Management of immersive reality devices via a reduced competition core network component is disclosed. The reduced competition core network component can preferentially be reserved for immersive reality device data and can therefore exclude some or all other types of data typically associated with conventional wireless network devices, e.g., phone, tablet/laptop computers, IoT devices, etc. This can result in immersive reality data communication that does not have to compete with more generic data types for network or computing resources. Additionally, the reduced competition core network component can be divided into at least one reduced competition user-plane network component and at least one reduced competition control-plane network component. Use of a reduced competition user-plane network component can avoid generating additional carrier network traffic. Further, a reduced competition user-plane network component can facilitate non-carrier entity authentication, security protocols, etc. Hierarchical network component topology can enable rule-based access to computing and network resources.

Computing resources are managed in a computing environment comprising a computing service provider and an edge computing network. The edge computing network comprises computing and storage devices configured to extend computing resources of the computing service provider to remote users of the computing service provider. The edge computing network collects capacity and usage data for computing and network resources at the edge computing network. The capacity and usage data is sent to the computing service provider. Based on the capacity and usage data, the computing service provider, using a cost function, determines a distribution of workloads pertaining to a processing pipeline that has been partitioned into the workloads. The workloads can be executed at the computing service provider or the edge computing network.

Computing resources are managed in a computing environment comprising a computing service provider and an edge computing network. The edge computing network comprises computing and storage devices configured to extend computing resources of the computing service provider to remote users of the computing service provider. The edge computing network collects capacity and usage data for computing and network resources at the edge computing network. The capacity and usage data is sent to the computing service provider. Based on the capacity and usage data, the computing service provider, using a cost function, determines a distribution of workloads pertaining to a processing pipeline that has been partitioned into the workloads. The workloads can be executed at the computing service provider or the edge computing network.

The present invention provides a method of mobilizing user data in a computing network. The method includes (i) providing a computing network that stores and delivers data, wherein the network comprises multiple lodging nodes that are geographically distributed; (ii) categorizing the data stored in and delivered by the computing network into user data and system data; and (iii) delivering an end user (EU)'s user data to one of the lodging nodes. One of the benefits from this method is that an end user does not need to carry his/her data with a mobile computing device or storage device while on the move, while the security, safety, reliability and redundancy of the user data are maintained.

A data transmission method includes an optical line terminal (OLT) for obtaining a data template. The OLT then obtains corresponding optical network terminal (ONT) data based on one or more data types defined in the data template. The OLT then encodes the ONT data according to an external data representation (XDR) format and sends encoded ONT data to a management server. Further, the management server stores and manages the ONT data. The OLT collects the corresponding ONT data based on the data template, encodes and reports the ONT data according to the uniform XDR format. The embodiments define a unified statistics collecting and reporting manner of ONT data and uses standardly defined ONT data to help the management server store and manage the ONT data.

Technologies for implementing edge intelligence for utility communication networks are provided. For example, a system includes a mesh network and a utility fog configured to manage the mesh network. The utility fog includes a secure utility system configured for executing a private utility application and a first edge intelligence device configured for executing a first subset of software applications. Each software application is configured to manage endpoints in the mesh network or process data collected by the mesh network. The mesh network includes the endpoints and an edge intelligence device configured for executing a second subset of the software applications that is different from the first subset of software applications.

An allocation apparatus configured to allocate a plurality of information processing devices to two or more management apparatuses that perform distributed management of the plurality of information processing devices, the allocation apparatus includes: an allocation unit configured to allocate an address range on a network, allocatable to a plurality of information processing devices, to the two or more management apparatuses; and an acquisition unit configured to obtain, from each of the two or more management apparatuses, management information indicating a state of the information processing device whose address belongs to a range allocated to the management apparatus, wherein the allocation unit dynamically performs allocation of the address range on the network based on the management information that has been obtained by the acquisition unit.

A master battery management system (BMS) used for a battery system in which a plurality of slave BMSs and the master BMS communicate wirelessly includes: a receiving unit configured to receive, from each slave BMS, data of the corresponding slave BMS and data transmission information of at least one other slave BMS except for the corresponding slave BMS among the plurality of slave BMS during one period in which each of the plurality of slave BMSs transmits data at least once; and a determination unit configured to determine a communication error or an abnormal slave BMS by using the data of the corresponding slave BMS and the at least one other slave BMS data received from each slave BMS during one period. The data transmission information of the at least one other slave BMS is information on a history that the other slave BMS transmits data.

A method in a configuration server for configuring a communication system comprises configuring a plurality of nodes in a first cluster, and configuring a plurality of nodes in at least a second cluster, such that the configuration server acts as a common configuration server for at least first and second clusters. A method in a node associated with a cluster comprises determining a configuration service address relating to a common configuration server that is adapted to configure the cluster associated with the node and at least one other cluster, sending a request for configuration information to the common configuration server, and receiving configuration information from the common configuration server.

A resource management system that includes at least one managed computing system including a plurality of hierarchal computer resources and a server computing system that is coupled to the at least one managed computing system through a network. The server computing system includes a broker in communication with a plurality of providers. The broker is configured to receive a Uniform Resource Identifier (URI) request for a first resource of the plurality of hierarchal computer resources included in the at least one managed computing system. The URI request includes a resource path that identifies the first resource by a hierarchy of a plurality of collections. The broker is configured to determine a last collection in the hierarchy of the plurality of collections that matches a first provider of the plurality of providers, and forward the request directly to the first provider such that the first provider processes the URI request.