A method including: requesting a web resource from a plurality of devices for setting a web UI for the plurality of devices; receiving the web resource from the plurality of devices; requesting device attribute information related to a device attribute from the plurality of devices; receiving the device attribute information from the plurality of devices; checking whether a web resource corresponding to the received device attribute information is stored in a memory of the server; configuring a common setting web UI for a common device attribute and configuring an individual setting web UI for an individual device attribute based on the web resource; and mashing up the common setting web UI and the individual setting web UI and rendering the mashed common setting web UI and individual setting web UI to a single web page of the server.

A local delivery service (LDS) operates in an enterprise computer network as a proxy for a communications server (CS) computer operating in a cloud computing environment. The LDS pulls a queue repository maintained by the CS and retrieves an output item flagged by the CS for local delivery. The output item has a document and associated configuration information specifying an application domain in the cloud computing environment and delivery settings specific to the application domain maintained by the CS. The LDS translates the delivery settings and routes the document to the connectors of communications channels of the enterprise computer network. In this way, documents produced by the CS in the cloud can be delivered locally to disparate destinations on the enterprise computer network without having to open individual ports in a firewall of the enterprise computer network to connect the CS with communications channels of the enterprise computer network.

A local delivery service (LDS) operates in an enterprise computer network as a proxy for a communications server (CS) computer operating in a cloud computing environment. The LDS pulls a queue repository maintained by the CS and retrieves an output item flagged by the CS for local delivery. The output item has a document and associated configuration information specifying an application domain in the cloud computing environment and delivery settings specific to the application domain maintained by the CS. The LDS translates the delivery settings and routes the document to the connectors of communications channels of the enterprise computer network. In this way, documents produced by the CS in the cloud can be delivered locally to disparate destinations on the enterprise computer network without having to open individual ports in a firewall of the enterprise computer network to connect the CS with communications channels of the enterprise computer network.

Provided are a method, apparatus and system for processing data, a medium and a computer device thereof. A first event corresponding to a video frame is determined by performing event determination for an analysis result of the video frame in a video frame sequence based on a pre-stored event determination logic, and then, a frame identifier of the video frame in the video frame sequence is acquired in a case that the first event is an erroneous determination, thereby accurately locating the video frame resulting in an erroneous determination event from the video frame sequence. Thus, the analysis result of the video frame is read from a message queue based on the frame identifier, and pushed. Therefore, a reason for an erroneous determination event is accurately analyzed out based on the analysis result of the target video frame.

Systems and methods are provided for initiation, use, access, and control of functionality of a network. In one aspect, the systems and methods can be utilized to generate information defining signaling or control performance and operational characteristics associated with the functionality in a variety of network environments. In another aspect, based on such information, adaptive signaling can be utilized to monitor, analyze and detect specific signaling signatures associated with the functionality. Managing signaling or control messages in response to information collected by monitoring and analyzing the adaptive signaling permits originating or requesting the functionality without conventional operation of a network component.

Methods and systems for a transportation vehicle are provided. One method includes initializing a first browser at an electronic device to communicate with a remote virtual loader having access to data for an in-flight entertainment (IFE) system of an aircraft; authenticating the first browser by the remote virtual loader; providing IFE data for the IFE system to the first browser by the remote virtual loader with an instruction to grant access to the IFE data by a second browser of the electronic device, the second browser authenticated by the IFE system to send information to the IFE system; and transferring the IFE data from the electronic device to the IFE system by the second browser that obtains access to the IFE data from the first browser in response to the instruction from the remote virtual loader.

Dynamic path steering utilizing automatic generation of user threshold profiles is described. An example of a storage medium includes instructions for obtaining a threshold policy for a first application, the threshold policy including a set of threshold values for operational parameters; generating a migration score for a first user, the migration score based at least in part on a user score for the first user; generating a set of secondary threshold values for the first user based at least in part on the migration score and the set of threshold values; enabling operation of the first application for the first user using a first network uplink; monitoring network parameter values in operation of the first application; and upon detecting an operational parameter value exceeding a secondary threshold value, migrating operation of the first application for the first user from the first network uplink to a second network uplink.

Dynamic path steering utilizing automatic generation of user threshold profiles is described. An example of a storage medium includes instructions for obtaining a threshold policy for a first application, the threshold policy including a set of threshold values for operational parameters; generating a migration score for a first user, the migration score based at least in part on a user score for the first user; generating a set of secondary threshold values for the first user based at least in part on the migration score and the set of threshold values; enabling operation of the first application for the first user using a first network uplink; monitoring network parameter values in operation of the first application; and upon detecting an operational parameter value exceeding a secondary threshold value, migrating operation of the first application for the first user from the first network uplink to a second network uplink.

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.

Web-based robotic process automation (RPA) designer systems that allow RPA developers to design and implement web serverless automations, user interface (UI) automations, and other automations are disclosed. Such web-based RPA designer systems may allow a developer to sign in through the cloud and obtain a list of template projects, developer-designed projects, services, activities, etc. Thus, RPA development may be centralized and cloud-based, reducing the local processing and memory requirements on a user's computing system and centralizing RPA designer functionality, enabling better compliance. Automations generated by the web-based RPA designer systems may be deployed and executed in virtual machines (VMs), containers, or operating system sessions.