Patent application number | Description | Published |
20120081271 | APPLICATION DISPLAY TRANSITIONS BETWEEN SINGLE AND MULTIPLE DISPLAYS - A multi-screen user device and methods for controlling data displayed are disclosed. The data displayed by the multiple screens of the device is dependent on the physical orientation of the device, whether the content for an application is displayed across a plurality of the multiple screens, and whether the data being displayed for the application originated from a single-screen application or a multi-screen application. | 04-05-2012 |
20120081317 | METHOD AND SYSTEM FOR PERFORMING COPY-PASTE OPERATIONS ON A DEVICE VIA USER GESTURES - A multi-screen user device and methods for performing a copy-paste operation using finger gestures are disclosed. A first finger gesture is used to select a display area from which data is to be copied. Subsequently, a drag finger gesture is used to identify where the data that is to be pasted. The drag may extend across a non-display boundary between a first and second display screen of the multi-screen device. | 04-05-2012 |
20120084480 | AUTO-CONFIGURATION OF A DOCKED SYSTEM IN A MULTI-OS ENVIRONMENT - A mobile computing device with a mobile operating system and desktop operating system running concurrently and independently on a shared kernel without virtualization. The mobile operating system provides a user experience for the mobile computing device that suits the mobile environment. The desktop operating system provides a full desktop user experience when the mobile computing device is docked to a secondary terminal environment. The mobile computing device configures the mobile operating system and/or the desktop operating system to take advantage of a docked secondary terminal environment. The mobile computing device may be a smartphone running the Android mobile OS and a full desktop Linux OS distribution on a modified Android kernel. | 04-05-2012 |
20120084481 | AUTO-WAKING OF A SUSPENDED OS IN A DOCKABLE SYSTEM - A mobile computing device with a mobile operating system and desktop operating system running concurrently and independently on a shared kernel without virtualization. The mobile operating system provides a user experience for the mobile computing device that suits the mobile environment. The desktop operating system provides a full desktop user experience when the mobile computing device is docked to a secondary terminal environment. The desktop operating system may be suspended when the mobile computing device is not docked with a secondary terminal environment and resumed when the mobile computing device is docked with a secondary terminal environment that provides a desktop computing experience. The mobile computing device may be a smartphone running the Android mobile OS and a full desktop Linux OS distribution on a modified Android kernel. | 04-05-2012 |
20120084542 | Multi-Operating System - A mobile computing device with a mobile operating system and desktop operating system running concurrently and independently on a shared kernel without virtualization. The mobile operating system provides a user experience for the mobile computing device that suits the mobile environment. The desktop operating system provides a full desktop user experience when the mobile computing device is docked to a secondary terminal environment. The mobile computing device may be a smartphone running the Android mobile OS and a full desktop Linux distribution on a modified Android kernel. | 04-05-2012 |
20120084694 | METHOD AND SYSTEM FOR PERFORMING DRAG AND DROP OPERATIONS ON A DEVICE VIA USER GESTURES - A multi-screen user device and methods for performing a drag and drop operation using finger gestures are disclosed. A first finger gesture is used to select a display area from which data is to be copied. Subsequently, a drag finger gesture is used to identify where the data that is to be pasted. The drag may extend across a non-display boundary between a first and second display screen of the multi-screen device. | 04-05-2012 |
20120084706 | LAUNCHED APPLICATION INSERTED INTO THE STACK - A dual-screen user device and methods for revealing a combination of desktops on single and multiple screens are disclosed. Specifically, a determined number of desktops and/or running applications can be selectively displayed on dual screen displays conditioned upon inputs received and the state of the device. Desktop displays and applications can be selectively shifted between the screens by user gestures, or moved off of the screens by other user gestures and hidden. The hidden desktops and screens can be re-displayed by yet another gesture. The desktops and applications are arranged in a window stack that represents a logical order of the desktops and applications. Desktops and applications can be selectively launched and added to the window stack. The user can also select where the desktops/applications are to be inserted and where they are first to be displayed after being launched. | 04-05-2012 |
20120084793 | CROSS-ENVIRONMENT EVENT NOTIFICATION - A mobile computing device with a mobile operating system and desktop operating system running concurrently and independently on a shared kernel without virtualization. The mobile operating system provides a user experience for the mobile computing device that suits the mobile environment. The desktop operating system provides a full desktop user experience when the mobile computing device is docked to a second user environment. Cross-environment notification and event handling allows the user to be notified of and respond to events occurring within the mobile operating system through the user environment associated with the desktop operating system. Events that may trigger cross-environment notification may be local events and/or remote events. The mobile computing device may be a smartphone running the Android mobile operating system and a full desktop Linux distribution on a modified Android kernel. | 04-05-2012 |
20120089906 | CROSS-ENVIRONMENT APPLICATION COMPATIBILITY - A seamless cross-environment workflow is provided in a multi-operating system computing environment. The multi-operating system computing environment may include a mobile operating system and a desktop operating system running concurrently and independently on a mobile computing device. Two or more application programs, running in independent operating systems, share user interaction state information including user data, user settings, and/or application context information. Interaction state information may be shared for applications that are used primarily to access and edit local user content as well as applications that communicate to a remote server or access and navigate other remote content (e.g., Internet-based application, browser, etc.). The mobile computing device may be a smartphone running the Android mobile operating system and a full desktop Linux distribution on a modified Android kernel. | 04-12-2012 |
20120105363 | METHOD AND SYSTEM FOR VIEWING STACKED SCREEN DISPLAYS USING GESTURES - An intuitive technique for inputting user gestures into a handheld computing device is disclosed allowing a user to better manipulate different types of screen display presentations, such as desktops and application windows, when performing tasks thereon, wherein a window stack for application windows and/or desktops can be navigated and sequentially displayed according to the window stack ordering without disturbing or changing this ordering. | 05-03-2012 |
20120117290 | SYSTEMS AND METHODS RELATING TO USER INTERFACES FOR DOCKING PORTABLE ELECTRONIC - Systems and methods related to the user interface of docking portable electronic devices. A master device may be docked with a slave device to control operation of the slave device. The master device may be operable to display a user interface. The user interface of the master device may be adapted to be used with the slave device that may include different display and/or input devices than that of the master device. In one embodiment, the master device may be a handheld device such as a smart phone and the slave device may be a tablet device. | 05-10-2012 |
20120143944 | INTEGRATED HANDSET BROWSER SETTINGS - A mobile computing device with a mobile operating system and desktop operating system running concurrently and independently on a shared kernel without virtualization. The mobile operating system provides a user experience for the mobile computing device that suits the mobile environment. The desktop operating system provides a full desktop user experience when the mobile computing device is docked to a second user environment. A seamless cross-environment workflow is provided in a multi-operating system computing environment. Two or more application programs, running in independent operating systems, share user interaction state information including user data, user settings, and/or application context information. Interaction state information may be shared for applications that are used primarily to access and edit local user content as well as applications that communicate to a remote server or access and navigate other remote content (i.e., Internet-based application, browser). | 06-07-2012 |
20120144323 | Desktop Reveal By Moving a Logical Display Stack With Gestures - A dual-screen user device and methods are disclosed for revealing a combination of desktops on single and multiple screens. A determined number of desktops and/or running applications are displayed on dual screen displays conditioned upon inputs received and the state of the device. Desktop displays and applications can be shifted between the screens by user gestures, and/or selected desktop displays. Applications can be moved off of the screens by other user gestures and therefore hidden. Hidden desktops and screens can be re-displayed by other gestures. Desktops and applications are arranged in a window stack that represents a logical order therefore providing a user with an intuitive ability to manage multiple applications and desktops running simultaneously. The user gestures prevent the user from having to open and close the running desktops and applications that otherwise may require laborious efforts by the user to manage the multiple running desktops and applications. | 06-07-2012 |
20120290946 | MULTI-SCREEN EMAIL CLIENT - An email client having multiple screens that may be displayed in different corresponding ones of a plurality of different display portions of a handheld electronic device. The screens of the email client may be related by way of a dependency relationship and/or may provide for control between the various screens. In one embodiment, the email client includes a folder management screen, a message listing screen, a message detail screen, and an attachment screen. Additionally, the email client may be responsive to received gesture inputs to navigate with respect to the screens and/or perform actions with respect to one or more elements (e.g., messages) of the various screens. | 11-15-2012 |
20130080945 | RECONFIGURABLE USER INTERFACE ELEMENTS - Methods and devices for configuring and displaying user interface elements of a multi-display device relative to a device state and/or device orientation. More particularly, the device is equipped with one or more sensors that facilitate the detectability of the relationship of the primary screen to the secondary screen and the general orientation of the device. The method includes accepting a set of user preferences for individual user interface elements for various device states and/or device orientations. The method and device may configure individual windows, per user settings, relative to device state and/or user orientation of the device. The method and device may present, for example, a single set of reconfigurable and/or re-locatable user interface elements in different locations depending on device orientation and/or display mode. Further, the method and device may provide the user the ability to switch both display mode and user interface action simultaneously. | 03-28-2013 |
20130086293 | SYSTEMS AND METHODS FOR DOCKING PORTABLE ELECTRONIC DEVICES - Systems and methods for docking portable electronic devices. A master device may be docked to a slave device to control the operation of the slave device. The slave device may have a form factor different than that of the master device. For example, the slave device may be a tablet and the master device may be a handheld device such as a smart phone. The slave device may include a retention mechanism to retain the master device in a docked position with respect to the slave device. When in the docked position, the master device may be in operative communication with one or more hardware components of the slave device to control the operation thereof. The slave device may lack the ability to exploit the full functionality of the one or more hardware components of the slave device without communication with the master device. | 04-04-2013 |