A method and system for transmission management of Internet of Things (IoT) device data. A method includes receiving polling data from the one or more devices available in the network based at least in part on one or more adaptable device configuration templates stored in a template library, and determining a number of active devices available in the network and data provided by the active devices based on the received polling data and the corresponding adaptable device configuration template. A method includes generating one or more configurable data packets for transmission over the communication channel to the IoT platform, identifying variations in device configurations by comparing the one or more adaptable device configuration templates stored in the template library with the received polling data, and modifying the corresponding adaptable device configuration template based on the identified variations.

A method and system for transmission management of Internet of Things (IoT) device data. A method includes receiving polling data from the one or more devices available in the network based at least in part on one or more adaptable device configuration templates stored in a template library, and determining a number of active devices available in the network and data provided by the active devices based on the received polling data and the corresponding adaptable device configuration template. A method includes generating one or more configurable data packets for transmission over the communication channel to the IoT platform, identifying variations in device configurations by comparing the one or more adaptable device configuration templates stored in the template library with the received polling data, and modifying the corresponding adaptable device configuration template based on the identified variations.

The present invention relates to a method of configuring a central control unit (U) belonging to a home-automation installation (U) or a home-automation device (D) comprising a central control unit (U) and belonging to a home-automation installation, the method being implemented by the central control unit (U) and comprising the following steps: Obtaining (EcfU16) of a location identifier (SvclcL) of a first remote configuration service (Svlc); Dispatching (EcfU17) of a configuration request (MConn) destined for the first remote configuration service (Svclc) by using the location identifier (SvclcL) and linked with an identifier of the central control unit (U); Reception (ECfU 19) of at least one set of data or of configuration instructions (cfgl) and/or of at least one identifier of a second functional remote service (Svc2) originating from the first remote configuration service (Svclc); Configuration (ECfU20) on the basis of the at least one set of data or of configuration instructions (cfgl) and/or of the at least one identifier of a second functional remote service (Svc2);

Examples described herein include systems and methods for multi-tenant event sourcing and audit logging in a cloud-based computing infrastructure. In an example method, an event package can be received from a first microservice of an application. The event can describe any action performed within the computing infrastructure and can include various types of information. For example, it can include an event type, event ID, object type, object ID, and parent event ID. The event package can be associated with a tenant and only provided to tenant-approved recipients. The recipient can use the event package to automatically carry out steps to recreate and configure an object, or to determine the source of an event or failure within the system.

Network devices are provisioned using a single vendor-neutral data model with a non-relational database. Provisioning requirements are collected upon detecting a new network device that needs to be configured and/or installed. Based on the provisioning requirements, a configuration object is retrieved using a data model in the non-relational database. The configuration object is transformed to a concrete configuration file for the network device. After applying the configuration file to the network device, a separate process validates the configuration of the network device by comparing the observed network configuration with the initial target configuration data included in the configuration object.

A configuration resource automatically synchronizes configuration settings associated with one or more communication resources disposed in a respective subscriber domain. For example, a communication resource such as communication device operated by the subscriber initiates a change to configuration settings associated with a first communication resource disposed in a subscriber domain. The first communication resource notifies the auto-configuration resource of the new configuration settings applied to the first communication resource. The auto-configuration resource identifies one or more other communication resources disposed in the subscriber domain. To ensure synchronization of the communication resources in the subscriber domain, in response to receiving notification of the new configuration settings applied to at least one communication resource and the subscriber domain, the auto-configuration resource initiates modification of configuration settings associated with the one or more other communication resources in the subscriber domain.

The disclosure relates to a communication technique and a system thereof that fuse a 5th generation (5G) communication system with Internet of Things (IoT) technology to support a higher data transmission rate after a 4th generation (4G) system. The disclosure is applied to intelligent services (e.g., smart home, smart building, smart city, smart car or connected car, healthcare, digital education, retail, security and safety-related service, etc.) based on 5G communication technology and IoT-related technology. The disclosure is about telecommunication and 5G network slicing technology. A method for defining a network slice template (NST) to provide network slice, for generating a network slice instance (NSI), and a system for managing them are provided.

A data processing method and apparatus are disclosed. The data processing method includes: receiving, by a first edge computing node in an edge computing cluster, a container image update instruction; obtaining, by the first edge computing node, a to-be-updated container image; and sending, by the first edge computing node, the to-be-updated container image to another edge computing node in the edge computing cluster. The first edge computing node is an edge computing node in the edge computing cluster, the edge computing cluster includes at least two edge computing nodes, and the container image update instruction is used to instruct the at least two edge computing nodes in the edge computing cluster to update a container image. In this way, the time required for downloading the container image is reduced.

A network device for maintaining a communication network is provided. The network device includes a transceiver configured for operable communication with at least one device. The network device also includes a processor including a memory configured to store computer-executable instructions. When executed by the processor the instructions cause the network device to store a plurality of network capabilities associated with a plurality of connectivity categories and a plurality of network settings, receive, from a first device, a connectivity advertisement including at least one connectivity category for the first device, retrieve a subset of the plurality of network capabilities based on the at least one connectivity category, determine one or more network settings for the network device based on the at least one connectivity category for the first device and the subset of network capabilities, and implement the one or more network setting on the network device.

Methods and apparatus to execute a workload in an edge environment are disclosed. An example apparatus includes a node scheduler to accept a task from a workload scheduler, the task including a description of a workload and tokens, a workload executor to execute the workload, the node scheduler to access a result of execution of the workload and provide the result to the workload scheduler, and a controller to access the tokens and distribute at least one of the tokens to at least one provider, the provider to provide a resource to the apparatus to execute the workload.