In accordance with some aspects of the present disclosure, an apparatus is disclosed. In some embodiments, the apparatus includes a processor and a memory. In some embodiments, the memory includes programmed instructions that, when executed by the processor, cause the apparatus to receive a request from a client; determine family of metrics; schedule the request based on the family of metrics; and in response to satisfying one or more scheduling criteria, send the request to a backend server.

Described herein is a platform for providing a resource catalog local to an appliance device, such that the appliance device is able to generate a transaction related to one or more resources within the resource catalog. In some embodiments, the appliance device may receive resource information within streaming data. For example, the appliance device may receive an indication that a portion of streaming media data is related to a resource. Upon determining that a portion of streaming data is related to a resource, the appliance device may be configured to store the portion of data in relation to the identified resource. A user may retrieve and/or execute the portion of streaming data at a later date. In some embodiments, the user may request that a transaction be conducted with respect to the resource and a corresponding transaction request may be generated by the appliance device.

A method performed by one or more network nodes of a wireless telecommunications network to schedule intermittent connectivity of multiple narrowband Internet-of-Things (NB-IoT) devices with the network. The network node(s) can maintain a connectivity schedule that includes profiles for NB-IoT devices and cause the multiple NB-IoT devices to connect to the network in accordance with the schedule at different times based on priority levels associated with the NB-IoT devices. The network node(s) can adjust the connectivity schedule in response to detection of a condition of the network or the NB-IoT device.

Described herein is a platform for providing a resource catalog local to an appliance device, such that the appliance device is able to generate a transaction related to one or more resources within the resource catalog. In some embodiments, the appliance device may receive resource information within streaming data. For example, the appliance device may receive an indication that a portion of streaming media data is related to a resource. Upon determining that a portion of streaming data is related to a resource, the appliance device may be configured to store the portion of data in relation to the identified resource. A user may retrieve and/or execute the portion of streaming data at a later date. In some embodiments, the user may request that a transaction be conducted with respect to the resource and a corresponding transaction request may be generated by the appliance device.

The subject technology determines an availability zone skew among multiple zones. The subject technology, based on the availability zone skew, determines a target skew to meet a global balancing of cluster instances. The subject technology, based on the target skew, selects a particular zone among multiple zones. The subject technology deploys a particular type of cluster instance to the particular zone. The subject technology, for each zone from the multiple zones, determining a respective number of cluster instances. The subject technology identifies a first zone that includes a highest number of cluster instances based on the respective number of cluster instances from each zone. The subject technology identifies a second zone that includes a lowest number of cluster instances based on the respective number of cluster instances from each zone.

Systems and methods for maximizing resource credits across cloud infrastructure are disclosed herein. An example apparatus comprises: at least one memory; instructions; and processor circuitry to execute the instructions to: transmit a request for information associated with a workload executing on a cloud resource to an application programming interface associated with the cloud resource; identify the cloud resource as underutilized based on a change in an infrastructure usage pattern associated with the workload; compute an expected demand for the cloud resource based on a report of activity associated with the workload; and reconfigure the cloud resource to reduce a monetary cost associated with the workload.

A bandwidth scheduling method. The method includes a bandwidth allocation apparatus receives a bandwidth request message sent by a message conversion apparatus, where the bandwidth request message includes a bandwidth requirement, and the bandwidth requirement is a bandwidth required by a user-side apparatus for completing transmission of a service. The bandwidth allocation apparatus calculates first bandwidth grant information and second bandwidth grant information based on the bandwidth requirement, where the first bandwidth grant information is information about a bandwidth that is allocated to the user-side device, and the second bandwidth grant information is information about a bandwidth that is allocated to a second access device. The bandwidth allocation apparatus sends the first bandwidth grant information to the user-side device, and the bandwidth allocation apparatus sends the second bandwidth grant information to the second access device by using a first access device.

Described herein is a platform for providing a resource catalog local to an appliance device, such that the appliance device is able to generate a transaction related to one or more resources within the resource catalog. In some embodiments, the appliance device may receive resource information within streaming data. For example, the appliance device may receive an indication that a portion of streaming media data is related to a resource. Upon determining that a portion of streaming data is related to a resource, the appliance device may be configured to store the portion of data in relation to the identified resource. A user may retrieve and/or execute the portion of streaming data at a later date. In some embodiments, the user may request that a transaction be conducted with respect to the resource and a corresponding transaction request may be generated by the appliance device.

Systems, methods, and machine-readable media for process-performing resources and process specifications particularized to loads are provided. A provisional electronic composite for a load may be created. A type of process-performing resource may be identified. Performance data may be accessed to identify a process-performance duration that corresponds to a process type, the type of process-performing resource, process-performance locations, and process-performance times. A process-assignment duration may be defined, and an availability of a process-performing resource may be detected. A performance time may be determined based on the availability of the process-performing resource. Instruction to perform the process at the performance time may transmitted to at least one resource-controlling device. The provisional electronic composite for the load may be modified based on the performance time and the instruction to form an updated electronic composite.

Method for data transmission within an industrial communication network, wherein selected datagrams are transmitted within predetermined time intervals, which are synchronized at all network nodes, where a number of network nodes from the respective source network node to the respective target network node is determined for forwarding the selected datagrams in each case, and where the selected datagrams are transmitted during first periodic time intervals having a first protection interval length in the event of a determined number of network nodes corresponding to at least one predefined threshold value and, in contrast thereto, if a determined number lies below the threshold value, then the selected datagrams are transmitted during second periodic time intervals having a second protection interval length, which is shorter than the first protection interval length.