Techniques for distribution of application logic in digital networks are disclosed. In one embodiment, the techniques may be realized as a method that includes receiving a request from a first device to initiate a service instance associated with a service. The service instance is associated with application logic. The method further includes determining one or more parameters associated with the request, identifying at least a portion of the application logic to distribute to a mobile edge server based on the one or more parameters, and distributing the at least a portion of the application logic to the mobile edge server to cause the mobile edge server to provide the service instance to the first device.

A request processing method and apparatus, an electronic device, and a computer storage medium are provided, which are related to the technical field of cloud computing. The request processing method includes: receiving a content delivery network (CDN) request; acquiring a dynamic code corresponding to the CDN request, wherein the dynamic code is a pre-configured code; compiling the dynamic code in real time to obtain a compiled code; and executing the compiled code. The request processing method provided in an embodiment of the present application may improve the flexibility of request processing of a CND system, and has no concurrency limitation.

The disclosure describes systems and methods for minimizing latency for users accessing services hosted on a cloud-computing system. A service of the cloud-computing system periodically queries edge sites of the cloud-computing system for information regarding containers stored on the edge sites. In response to the queries, the edge sites provide information identifying containers hosted on the edge sites, prefixes that the containers service, and connection locations where traffic from the prefixes enter the cloud-computing system. The service may determine whether the connection locations have changed. If a connection location for a prefix has changed, the service modifies a location of a container servicing the prefix. The service may migrate the container to a current connection location for the prefix. Modifying the location may reduce latency experienced by users behind the prefix.

The present disclosure relates to a method for configuring step by step for transmission of data from a field device to at least one target system, comprising the steps of: creating a configuration comprising at least one subconfiguration for the field device and a subconfiguration for the target system; transmitting the configuration from the field device to the target system; and transmitting the data from the field device to the target system, wherein the data are forwarded, processed, stored or discarded based on the subconfiguration of the field device in the field device, and wherein the data are processed or stored in the target system based on the subconfiguration of the target system.

A management apparatus (10) includes a request reception unit (111) configured to receive a transmission request for configuration information transmitted from a transmission apparatus (12), together with key information unique to the transmission apparatus (12) and feature information obtained from peripheral information of the transmission apparatus (12), a configuration-information extraction unit (112) configured to extract configuration information corresponding to the key information and the feature information added in the transmission request that is transmitted from the transmission apparatus (12) and received by the request reception unit (111) from a database in which a combination of key information, feature information, and configuration information for each transmission apparatus is registered, and a configuration-information output unit (113) configured to output the configuration information extracted by the configuration-information extraction unit (112) to the transmission apparatus (12) that has requested the configuration information.

In a profile data delivery control apparatus, a storage unit stores therein a public key and a private key. A control unit obtains profile data including the identification information of a service provided using a server, and when the profile data satisfies a prescribed validity condition, attaches a signature to the profile data using the private key. The control unit embeds the public key to be used to verify the signature, in a client application that causes a client to perform an authentication process based on the profile data, and delivers the client application with the public key embedded.

Systems, methods, and related technologies for classification are described. Network traffic transmitted by a first device is obtained. A set of features is determined based on the network traffic. A first classification for the device is determine a first classification for the first device based on the set of features. The first classification is associated with a first classification level. A second machine learning model is identified based on the first classification. The second machine learning model is associated with the first classification. A second classification for the first device is determined based on the second machine learning model. The second classification is associated with a second classification level. At least one of the first classification and the second classification is stored.

In some embodiments, automatic selective enablement of a wireless interface is provided. In some embodiments, a first device such as a recording device broadcasts a notification via a first wireless interface. The notification may be received by a second device such as a network device, which activates a second wireless interface in response.

In some embodiments, the second device may transmit a notification via the first wireless interface to indicate that the second wireless interface has been activated. In response to receiving such a notification, the first device may activate its own second wireless interface in order to complete the connection and transmit a data record to the second device. In some embodiments, the first wireless interface is a low-power wireless interface, and the second wireless interface is a high-power wireless interface.

A peer-to-peer decentralized software configuration manager is described. The peer-to-peer system provides a crowdsourced mechanism to determine and recommend the efficient software configurations. A computer system may subscribe to a ring or group of network connected computers. Once subscribed, the computer system receives a ring data structure that may include one or more software configuration entries. The ring data structure is accessible to each subscribed computer system to the currently installed software configurations and document the relative success or failure of those configurations. The ring data structure may be utilized to identify a more efficient or user friendly software configuration that is currently installed and utilized by a subscribed computer system.

Systems, computer program products, and methods are described herein for inter-networked monitoring and communication triggering across a dispersed Internet protocol capable network connecting one or more smart devices connected to the dispersed network. The present invention is configured to provide an alert triggering application for installation on the one or more smart devices associated with a user; receive an indication of a user action executed using at least one of the one or more smart devices; detect an incidence of a trigger event based on at least receiving the indication of the user action executed using at least one of the one or more smart devices; establish a communication link with each of the one or more smart devices based on at least detecting the incidence of the trigger event; display, via the alert triggering application, an alert indicating the occurrence of the trigger event.