In a countermeasures control interface for use in deploying countermeasures in response to user commands, which are deployed from a first countermeasure dispenser that deploys a first type of countermeasure and a second countermeasure dispenser that deploys a second type of countermeasure different from the first type. A user interface receives user commands regarding countermeasures deployment and includes a display that shows a user-selectable image formats. At least one of the user-selectable image formats includes a graphic representation of a loadout of the first countermeasure dispenser and the second countermeasure dispenser, as well as a graphical representation of currently-available countermeasures deployment options. The user interface also receives input regarding a user countermeasure deployment choice and generates a signal corresponding to the countermeasure deployment choice. An electronic circuit controls the display and generates the user-selectable image formats, receives the countermeasure deployment choice from the user interface and activates the countermeasure dispensers.

An image based pairing system to perform operations that include, detecting a peripheral device to be identified for use by a user of the computing device, the peripheral device comprising a display screen that displays a graphical element assigned to a memory location of the peripheral device; identifying the graphical element assigned to the memory location of the peripheral device responsive to the detecting the peripheral device at the client device; causing, by one or more processors of the computing device, display of a presentation of the graphical element assigned to the memory location of the peripheral device among a plurality of graphical elements at the computing device; receiving an input that selects the presentation of the graphical element from among the plurality of graphical elements at the computing device; and establishing a communicative connection between the computing device and the peripheral device.

Technologies are disclosed for providing visual feedback during touch-based operations on user interface (“UI”) elements. Through implementations of the disclosed technologies, visual feedback can be provided to users during certain touch-based operations on UI elements presented by touch-enabled computing devices. The visual feedback can provide confirmation to users that certain touch-based operations on UI elements were performed successfully. The visual feedback provided by the disclosed technologies can make it easier for users to select a UI element, to understand that actions taken to select a UI element were successful, and to successfully perform operations on UI elements once they have been selected. These benefits can reduce the number of times users need to attempt certain touch-based operations on UI elements. This, in turn, can reduce the utilization of computing resources, such as memory and processor cycles, by touch-enabled computing devices implementing the disclosed technologies.

A method, system, and computer program product for automated identification and generation of user interface interactions for robotic process automation development are provided. The method identifies an interface environment including a set of user interface elements. The method identifies a set of element attributes associated with the set of user interface elements based on a user interface model. A set of automated interactions are generated based on the interface environment, the set of user interface elements, the set of element attributes, and the user interface model. An input interface is generated based on the set of automated interactions. The method generates program code for a thematic interface environment based on user input received through the input interface, the interface environment, the set of user interface elements, the set of element attributes, and the user interface model.

An articulatable mount for temporarily affixing a camera and illumination system to a vehicle is disclosed. The articulating drive mechanism is lightweight, vertically compact, and ruggedized for severe service such as withstanding shocks from off-road travel and abrupt maneuvering. Articulation and illumination may be controlled remotely over Wi-Fi from inside or nearby the vehicle, and encrypted video feeds may be received by authorized users of an ad-hoc network of available smart-phone users and in-vehicle computer systems authorized and authenticated to participate in the network.

An articulatable mount for temporarily affixing a camera and illumination system to a vehicle is disclosed. The articulating drive mechanism is lightweight, vertically compact, and ruggedized for severe service such as withstanding shocks from off-road travel and abrupt maneuvering. Articulation and illumination may be controlled remotely over Wi-Fi from inside or nearby the vehicle, and encrypted video feeds may be received by authorized users of an ad-hoc network of available smart-phone users and in-vehicle computer systems authorized and authenticated to participate in the network.

A human to computer interface system receives motion data from a motion sensor of the interface device, smooths the motion data to create control data, and outputs the control data to a computing device. The control data corrects for shakiness in manipulating the interface device and may be created by averaging the motion data of a time interval to result in smooth cursor movement on the display of the computing device.

A human to computer interface system receives motion data from a motion sensor of the interface device, smooths the motion data to create control data, and outputs the control data to a computing device. The control data corrects for shakiness in manipulating the interface device and may be created by averaging the motion data of a time interval to result in smooth cursor movement on the display of the computing device.

Displaying an indication of ancestral data is disclosed. An indication that a genetic interval corresponds to a reference interval that has a likelihood of having one or more ancestral origins is received. One or more graphic display parameters are determined based at least in part on the indication. An indication of the one or more ancestral origins is visually displayed using the one or more graphic display parameters.

Displaying an indication of ancestral data is disclosed. An indication that a genetic interval corresponds to a reference interval that has a likelihood of having one or more ancestral origins is received. One or more graphic display parameters are determined based at least in part on the indication. An indication of the one or more ancestral origins is visually displayed using the one or more graphic display parameters.