Patent application number | Description | Published |
20120081380 | CROSS-ENVIRONMENT USER INTERFACE MIRRORING - 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 rendering and user interaction support provide a seamless computing experience in a multi-operating system computing environment. The seamless computing experience includes mirroring the active user interaction space of the mobile operating system to a display of a user environment associated with the desktop operating system. 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 |
20120081383 | CROSS-ENVIRONMENT USER INTERFACE MIRRORING USING REMOTE RENDERING - Cross-environment rendering and user interaction support provide a seamless computing experience 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. The seamless computing experience includes mirroring the active user interaction space of the mobile operating system to a display of a user environment associated with the desktop operating system. The user interface is rendered by the desktop operating system by accessing surface information of the active user interaction space directly from shared memory. 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 |
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 |
20120084798 | CROSS-ENVIRONMENT REDIRECTION - Cross-environment rendering and user interaction support provide a seamless computing experience 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. Full user interaction support is provided for redirected and/or mirrored applications that are rendered using an extended graphics context. An extended input queue handles input events from virtual input devices for remotely displayed applications. Remotely displayed applications are mapped to separate motion spaces within the input queue. 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 |
20120086716 | USER INTERACTION ACROSS CROSS-ENVIRONMENT APPLICATIONS THROUGH AN EXTENDED GRAPHICS CONTEXT - Cross-environment rendering and user interaction support provide a seamless computing experience 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 shared kernel of a mobile computing device. User interaction support includes handling input events initially received in the shared kernel by accepting the input events in the desktop operating system and translating, mapping, and/or passing the input events through a virtual input device to the mobile operating system such that applications of the mobile operating system receive the input events as if coming from a user interaction space of the mobile operating system. 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 |
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 |
20120089992 | USER INTERACTION SUPPORT ACROSS CROSS-ENVIRONMENT APPLICATIONS - Cross-environment rendering and user interaction support provide a seamless computing experience in a multi-operating system computing environment. The multi-operating system computing environment may include a mobile operating system associated with a first user environment and a desktop operating system associated with a second user environment running concurrently and independently on a mobile computing device. User interaction support includes handling input events initially received in the shared kernel by accepting the input events in the desktop operating system and translating, mapping, and/or passing the input events through a virtual input device to the mobile operating system such that applications of the mobile operating system receive the input events as if coming from a user interaction space of the mobile operating system. 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 |
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 |
20120119888 | UNIVERSAL REMOTE CONTROL WITH AUTOMATED SETUP - A controller that automatically identifies one or more peripheral devices which need to be programmed for use with the controller. In some embodiments, the controller is able to visually identify a peripheral device from an image, obtain the configuration information for the peripheral device, and program itself in the background according to the configuration information. These tasks are advantageously performed by the remote control, without user input. The controller can be programmed to support a plurality of peripheral devices. When the controller is used to control a peripheral device, the controller may first present a selection list on the display screen. The selection list may include all the peripheral devices that the remote is communicatively coupled with. Upon the user selecting the desired peripheral device to be controlled, the remote control may dynamically outputs a customized user interface associated with the selected peripheral device. | 05-17-2012 |
20120124245 | UNIVERSAL REMOTE CONTROL WITH AUTOMATED SETUP - A remote control of the present invention automatically identifies one or more peripheral devices which need to be programmed with the remote control. In some embodiments, the remote control is able to visually identify a peripheral device from an image, obtain the configuration information for the peripheral device, and program itself in the background according to the configuration information. These tasks are advantageously performed by the remote control, without user input. The remote control can be programmed to support a plurality of peripheral devices. When the remote control is used to control a peripheral device, the remote control will first present a selection list on the display screen. The selection list includes all the peripheral devices that the remote is communicatively coupled with. Upon the user selecting the desired peripheral device to be controlled, the remote control dynamically outputs a customized user interface associated with the selected peripheral device. | 05-17-2012 |
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 |
20130019183 | DYNAMIC CROSS-ENVIRONMENT APPLICATION CONFIGURATION/ORIENTATION - Dynamic configuration of cross-environment applications enhances the computing experience in a computing environment with an extended active user environment and/or multiple active user environments. A mobile computing device maintains multiple active device configurations associated with multiple active user environments and/or application windows within active user environments. Device configuration qualifiers are determined from a variety of sources including device characteristics, device indicators, user settings, and/or application presentation. The mobile computing device selects active resource sets for applications based on the device configuration qualifiers. Application presentation is dynamically updated by disestablishing an application screen and establishing a new active application screen using a different resource set. 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. | 01-17-2013 |
20130024778 | DYNAMIC CROSS-ENVIRONMENT APPLICATION CONFIGURATION/ORIENTATION - Dynamic configuration of cross-environment applications enhances the computing experience in a computing environment with an extended active user environment and/or multiple active user environments. A mobile computing device maintains multiple active device configurations associated with multiple active user environments and/or application windows within active user environments. Device configuration qualifiers are determined from a variety of sources including device characteristics, device indicators, user settings, and/or application presentation. The mobile computing device selects active resource sets for applications based on the device configuration qualifiers. Application presentation is dynamically updated by disestablishing an application screen and establishing a new active application screen using a different resource set. 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. | 01-24-2013 |
20130024812 | FOREGROUND/BACKGROUND ASSORTMENT OF HIDDEN WINDOWS - Graphical navigation of foreground and background applications running on a mobile computing device across multiple active user environments, even when graphics information for background applications is not maintained by a mobile operating system of the mobile computing device. A last graphical representation of an application screen may be captured as the application state is transitioned from the foreground state to the background state. The last graphical representation may be associated with a position in an application activity stack representing foreground and background mobile operating system applications. The navigation techniques may be used in a computing environment with multiple active user environments. A first active user environment may be associated with the mobile operating system. A second active user environment may be associated with the mobile operating system or a desktop operating system running concurrently with the mobile operating system on the mobile computing device. | 01-24-2013 |
20130076683 | DUAL SCREEN PROPERTY DETAIL DISPLAY - A device includes two touch sensitive displays. Particular display device (e.g., balloons, pop-up windows, tooltips, etc.) can be displayed in the two touch sensitive displays. However, in some circumstances, presenting the display device may cause problems interfacing with or viewing data on the device. Thus, the device can determine if presenting the display device in a proposed location will cause difficulties for the user. If such difficulties are predicted, the device may move the display of the display device to the other touch sensitive display. | 03-28-2013 |
20130080899 | UNIFIED DESKTOP BIG BROTHER APPLICATIONS - Methods and devices for selectively presenting a user interface or “desktop” across two devices are provided. More particularly, a unified desktop is presented across a device and a computer system that comprise a unified system. The unified desktop acts as a single user interface that presents data and receives user interaction in a seamless environment that emulates a personal computing environment. To function within the personal computing environment, the unified desktop includes a process for docking and undocking the device with the computer system. The unified desktop presents a new user interface to allow access to functions of the unified desktop. | 03-28-2013 |
20130080969 | UNIFIED DESKTOP DOCKING FLOW - Methods and devices for selectively presenting a user interface or “desktop” across two devices are provided. More particularly, a unified desktop is presented across a device and a computer system that comprise a unified system. The unified desktop acts as a single user interface that presents data and receives user interaction in a seamless environment that emulates a personal computing environment. To function within the personal computing environment, the unified desktop includes a process for docking and undocking the device with the computer system. The unified desktop presents desktops or windows based on the displays that were pre-existing before docking or undocking. | 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 |
20130167159 | VEHICLE COMPRISING MULTI-OPERATING SYSTEM - A mobile computing device with a mobile operating system and personal computer or vehicle processing module 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 personal computer operating system provides a full personal computer user experience when the mobile computing device is docked to a secondary terminal environment. The vehicle processing module operating system provides a full vehicle processing module 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. | 06-27-2013 |
20130268559 | VIRTUAL FILE SYSTEM REMOTE SEARCH - Methods and devices for connecting a mobile device with different data storage devices located either locally or remotely are provided. The device may apply one or more rules to create a hierarchical virtualization of the several data storage devices. The virtualization may then be provided to the user as a single, hierarchical file system. Further, a monitoring system may monitor the file system to determine if any new applications have been installed or if applications are currently being executed. If a connection is made to a secure network, the system may provide the information derived from the monitoring to the secure network. The secure network can then analyze the information to determine if any of the applications should be uninstalled from the device or should be stopped while the device is connected to the network. | 10-10-2013 |
20130268703 | RULES BASED HIERARCHICAL DATA VIRTUALIZATION - Methods and devices for connecting a mobile device with different data storage devices located either locally or remotely are provided. The device may apply one or more rules to create a hierarchical virtualization of the several data storage devices. The virtualization may then be provided to the user as a single, hierarchical file system. Further, a monitoring system may monitor the file system to determine if any new applications have been installed or if applications are currently being executed. If a connection is made to a secure network, the system may provide the information derived from the monitoring to the secure network. The secure network can then analyze the information to determine if any of the applications should be uninstalled from the device or should be stopped while the device is connected to the network. | 10-10-2013 |
20130275962 | REMOTE DEVICE FILTER - Methods and devices for connecting a mobile device with different data storage devices located either locally or remotely are provided. The device may apply one or more rules to create a hierarchical virtualization of the several data storage devices. The virtualization may then be provided to the user as a single, hierarchical file system. Further, a monitoring system may monitor the file system to determine if any new applications have been installed or if applications are currently being executed. If a connection is made to a secure network, the system may provide the information derived from the monitoring to the secure network. The secure network can then analyze the information to determine if any of the applications should be uninstalled from the device or should be stopped while the device is connected to the network. | 10-17-2013 |
20150058611 | 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. | 02-26-2015 |
Patent application number | Description | Published |
20120081380 | CROSS-ENVIRONMENT USER INTERFACE MIRRORING - 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 rendering and user interaction support provide a seamless computing experience in a multi-operating system computing environment. The seamless computing experience includes mirroring the active user interaction space of the mobile operating system to a display of a user environment associated with the desktop operating system. 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 |
20120081383 | CROSS-ENVIRONMENT USER INTERFACE MIRRORING USING REMOTE RENDERING - Cross-environment rendering and user interaction support provide a seamless computing experience 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. The seamless computing experience includes mirroring the active user interaction space of the mobile operating system to a display of a user environment associated with the desktop operating system. The user interface is rendered by the desktop operating system by accessing surface information of the active user interaction space directly from shared memory. 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 |
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 |
20120084798 | CROSS-ENVIRONMENT REDIRECTION - Cross-environment rendering and user interaction support provide a seamless computing experience 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. Full user interaction support is provided for redirected and/or mirrored applications that are rendered using an extended graphics context. An extended input queue handles input events from virtual input devices for remotely displayed applications. Remotely displayed applications are mapped to separate motion spaces within the input queue. 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 |
20120086716 | USER INTERACTION ACROSS CROSS-ENVIRONMENT APPLICATIONS THROUGH AN EXTENDED GRAPHICS CONTEXT - Cross-environment rendering and user interaction support provide a seamless computing experience 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 shared kernel of a mobile computing device. User interaction support includes handling input events initially received in the shared kernel by accepting the input events in the desktop operating system and translating, mapping, and/or passing the input events through a virtual input device to the mobile operating system such that applications of the mobile operating system receive the input events as if coming from a user interaction space of the mobile operating system. 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 |
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 |
20120089992 | USER INTERACTION SUPPORT ACROSS CROSS-ENVIRONMENT APPLICATIONS - Cross-environment rendering and user interaction support provide a seamless computing experience in a multi-operating system computing environment. The multi-operating system computing environment may include a mobile operating system associated with a first user environment and a desktop operating system associated with a second user environment running concurrently and independently on a mobile computing device. User interaction support includes handling input events initially received in the shared kernel by accepting the input events in the desktop operating system and translating, mapping, and/or passing the input events through a virtual input device to the mobile operating system such that applications of the mobile operating system receive the input events as if coming from a user interaction space of the mobile operating system. 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 |
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 |
20130167159 | VEHICLE COMPRISING MULTI-OPERATING SYSTEM - A mobile computing device with a mobile operating system and personal computer or vehicle processing module 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 personal computer operating system provides a full personal computer user experience when the mobile computing device is docked to a secondary terminal environment. The vehicle processing module operating system provides a full vehicle processing module 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. | 06-27-2013 |
20150058611 | 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. | 02-26-2015 |