A slice control method and apparatus are provided. The method includes: a policy control network element receives, from a slice access control network element, slice access status information of a network slice, the slice access status information comprises information indicating a network slice traffic bandwidth of the network slice; determines, based on the current slice access status information of the network slice, that the network slice traffic bandwidth exceeds a corresponding maximum value allowed by configuration; generates, in response to the determination, first session policy control information for a first session in the network slice; and sends the first session policy control information to a session management network element corresponding to the first session, the first session policy control information being for policy control on the first session.

Techniques described herein relate to a method for managing a computer vision environment. The method includes obtaining, by a video management system (VMS), a computer vision (CV) alert; in response to obtaining the CV alert: receiving confirmation of the CV alert; in response to the confirmation: identifying a nearest mobile agent of mobile agents associated with the CV alert; providing the CV alert and at least a portion of the CV data associated with the CV alert to the mobile agent; generating a CV alert case associated with the CV alert; obtaining additional CV data associated with the CV alert from CV nodes and the nearest mobile agent; and updating the CV alert case using the additional CV data.

A method for operation of a broadband access network of a telecommunications network includes: in a first step, a program or configuration information is provided to or received by an orchestrator node or functionality; in a second step, subsequent to the first step, at least one piece of program or control information is provided or transmitted to at least one programmable network node; and in a third step, subsequent to the second step, the at least one piece of program or control information is activated to be executed by the at least one programmable network node.

A system that provides for management of resource interaction equipment fulfillment via a gateway apparatus that uses Application Programming Interface (API) services to connect and integrate with the various systems deployed by the equipment providers, such that, all data communication between the managing entity and the equipment providers is orchestrated through the gateway apparatus to track the occurrence of events associated with resource interaction equipment fulfillment. Additionally, a distributed trust computing network is implemented in which each of the equipment providers serve as a decentralized node in the distributed trust computing network capable of converging on a data block to verify the validity of the equipment fulfillment process event stored in the block.

In some embodiments, the present invention provides for a computer-implemented method, including: causing, by a specifically programmed computer call management communication system, to transform, over a computer network, computing devices of users, into corresponding specialized call management devices, by having each computing device to execute a specialized call management client software application being in electronic communication with the specifically programmed computer call management communication system over the computer network by utilizing SIP; where the specialized call management client software application generates specialized graphical user interfaces configured to allow each user to concurrently initiate and maintain, over the computer network, a plurality of voice communications of distinct types with other users, by, for example, allowing each user to independently and dynamically divert, in real-time, any voice communication of any type to any audio device associated with a corresponding specialized call management device of such user.

In some embodiments, the present invention provides for a computer-implemented method, including: causing, by a specifically programmed computer call management communication system, to transform, over a computer network, computing devices of users, into corresponding specialized call management devices, by having each computing device to execute a specialized call management client software application being in electronic communication with the specifically programmed computer call management communication system over the computer network by utilizing SIP; where the specialized call management client software application generates specialized graphical user interfaces configured to allow each user to concurrently initiate and maintain, over the computer network, a plurality of voice communications of distinct types with other users, by, for example, allowing each user to independently and dynamically divert, in real-time, any voice communication of any type to any audio device associated with a corresponding specialized call management device of such user.

A system for constructing and storing procedures for troubleshooting computer networks. A user can design and add troubleshooting steps, via a GUI, to define the procedure including annotations. Each step is configured to take an action on the network. The order of the steps can be re-arranged via the GUI. The procedure can be stored and re-executed by another user.

A digital or computing platform for creating and implementing process automations that employees a distributed network of computing devices the optimization of which is augmented through machine learning/artificial intelligence nodes. The platform provides a no-code or low-code graphical user interface through which a user the desired process automations. This includes a method including receiving a graphical input to select one or more computing nodes; receiving a graphical input to form connections between certain of the selected computing nodes to form a process graph; and receiving a graphical input to configure parameters of the one or more computing nodes; and deploying the process graph to the one or more computing devices to perform the functional process.

A distributed storage system includes a first access device and a plurality of nodes. The nodes include a first node and a second node, the first node accesses the first access device, and the first node is a storage node, a compute node, or a control node. The first access device is configured to detect a status of the first node and send a first notification message to the second node when the status meets a preset condition. The first notification message includes an identifier of the first node and status information of the first node. The second node is configured to receive the first notification message and perform a processing operation based on the first notification message.

Techniques are disclosed for deploying a computing resource (e.g., a service) in response to user input. A computer-implemented method can include operations of identifying a first set of computing components already deployed within the cloud-computing environment and identifying a second set of computing components available for deployment within the cloud-computing environment. A request for deployment may be subsequently received for one of the available computing components. A bootstrap request corresponding to the particular computing component requested may be transmitted to a deployment orchestrator, the deployment orchestrator being configured to deploy the particular computing component to the cloud-computing environment based at least in part on the bootstrap request. A user interface may present status indicators for each computing component (e.g., deployed, available, requested, etc.).