Abstract: A method of a wearable device displaying icons is provided. The method includes displaying a plurality of circular icons comprising a first circular icon located in a center area of a touch display in a first size and a second circular icon located outside of the center area of the touch display in a second size smaller than the first size, and based on a direction of a touch input received on the touch display, moving the plurality of circular icons such that the first circular icon is moved to a first position located outside of the center area of the touch display and the second circular icon is moved from a second position located outside the center area of the touch display to the center area of the touch display and enlarged in size from the second size to the first size.

Abstract: Providing an indication of user-tailored password strength is provided. A registration of a user in a password strength management service is received. A list of social media accounts corresponding to the user and access credentials corresponding to each social media account in the list is received from the user. Social media information corresponding to the user is gathered from the social media accounts using the access credentials corresponding to each social media account in the list. In response to receiving an input of a new password string by the user, password strength of the new password string is evaluated in view of the gathered social media information corresponding to the user.

Abstract: A computer-implemented method for authentication is provided. The method includes displaying, on a display device and while in a locked state, a set of color wheels, each color wheel having a plurality of segments with each segment being a different color. User input is received via an input device on the set of color wheels. The user input is converted to a string. The string is communicated to an authentication server. In response to communicating the string, a response is received from the authentication server and the response is processed.

Abstract: Providing an indication of user-tailored password strength is provided. A registration of a user in a password strength management service is received. A list of social media accounts corresponding to the user and access credentials corresponding to each social media account in the list is received from the user. Social media information corresponding to the user is gathered from the social media accounts using the access credentials corresponding to each social media account in the list. In response to receiving an input of a new password string by the user, password strength of the new password string is evaluated in view of the gathered social media information corresponding to the user.

Abstract: A computer-implemented method for authentication is provided. The method includes displaying, on a display device and while in a locked state, a set of color wheels, each color wheel having a plurality of segments with each segment being a different color. User input is received via an input device on the set of color wheels. The user input is converted to a string. The string is communicated to an authentication server. In response to communicating the string, a response is received from the authentication server and the response is processed.

Abstract: A method controls a robot. One or more processors receive sensor readings from one or more sensors that are monitoring a human in real time, where the human is currently observing a robotic action by a robot, and where the robotic action is a physical movement performed by the robot. The processor(s) determine a cognitive state of the human while the human is observing the robotic action by the robot, and then adjust the robotic action being performed by the robot based on the cognitive state of the human.

Abstract: Techniques and a system for visualization or interaction with a quantum processor are provided. In one example, a system includes a quantum programming component and a visualization component. The quantum programming component manages a quantum programming process to generate topology data for a quantum processor that is indicative of a physical topology of a set of qubits associated with the quantum processor. The visualization component generates visualization data for the topology data that comprises a set of planar slice elements arranged to correspond to the physical topology of the set of qubits. The set of planar slice elements indicate one or more operations performed at a time step associated with the quantum programming process.

Abstract: Embodiments of the present invention provides methods, computer program products, and a system for determining and displaying an image selected from a plurality of images based on a physical displacement of a device. Embodiments of the present invention can be used to generate a composite model based on a collected plurality of images. Embodiments of the present invention can be used to determine an image for display selected from the generated composite model based on a physical displacement of a device.

Abstract: A touch detection system is provided. The touch detection system includes a hardware processor. The touch detection system further includes a touch input surface mounted using a set of torque sensors, where a location of a touch on the touch input surface is calculated by the hardware processor based on collective results from the set of torque sensors, the touch comprising a user input.

Abstract: A touch detection system is provided. The touch detection system includes a hardware processor. The touch detection system further includes a touch input surface mounted using a set of torque sensors, where a location of a touch on the touch input surface is calculated by the hardware processor based on collective results from the set of torque sensors, the touch comprising a user input.

Abstract: Techniques and a system for visualization or interaction with a quantum processor are provided. In one example, a system includes a quantum programming component and a visualization component. The quantum programming component manages a quantum programming process to generate topology data for a quantum processor that is indicative of a physical topology of a set of qubits associated with the quantum processor. The visualization component generates visualization data for the topology data that comprises a set of planar slice elements arranged to correspond to the physical topology of the set of qubits. The set of planar slice elements indicate one or more operations performed at a time step associated with the quantum programming process.

Abstract: A system, computer program product and computer-implemented method for presenting data. The system includes a sensor that obtains a measurement related to a viewing parameter of a viewer in the environment, a presentation surface that provides data for viewing by the viewer, and a processor. The viewing parameter of the viewer indicates the viewer's ability to perceive the data. The processor determines the viewing parameter of the viewer from the obtained measurement and dynamically alters a presentation parameter of the presentation surface based at least in part on the viewing parameter of the viewer.

Abstract: Mechanisms are provided for correlating security vulnerability detection across multiple applications. The mechanisms perform a security vulnerability analysis of first source code of a first application, and identify, based on results of the security vulnerability analysis, a security vulnerability in a first portion of the first source code. The mechanisms associate characteristics of the security vulnerability with the first portion, and correlate the characteristics of the security vulnerability with second source code of a second application based on the association of the characteristics of the security vulnerability with the first portion. In addition, the mechanisms generate an output to a computing device of a consumer or contributor associated with the second source code identifying a presence of the security vulnerability in the second source code based on the correlation.

Abstract: Mechanisms are provided for correlating security vulnerability detection across multiple applications. The mechanisms perform a security vulnerability analysis of first source code of a first application, and identify, based on results of the security vulnerability analysis, a security vulnerability in a first portion of the first source code. The mechanisms associate characteristics of the security vulnerability with the first portion, and correlate the characteristics of the security vulnerability with second source code of a second application based on the association of the characteristics of the security vulnerability with the first portion. In addition, the mechanisms generate an output to a computing device of a consumer or contributor associated with the second source code identifying a presence of the security vulnerability in the second source code based on the correlation.

Abstract: Mechanisms are provided for correlating security vulnerability detection across multiple applications. The mechanisms perform a security vulnerability analysis of first source code of a first application, and identify, based on results of the security vulnerability analysis, a security vulnerability in a first portion of the first source code. The mechanisms associate characteristics of the security vulnerability with the first portion, and correlate the characteristics of the security vulnerability with second source code of a second application based on the association of the characteristics of the security vulnerability with the first portion. In addition, the mechanisms generate an output to a computing device of a consumer or contributor associated with the second source code identifying a presence of the security vulnerability in the second source code based on the correlation.

Abstract: Techniques and a system for visualization or interaction with a quantum processor are provided. In one example, a system includes a quantum programming component and a visualization component. The quantum programming component manages a quantum programming process to generate topology data for a quantum processor that is indicative of a physical topology of a set of qubits associated with the quantum processor. The visualization component generates visualization data for the topology data that comprises a set of planar slice elements arranged to correspond to the physical topology of the set of qubits. The set of planar slice elements indicate one or more operations performed at a time step associated with the quantum programming process.

Abstract: Embodiments of the present invention provides methods, computer program products, and a system for determining and displaying an image selected from a plurality of images based on a physical displacement of a device. Embodiments of the present invention can be used to generate a composite model based on a collected plurality of images. Embodiments of the present invention can be used to determine an image for display selected from the generated composite model based on a physical displacement of a device.

Abstract: Techniques and a system for visualization or interaction with a quantum processor are provided. In one example, a system includes a quantum programming component and a visualization component. The quantum programming component manages a quantum programming process to generate topology data for a quantum processor that is indicative of a physical topology of a set of qubits associated with the quantum processor. The visualization component generates visualization data for the topology data that comprises a set of planar slice elements arranged to correspond to the physical topology of the set of qubits. The set of planar slice elements indicate one or more operations performed at a time step associated with the quantum programming process.

Abstract: A method and/or computer system generates a three-dimensional image of a fingerprint. One or more sensors detect a first user's finger being pressed against a first fingerprint scanner, where the first user's finger has a first user's fingerprint that comprises fingerprint ridges that form fingerprint grooves. A light source on a rotating platform transmits offset light against the first user's finger as the light source rotates on the rotating platform. A camera captures shadow images of shadows in the fingerprint grooves. One or more processors receive and analyze the shadow images in order to determine a shape and depth of the fingerprint grooves. The processor(s) generate a first digital fingerprint file that represents the shape and depth of the fingerprint grooves, and store the first digital fingerprint file for use in future biometric verification of the first user.

Abstract: A method controls a robot. One or more processors receive sensor readings from one or more sensors that are monitoring a human in real time, where the human is currently observing a robotic action by a robot, and where the robotic action is a physical movement performed by the robot. The processor(s) determine a cognitive state of the human while the human is observing the robotic action by the robot, and then adjust the robotic action being performed by the robot based on the cognitive state of the human.