a received message is previously stored; when the identifier is stored, replace a personal safety message (PSM) corresponding to the identifier in a pair of the PSM and the identifier with a PSM included in the received message and the store the PSM; when a timer for batch transmission expires or when a total size of stored PSMs exceeds a predetermined value, generate one batch message including all PSMs in stored pairs of PSMs and identifiers; and transmit the generated batch message. The identifier may be information for identifying a transmitter that transmits the message.

Methods are provided for a first proxy service obtaining a request originating from a source network function for a destination network function. These functions are each one of a cloud network function deployed in a cloud network and an edge network function deployed in an on-premises network. The methods further involve providing the request to the destination network function when the request is received from a second proxy service or to the second proxy service when the request is received from the source network function such that the second proxy service provides the request to the destination network function. The first proxy service and the second proxy service are each one of a cloud proxy service deployed in the cloud and configured to communicate with the cloud network function and an edge proxy service deployed at the edge and configured to communicate with the edge network function.