According to an aspect of an embodiment, a method may include obtaining a JavaScript Object Notation (JSON) schema that corresponds to legacy data. The legacy data may include a plurality of legacy data points corresponding to device features of a legacy device. The plurality of legacy data points may be delimited according to a legacy data format. The JSON schema may include a plurality of property definitions corresponding to the legacy data points. The JSON schema may additionally include a legacy object that describes the legacy data format in a manner that allows for processing of the legacy data using the JSON schema. The method may also include processing the legacy data using the plurality of property definitions and the legacy object included in the JSON schema in a manner that allows the legacy device to be used as a web-of-things Thing.

An approach for the capability of managing IoT devices (including eSIMs) and dynamically switch those IoT devices to different network/wireless carriers based on the activity performed is disclosed. The approach can identify poor network connectivity problems with the IoT devices while performing the activities or switching/moving from one activity to another activity and can predict the context of performing the activities with various IoT devices based on identified information. The approach can dynamically adjust the configuration setting of those IoT devices to connect to the appropriate network service provider based on the prediction context of those activities.

An approach for the capability of managing IoT devices (including eSIMs) and dynamically switch those IoT devices to different network/wireless carriers based on the activity performed is disclosed. The approach can identify poor network connectivity problems with the IoT devices while performing the activities or switching/moving from one activity to another activity and can predict the context of performing the activities with various IoT devices based on identified information. The approach can dynamically adjust the configuration setting of those IoT devices to connect to the appropriate network service provider based on the prediction context of those activities.

An apparatus, method, computer program product and system for: receiving information relating to available connections in a wireless network, the wireless network comprising at least one access node and at least one sidelink device, collecting information relating to a mobility pattern of at least one moveable device within a predetermined area covered by the wireless network, establishing a first data connection to the wireless network for the moveable device, predicting, based on the mobility pattern of the moveable device and the information relating to the wireless network, a second data connection to be established to the wireless network for the moveable device, and sending, in response to determining that at least one criterion related to the first data connection is fulfilled, a request to the at least one access node to activate the at least one sidelink device for providing the second data connection.

According to one embodiment, there is provided an information processing apparatus of a data processing system in which one or more application programs and a plurality of sensor devices are connected to a database via a network, where the information processing apparatus includes: a request receiving unit configured to receive requests from the application programs or data from the sensor devices via the network; a resource processing unit configured to process the data; and a perpetuation function unit configured to perform a conversion appropriate to a resource on the data processed by the resource processing unit and stores the data in an appropriate schema in the database. The resource processing unit includes a resource management unit provided with a memory and configured to manage attribute information about the resource in the memory.

In some examples, a computing device can include a component device, a battery, and a memory resource storing instructions to cause a processing resource to determine an operating mode of the computing device, in response to the operating mode being a charging mode, cause the battery to charge, in response to the operating mode being a system battery mode, cause the battery to power the computing device, and in response to the operating mode being a battery reserve mode, cause the battery to power the component device in absence of powering other components of the computing device.

In some examples, a computing device can include a component device, a battery, and a memory resource storing instructions to cause a processing resource to determine an operating mode of the computing device, in response to the operating mode being a charging mode, cause the battery to charge, in response to the operating mode being a system battery mode, cause the battery to power the computing device, and in response to the operating mode being a battery reserve mode, cause the battery to power the component device in absence of powering other components of the computing device.

The present disclosure provides a system, a method and a computer-readable storage medium for realizing Internet of Things for smart city based on street lamps and lamp posts. The system includes: a plurality of data collection components, a plurality of detachable street lamps, a repeater, a hub, a cloud server, a terminal device; where the one or more data collection components are communicatively connected with the one or more detachable street lamps, the one or more detachable street lamp are communicatively connected with the repeater, the repeater is communicatively connected with the hub, the hub is communicatively connected with the cloud server, and the cloud server is communicatively connected with the terminal device. The present disclosure can not only improve the efficiency of city monitoring, but also save a lot of costs.

The present disclosure provides a system, a method and a computer-readable storage medium for realizing Internet of Things for smart city based on street lamps and lamp posts. The system includes: a plurality of data collection components, a plurality of detachable street lamps, a repeater, a hub, a cloud server, a terminal device; where the one or more data collection components are communicatively connected with the one or more detachable street lamps, the one or more detachable street lamp are communicatively connected with the repeater, the repeater is communicatively connected with the hub, the hub is communicatively connected with the cloud server, and the cloud server is communicatively connected with the terminal device. The present disclosure can not only improve the efficiency of city monitoring, but also save a lot of costs.

A digital product network system includes a set of digital products each having a product processor, a product memory, and a product network interface. The digital product network system includes a product network control tower having a control tower processor, a control tower memory, and a control tower network. The product processor and the control tower processor collectively include non-transitory instructions that program the digital product network system to generate product level data at the product processor, transmit the product level data from the product network interface, receive the product level data at the control tower network interface, encode the product level data as a product level data structure configured to convey parameters indicated by the product level data across the set of digital products, and write the product level data structure to at least one of the product memory and the control memory.