Embodiments described herein provide for a satellite device that can be associated with a user account of a minor aged (e.g., child or adolescent) user that does not have a smartphone that can be used as a companion device to the satellite device. The satellite device can be configured to be used as a primary device, without reliance upon a paired smartphone. Certain information can be synchronized with the satellite device via the association with the family account. During initial configuration, a set of cryptographic keys can be generated to associate the account of the satellite device with the set of accounts in the family. The satellite device can then access calendars, media, or other data that is shared with user accounts within a family of user accounts.

A bare metal server, or other computing device, may be represented as a JSON file (extending the concept to infrastructure as code) containing hardware, firmware and software versions with links to a kickstarter file depending on the needs of an application, SKU type or some other criteria. Rather than a management node in an L2 network which has a DHCP server to IP lease and facilitate OS installation, a workflow then generates a bootstrap kernel which initializes the bare metal server with an IP address, VLAN, and network gateway which is used to reach out to the network to download and install a kernel, upgrade firmware for various hardware components like BIOS, BMC, NIC, RAID, SSD, NVME, FPGA, etc. The bootstrap kernel may further configure RAID and JBOD, flash custom images on hardware components and may further instruct the server to incrementally download and install an operating system.

A device management apparatus has a providing means configured to provide a first screen for determining device specific information corresponding to a contract and a second screen for determining setting information to be distributed if a new device specified by the device specific information is detected; a search means configured to search a device via a network; and a distribution means configured to distribute the setting information that has been determined in the second screen according to a detection if a new device corresponding to the device specific information that has been determined in the first screen is detected by the search.

A method for running an identity and access management system includes providing at least one layer, and a master computer that communicates with at least one slave computer. The master computer has at least one component which is designed as a computing device and/or as a memory device and/or as a further working component respectively. Units of the functionality of the computing device and/or of the memory device and/or of the further working component of the master computer, respectively, are generated. The respective units of the functionality of the computing device and/or of the memory device and/or of the functionality of the further working component, respectively, are converted into a code and are transmitted in coded form from the master computer to the slave computer. The master computer is controlled with the aid of the computing device and a software program.

A first server system is configured to communicate with a first client device through a first application executing on the first client device. The first server system determines that communication with the first client device through the first application has been lost due to the first client device entering an idle mode. The first server system receives a request from a second client device that triggers reestablishing communication with the first client device through the first application. In response, the first server system transmits a request to a second server system to wake the first client device from the idle mode. The first server system receives, from the first application on the first client device, an indication that communication has been reestablished between the first server system and the first application. The first server system transmits a control command to control the first client device.

A method, an apparatus, and a system for sending a control request based on a key value configuration. The method includes generating, by a client controller, a control request, wherein having a plurality of configuration parameters, wherein the plurality of configuration parameters comprise a flexible key value, a control object name, and a universally unique identifier (UUID), where the flexible key value identifies a requested control object, and the flexible key value is determined using at least one of the control object name or the UUID, and sending, by the client controller, the control request to a server controller, where the control request indicates to the server controller to configure the control object.

Methods, systems, apparatuses, and computer program products for UAV module management are disclosed. In a particular embodiment, UAV module management includes software module library management by a computing system. In this embodiment, the computing system presents information representing a plurality of UAV software modules, receives information representing a UAV software module selection, and adds the UAV software module identified by the information representing a UAV software module selection to a UAV software module library. According to this embodiment, the computing system adds, based on a selection of a UAV software module, the selected UAV module to a UAV software module library.

An OTA master controls a software update for an electronic control unit mounted on a vehicle. The OTA master includes a processor configured to individually receive, from a center, a distribution package of update data for an electronic control unit on which a first-type non-volatile memory having one storage area is mounted and a distribution package of update data for an electronic control unit on which a second-type non-volatile memory having two storage areas is mounted, and transfer the update data to an electronic control unit to be updated with prioritizing the update data for the electronic control unit on which the second-type non-volatile memory is mounted over the update data for the electronic control unit on which the first-type non-volatile memory is mounted.

Embodiments of the present invention provide computer-implemented methods, computer program products and computer systems. Embodiments of the present invention can, in response to receiving a request to perform an update, identify priorities of pending activities. Embodiments of the present invention can then determine a downtime duration associated with the update. Embodiments of the present invention can then determine an optimal time to perform the update based, at least in part, on the determined downtime duration and the pending activities.

Deployments of software programs to distributed computing environments can be managed according to some aspects described herein. In one example, a system can receive a deployment specification having deployment parameters that define a target deployment state for a software program deployable to a target computing environment. The system can generate, based on a mapping of the deployment parameters to resource consumption values, a resource consumption estimate associated with the target deployment state of the software program in the target computing environment. The system can generate a deployment metric based on the resource consumption estimate and transmit the deployment metric to a client device. The deployment metric can be usable to manage deployment of the software program.