The present technology includes systems and methods for indicating a status of an application on a graphical user interface. The systems and methods include displaying, on a graphical user interface a plurality of application icons associated with a plurality of applications. A first application of the plurality of applications has a first application status represented by a first application icon. The first application can change from the first application status to a second application status. The second application status is different from the first application status. The second application status having a second application icon reflecting the second application status, wherein the second application icon is different from the first application icon.

With the advent of augmented reality devices becoming increasingly prevalent, accessible, and cross-compatible, there is an opportunity to leverage the capabilities of such devices in order to streamline workflow and information access in number of contexts. The present invention provides an integrated, dynamic system for leveraging the capabilities of augmented reality systems in order to provide users with useful or critical information in a dependable, seamless, and secure manner.

With the advent of augmented reality devices becoming increasingly prevalent, accessible, and cross-compatible, there is an opportunity to leverage the capabilities of such devices in order to streamline workflow and information access in number of contexts. The present invention provides an integrated, dynamic system for leveraging the capabilities of augmented reality systems in order to provide users with useful or critical information in a dependable, seamless, and secure manner.

A dual-screen user device and methods for revealing a combination of selected desktops and applications on single and dual screens are disclosed. Desktops and applications can be shifted between screens by user gestures, and/or moved off of the screens and therefore hidden. Hidden desktops and screens can be re-displayed by other gestures. The desktops and applications are arranged in a window stack that represents a logical order of the desktops and applications providing a user with an intuitive ability to manage multiple applications/desktops running simultaneously. One embodiment provides an annunciator window extending across both screens in a dual screen configuration. The annunciator window provides alerts, notifications, and statuses of the device in an increased area thereby enhancing viewability of the information in the window. The annunciator window can be expanded over a selected screen to view full contents of the window without having to minimize or close running applications.

A dual-screen user device and methods for revealing a combination of selected desktops and applications on single and dual screens are disclosed. Desktops and applications can be shifted between screens by user gestures, and/or moved off of the screens and therefore hidden. Hidden desktops and screens can be re-displayed by other gestures. The desktops and applications are arranged in a window stack that represents a logical order of the desktops and applications providing a user with an intuitive ability to manage multiple applications/desktops running simultaneously. One embodiment provides an annunciator window extending across both screens in a dual screen configuration. The annunciator window provides alerts, notifications, and statuses of the device in an increased area thereby enhancing viewability of the information in the window. The annunciator window can be expanded over a selected screen to view full contents of the window without having to minimize or close running applications.

Provided is an information processing apparatus that processes information regarding augmented reality.

The information processing apparatus includes: an acquisition unit that acquires a position of a hand and a finger gesture of a user; and a control unit that controls a displaying operation of a display device that displays a virtual object superimposed on a real space, in which the control unit sets a virtual gripping point to a position having a certain offset with respect to the hand, and controls the display device to display a virtual object gripping operation on the basis of a positional relationship between the virtual gripping point and the virtual object and a contact state between fingertips.

Implementations described herein relate to transitioning a computing device between operating modes according to whether the computing device is suitably oriented for received non-audio related gestures. For instance, the user can attach a portable computing device to a docking station of a vehicle and, while in transit, wave their hand near the portable computing device in order to invoke the automated assistant. Such action by the user can be detected by a proximity sensor and/or any other device capable of determining a context of the portable computing device and/or an interest of the user in invoking the automated assistant. In some implementations location, orientation, and/or motion of the portable computing device can be detected and used in combination with an output of the proximity sensor to determine whether to invoke the automated assistant in response to an input gesture from the user.

Implementations described herein relate to transitioning a computing device between operating modes according to whether the computing device is suitably oriented for received non-audio related gestures. For instance, the user can attach a portable computing device to a docking station of a vehicle and, while in transit, wave their hand near the portable computing device in order to invoke the automated assistant. Such action by the user can be detected by a proximity sensor and/or any other device capable of determining a context of the portable computing device and/or an interest of the user in invoking the automated assistant. In some implementations location, orientation, and/or motion of the portable computing device can be detected and used in combination with an output of the proximity sensor to determine whether to invoke the automated assistant in response to an input gesture from the user.

This disclosure relates to methods, non-transitory computer readable media, and systems that generate experience-journey timelines that map touchpoints along a journey to experience data representing experiences of an entity at such touchpoints. Specifically, the disclosed systems can identify touchpoints and experience data indicating experiences of a user, organization, or other entity. Subsequently, the disclosed systems can map experience data to the touchpoints corresponding to the entity. Using such mappings, the disclosed systems can generate experience journey timelines that indicate mappings between particular experience indicators and particular touchpoints. Additionally, the disclosed systems can provide experience-journey timelines for display in graphical user interfaces and facilitate functionalities to explore data underlying the experience indicators at each touchpoint in the experience-journey timelines.

This disclosure relates to methods, non-transitory computer readable media, and systems that generate experience-journey timelines that map touchpoints along a journey to experience data representing experiences of an entity at such touchpoints. Specifically, the disclosed systems can identify touchpoints and experience data indicating experiences of a user, organization, or other entity. Subsequently, the disclosed systems can map experience data to the touchpoints corresponding to the entity. Using such mappings, the disclosed systems can generate experience journey timelines that indicate mappings between particular experience indicators and particular touchpoints. Additionally, the disclosed systems can provide experience-journey timelines for display in graphical user interfaces and facilitate functionalities to explore data underlying the experience indicators at each touchpoint in the experience-journey timelines.