A system and method for generating electricity from a flowing fluid, the system comprising a smart flow concentrator including an energy harvester, and a central computer and control system for controlling the operation of the smart flow concentrator and of the energy harvester. The energy harvester includes a drive foil section including a plurality of drive foils configured to generate electricity from the fluid flow passing through the smart flow concentrator.

A system and method for generating electricity from a flowing fluid, the system comprising a smart flow concentrator including an energy harvester, and a central computer and control system for controlling the operation of the smart flow concentrator and of the energy harvester. The energy harvester includes a drive foil section including a plurality of drive foils configured to generate electricity from the fluid flow passing through the smart flow concentrator.

According to an embodiment of the present disclosure, a system for controlling an Internet-of-things (IoT) device of a vehicle may include at least one IoT device and a vehicle that determines whether a control condition is satisfied and calculate a first determination value based on the time at which the operation is controlled and the number of times the operation is controlled before or after a state in which the control condition is satisfied, calculates a second determination value based on a number of times the control condition is satisfied and a number of times the at least one IoT device is controlled in the state where the control condition is satisfied, and determines whether to automatically register the at least one IoT device as a control target based on the first determination value and the second determination value when the control condition is satisfied.

Identifying Internet of Things (IoT) devices with packet flow behavior including by using machine learning models is disclosed. Information associated with a network communication of an IoT device is received. A determination of whether the IoT device has previously been classified is made. In response to determining that the IoT device has not previously been classified, a determination is made that a probability match for the IoT device against a behavior signature exceeds a threshold. Based at least in part on the probability match, a classification of the IoT device is provided to a security appliance configured to apply a policy to the IoT device.

A method may include a method of automating processes for remote work. The method may include receiving, at a server, first login data from a client software application. The client software application may be executing on a user device of a remote worker user. The method may include authenticating the remote worker user based on the first login data. The method may include receiving, at the server, command data from the client software application. The command data may include data indicating to the server to launch a software application. The method may include launching, on the server, the software application. The method may include inputting, using a robotic process automation (RPA) process, second login data of the remote worker user into the software application. The method may include key site information, speech-to-text functionality, onboarding functionality, automated support, or activity logging.

A method may include a method of automating processes for remote work. The method may include receiving, at a server, first login data from a client software application. The client software application may be executing on a user device of a remote worker user. The method may include authenticating the remote worker user based on the first login data. The method may include receiving, at the server, command data from the client software application. The command data may include data indicating to the server to launch a software application. The method may include launching, on the server, the software application. The method may include inputting, using a robotic process automation (RPA) process, second login data of the remote worker user into the software application. The method may include key site information, speech-to-text functionality, onboarding functionality, automated support, or activity logging.

Operational machine components of an information technology (IT) or other microprocessor- or microcontroller-permeated environment generate disparate forms of machine data. Network connections are established between these components and processors of an automatic data intake and query system (DIQS). The DIQS conducts network transactions on a periodic and/or continuous basis with the machine components to receive the disparate data and ingest certain of the data as measurement entries of a DIQS metrics datastore that is searchable for DIQS query processing. The DIQS may receive search queries to process against the received and ingested data via an exposed network interface. In one example embodiment, a query building component conducts a user interface using a network attached client device. The query building component may elicit search criteria via the user interface using a natural language interface, construct a proper query therefrom, and present new information based on results returned from the DIQS.

Disclosed is a mobile terminal including a display and a processor, wherein the processor receives a first input related to displaying a notification user interface (UI) on a first area of the display in which first content is displayed and displays a notification UI in a second area of the display distinguished from the first area in response to the first input when a setting related to displaying the notification UI of the first content corresponds to a first setting.

A building control system includes a plurality of interconnected building systems. A mobile application is configured to be installed on at least one mobile device. The mobile application is configured to cause the mobile device to interface with the building server and to display a graphical user interface (GUI). The GUI includes an elevator pane configured to allow a user to interface with a building elevator control system.

A building control system includes a plurality of interconnected building systems. A mobile application is configured to be installed on at least one mobile device. The mobile application is configured to cause the mobile device to interface with the building server and to display a graphical user interface (GUI). The GUI includes an elevator pane configured to allow a user to interface with a building elevator control system.