There is provided in the present disclosure a method for management of an Internet of things, including: receiving first sensing data from a first sensing device, and converting the first sensing data that confirms to a first type of data transmission protocol into first sensing data that confirms to a third type of data transmission protocol; receiving second sensing data from a second sensing device, and converting the second sensing data that conforms to a second type of data transmission protocol into second sensing data that conforms to a third type of data transmission protocol, wherein the second type of data transmission protocol is different from the first type of data transmission protocol; and generating display data of the predetermined environment model including an updated first sub-model and/or an updated second sub-model, based on the first sensing data, the second sensing data and the predetermined environment model.

A data interface device for data transmission between a numerically controlled machine tool and external data processing device, including: a control interface unit for data transmission with a control device of the machine tool and communications unit for data transmission with the external data processing device. Stored configuration data specifies a communication protocol used by the control device from a first group of communication protocols and a communication protocol used by the external data processing device from a second group. The control interface unit uses any protocol from the first group of communication protocols for data transmission and selects the communication protocol used by the control device for data transmission with the control device. The communications unit uses any protocol from a second group of communication protocols for data transmission and selects the communication protocol used by the external data processing device for data transmission with the data processing device.

There is provided in the present disclosure a method for management of an Internet of things, including: receiving first sensing data from a first sensing device, and converting the first sensing data that confirms to a first type of data transmission protocol into first sensing data that confirms to a third type of data transmission protocol; receiving second sensing data from a second sensing device, and converting the second sensing data that conforms to a second type of data transmission protocol into second sensing data that conforms to a third type of data transmission protocol, wherein the second type of data transmission protocol is different from the first type of data transmission protocol; and generating display data of the predetermined environment model including an updated first sub-model and/or an updated second sub-model, based on the first sensing data, the second sensing data and the predetermined environment model.

An industrial automation component may receive design information associated with an arrangement of one or more industrial automation components in an industrial automation system and identify a first portion of the industrial automation components in the industrial automation system that is unable to interface with a second portion of industrial automation components based on the design information. The industrial automation component may then generate a list of industrial automation components based on the first portion of the industrial automation components and the second portion of industrial automation components, wherein each of the list of industrial automation components is configured to translate a first set of data associated with the first portion of the industrial automation components to a second set of data configured to be at least partly interpretable by the second portion of industrial automation components.

Automation windows for RPA for attended or unattended robots are disclosed. A child session is created and hosted as a window including the UIs of applications of a window associated with a parent session. Running multiple sessions allows a robot to operate in this child session while the user interacts with the parent session. The user may thus be able to interact with applications that the robot is not using or the user and the robot may be able to interact with the same application if that application is capable of this functionality. The user and the robot are both interacting with the same application instances and file system. Changes made via the robot and the user in an application will be made as if a single user made them, rather than having the user and the robot each work with separate versions of the applications and file systems.

A system and method for collecting real time manufacturing data from a factory having multiple machines therein using internet-of-things (IoT) connectivity, comprising: at least one gateway comprising at least one server, the at least one gateway receiving data from the multiple machines; at least one machine communications module (MCM) that applies to the received data at least factory, enterprise, and analytics applications, and which outputs command and control information from the applications to the at least one gateway to directly control operations of the multiple machines; wherein the gateway provides security isolation on the machine side of the gateway, and encryption, authentication, and authorization security on the MCM side of the gateway; and wherein the applications process and normalize data from at least a plurality of types and generations of the multiple machines.

An industrial automation component may receive design information associated with an arrangement of one or more industrial automation components in an industrial automation system and identify a first portion of the industrial automation components in the industrial automation system that is unable to interface with a second portion of industrial automation components based on the design information. The industrial automation component may then generate a list of industrial automation components based on the first portion of the industrial automation components and the second portion of industrial automation components, wherein each of the list of industrial automation components is configured to translate a first set of data associated with the first portion of the industrial automation components to a second set of data configured to be at least partly interpretable by the second portion of industrial automation components.

Automation windows for RPA for attended or unattended robots are disclosed. A child session is created and hosted as a window including the UIs of applications of a window associated with a parent session. Running multiple sessions allows a robot to operate in this child session while the user interacts with the parent session. The user may thus be able to interact with applications that the robot is not using or the user and the robot may be able to interact with the same application if that application is capable of this functionality. The user and the robot are both interacting with the same application instances and file system. Changes made via the robot and the user in an application will be made as if a single user made them, rather than having the user and the robot each work with separate versions of the applications and file systems.

Automation windows for RPA for attended or unattended robots are disclosed. A child session is created and hosted as a window including the UIs of applications of a window associated with a parent session. Running multiple sessions allows a robot to operate in this child session while the user interacts with the parent session. The user may thus be able to interact with applications that the robot is not using or the user and the robot may be able to interact with the same application if that application is capable of this functionality. The user and the robot are both interacting with the same application instances and file system. Changes made via the robot and the user in an application will be made as if a single user made them, rather than having the user and the robot each work with separate versions of the applications and file systems.

An information collecting system collects information associated with (i) a controller connected to a control network and (ii) a host device connected to an information network located at a level higher than the control network, and includes a management device and an information collecting mediation device. The management device is connected to the information network, collects information associated with the host device, transmits an acquisition request for information associated with the controller to the information network, and manages the collected information associated with the host device and information associated with the controller. The information collecting mediation device is connected to the control network and the information network, collects information associated with the controller according to capability information indicating a capability of at least one of the control network and the controller based on the acquisition request, and sends said collected information to the management device.