An electronic monitoring system is provided that implements at least two communication paths using primary and secondary radios for facilitating self-installation or setup of electronic devices such as monitoring devices and/or various smart home devices using one of the communication paths to transmit various network and other credentials. The system may allow a device to automatically set itself up by scanning for a cooperating network device, such as a hub, that can provide network and/or user account information to the device, facilitating integration or onboarding of the device with minimal or without user action. The secondary radio may have a range at least commensurate with, and typically longer than, the range of the primary radio, permitting device setup anywhere within the system's primary coverage area.

Methods, apparatus, and processor-readable storage media for automatically adjusting storage system configurations in a storage-as-a-service environment using machine learning techniques are provided herein. An example computer-implemented method includes obtaining performance-related data for at least one storage system in a storage-as-a-service environment; processing at least a portion of the obtained performance-related data using one or more rule-based analyses; identifying, based at least in part on results of the processing, one or more storage system configurations, of the at least one storage system, requiring adjustment; determining, using at least one machine learning technique, one or more adjustment amounts for the one or more storage system configurations; and automatically adjusting the one or more storage system configurations, within the storage-as-a-service environment, in accordance with the one or more determined adjustment amounts.

A method for automated web resource deployment is provided. The method comprises creating web resource publication requests, wherein each web resource publication request comprises a number of configuration changes necessary to publish a web resource, on a network, at a particular uniform resource location. A standard format, validation workflow, and an approval workflow are provided for automation of the web resource publication requests. Once validated and approved, web resource publication requests are automatically converted to API calls which are executed on backend servers to implement the configuration changes required in the environment without further human intervention.

A method of managing an intermittent network includes, with a local network manager executed by a processor of a local server, managing at least one local client device to use the local server as a proxy server. The method includes, with an internet connection manager executed by the processor of the local server, transferring data between an internet and the local server based on a quality and speed of a connection to the internet, and, with an update manager, sending data downloaded from the internet by the local server to the local client device. The method includes, with an analytics manager, retrieving analytics data from the local client device. The local server restricts the local client device from accessing the internet through the local server.

A network device may obtain information concerning a virtual chassis that indicates that the network device and an additional network device are to be included in the virtual chassis. The network device may determine, based on the information concerning the virtual chassis, that the network device is connected to the additional network device, wherein the network device is connected to the additional network device via a link between a network interface of the network device and a network interface of the additional network device. The network device may cause the network interface of the network device to be converted to a virtual chassis interface and the network interface of the additional network device to be converted to a virtual chassis interface to enable the network device and the additional network device to be included in the virtual chassis to allow bootstrapping of the virtual chassis as a single logical device.

A method including a network configuration device acquiring at least one channel including at least one of the following channels: a target channel and at least one initial channel, wherein the target channel is a channel used when the network distribution device is connected to a hotspot successfully; the network configuration device sending a request message to the network distribution device through the at least one channel; and the network configuration device determining, in the case of receiving a response packet, network state information of the network distribution device based on the response packet, wherein the network distribution device feeds back the response packet based on the request message. The present disclosure has solved the technical problem in the conventional techniques that users fail to determine whether the network distribution device has accessed a network successfully when the network distribution device is accessing the network.

A network device may send, to a Dynamic Host Configuration Protocol (DHCP) server, a request for an Internet Protocol version 6 (IPv6) address to be assigned to a management port of the network device, wherein IPv6 is disabled at the network device, and may receive a message that includes information associated with a network management system (NMS) and IPv6 configuration information for enabling IPv6 processing on the management port. In response to receiving the IPv6 configuration information, the network device may enable IPv6 processing on the management port of the network device and may register with the NMS based at least in part on the information associated with the NMS. The network device may, in response to receiving one or more configuration commands sent from the NMS to the management port of the network device, configure the network device according to the one or more configuration commands.

A computing device may perform a method that includes graphically presenting a plurality of virtual routing and forwarding (VRF) elements which represent a plurality of stored VRF profiles, with each VRF element presenting profile data from one of the plurality of stored VRF profiles. The method may further include receiving input selecting a VRF element which represents and presents profile data from a selected stored VRF profile and receiving input modifying the profile data presented by the selected VRF element. A VRF profile may be generated, for a networking device of a networking infrastructure, based on the selected stored VRF profile and the input modifying the profile data presented by the selected VRF element. Thereafter, a VRF element may be graphically presented which represents and presents profile data from the generated VRF profile for the networking device.

A device provisioning configuration request from a network device to be configured is received. The network device provides the request to a network location obtained via a Dynamic Host Configuration Protocol request made automatically by the network device. A configuration agent script is provided in response to the device provisioning configuration request. One or more notifications associated with a provisioning progress are received from the network device via the configuration agent script. At least one of the one or more notifications is utilized in a provisioning workflow.

The present disclosure relates to systems and methods for deploying enterprise systems in cloud environments. In one implementation, a system for deploying an enterprise system in a cloud environment may include at least one processor configured to provide: one or more first containers hosting at least one application with at least one enterprise function; one or more second containers hosting at least one microservice configured to activate the at least one enterprise function; at least one application programming interface (API) between the at least one microservice and at least one client; and at least one gateway configured to manage access to the at least one API.