Abstract: An electronic device, with a touch-sensitive surface and a display, includes one or more sensors to detect intensity of contacts with the touch-sensitive surface. The device detects a contact on the touch-sensitive surface while a focus selector corresponding to the contact is at a respective location on the display associated with additional information not initially displayed on the display. While the focus selector is at the respective location, upon determining that the contact has an intensity above a respective intensity threshold before a predefined delay time has elapsed with the focus selector at the respective location, the device displays the additional information associated with the respective location without waiting until the predefined delay time has elapsed; and upon determining that the contact has an intensity below the respective intensity threshold, the device waits until the predefined delay time has elapsed to display the additional information associated with the respective location.

Abstract: An electronic device provides data to present a user interface with a plurality of user interface objects. A current focus is on a first user interface object of the plurality of user interface objects. The device receives an input. In response, the device provides data to move the current focus from the first user interface object to a second user interface object based on a direction and/or magnitude of the input, and provides sound information to provide a sound output concurrently with the movement of the current focus from the first user interface object to the second user interface object. A pitch of the sound output is based on a size of the first user interface object, a type of the first user interface object, a size of the second user interface object, and/or a type of the second user interface object.

Abstract: An electronic device provides data to present a user interface with a plurality of user interface objects, including a control user interface object at a first location. The control user interface object is configured to control a parameter. The device receives an input that corresponds to an interaction with the control user interface object. While receiving the input that corresponds to the interaction with the control user interface object, the device provides data to move the control user interface object, in accordance with the input, from the first location to a second location. The device also provides first sound information to provide a sound output with characteristics that are different from the parameter controlled by the control user interface object and that change with movement of the control user interface object from the first location to the second location.

Abstract: Electronic devices are often equipped with a camera for capturing video content and/or a display for displaying video content. However, amateur users often capture video content without regard to composition, framing, or camera movement, resulting in video content that can be jarring or confusing to viewers. There is a need to automate the processing and presentation of video content in an aesthetically pleasing manner. The embodiments described herein provide a method of automatically cropping video content for presentation on a display.

Abstract: Touch and hover switching is disclosed. A touch and hover sensing device can switch between a touch mode and a hover mode. During a touch mode, the device can be switched to sense one or more objects touching the device. During a hover mode, the device can be switched to sense one or more objects hovering over the device. The device can include a panel having multiple sensors for sensing a touching object and/or a hovering object and a touch and hover control system for switching the device between the touch and hover modes. The device's touch and hover control system can include a touch sensing circuit for coupling to the sensors to measure a capacitance indicative of a touching object during the touch mode, a hover sensing circuit for coupling to the sensors to measure a capacitance indicative of a hovering object during the hover mode, and a switching mechanism for switching the sensors to couple to either the touch sensing circuit or the hover sensing circuit.

Abstract: An electronic device with a touch-sensitive surface, a display, and one or more sensors to detect intensity of contacts displaying a lower-level user interface that is part of a user interface hierarchy, where the hierarchy includes at least three levels, including the lower-level user interface, an intermediate-level user interface and a higher-level user interface. The device also, while displaying the lower-level user interface, detects an input on a portion of the device that is associated with user interface hierarchy navigation and, in response to detecting the input, in accordance with a determination that the input meets first transition criteria, the device replaces display of the lower-level user interface with display of the intermediate-level user interface and in accordance with a determination that the input meets second transition criteria, the device replaces display of the lower-level user interface with display of the higher-level user interface.

Abstract: The present application is related to a computer for providing output to a user. The computer includes a processor and an input device in communication with the processor. The input device includes a feedback surface and at least one sensor in communication with the feedback surface, the at least one sensor configured to detect a user input to the feedback surface. The processor varies a down-stroke threshold based on a first factor and varies an up-stroke threshold based on a second factor. The down-stroke threshold determines a first output of the computing device, the up-stroke threshold determines a second output of the computing device, and at least of the first factor or the second factor are determined based on the user input.

Abstract: Touch and hover switching is disclosed. A touch and hover sensing device can switch between a touch mode and a hover mode. During a touch mode, the device can be switched to sense one or more objects touching the device. During a hover mode, the device can be switched to sense one or more objects hovering over the device. The device can include a panel having multiple sensors for sensing a touching object and/or a hovering object and a touch and hover control system for switching the device between the touch and hover modes. The device's touch and hover control system can include a touch sensing circuit for coupling to the sensors to measure a capacitance indicative of a touching object during the touch mode, a hover sensing circuit for coupling to the sensors to measure a capacitance indicative of a hovering object during the hover mode, and a switching mechanism for switching the sensors to couple to either the touch sensing circuit or the hover sensing circuit.

Abstract: An electronic device with a display, a touch-sensitive surface, and sensors to detect intensity of contacts with the touch-sensitive surface displays, on the display, an affordance corresponding to respective content at a respective size and detects a gesture that includes an increase in intensity of a contact followed by a subsequent decrease in intensity of the contact. In response to the increase in intensity, the device decreases a size of the affordance below the respective size. In response to the subsequent decrease in intensity: when a maximum intensity of the contact is above a content-display intensity threshold, the device ceases to display the affordance and displays at least a portion of the respective content; and when a maximum intensity of the contact is below the content-display intensity threshold, the device increases the size of the affordance to the respective size and forgoes displaying the respective content.

Abstract: An electronic device, with a touch-sensitive surface and a display, includes one or more sensors to detect intensity of contacts with the touch-sensitive surface. The device detects a contact on the touch-sensitive surface while a focus selector corresponding to the contact is at a respective location on the display associated with additional information not initially displayed on the display. While the focus selector is at the respective location, upon determining that the contact has an intensity above a respective intensity threshold before a predefined delay time has elapsed with the focus selector at the respective location, the device displays the additional information associated with the respective location without waiting until the predefined delay time has elapsed; and upon determining that the contact has an intensity below the respective intensity threshold, the device waits until the predefined delay time has elapsed to display the additional information associated with the respective location.

Abstract: An electronic device with a touch-sensitive surface, a display, and one or more sensors to detect intensity of contacts displaying a lower-level user interface that is part of a user interface hierarchy, where the hierarchy includes at least three levels, including the lower-level user interface, an intermediate-level user interface and a higher-level user interface. The device also, while displaying the lower-level user interface, detects an input on a portion of the device that is associated with user interface hierarchy navigation and, in response to detecting the input, in accordance with a determination that the input meets first transition criteria, the device replaces display of the lower-level user interface with display of the intermediate-level user interface and in accordance with a determination that the input meets second transition criteria, the device replaces display of the lower-level user interface with display of the higher-level user interface.

Abstract: An electronic device includes a touch-sensitive surface and a display. The device displays, on the display, a first user interface. The device detects a gesture on the touch-sensitive surface. The gesture includes movement of a contact in a respective direction on the touch-sensitive surface. In response to detecting the gesture: in accordance with a determination that the movement of the contact is entirely on a first portion of the touch-sensitive surface, the device performs an operation in the first user interface that corresponds to the gesture; and in accordance with a determination that the movement of the contact is entirely on a second portion of the touch-sensitive surface, the device replaces display of the first user interface with display of a second user interface different from the first user interface.

Abstract: An electronic device with a touch-sensitive surface and a display, that includes one or more sensors to detect intensity of contacts with the touch-sensitive surface, displays a plurality of application icons, where the plurality of application icons include a respective application icon corresponding to a respective application. While a focus selector is over the respective application icon, the device detects a gesture that includes a contact on the touch-sensitive surface; and in response to detecting the gesture: when the contact had a maximum intensity during the gesture that was below a respective intensity threshold, the device displays an application window of the respective application; and when the contact reached an intensity during the gesture that was above the respective intensity threshold, the device displays a plurality of user interface objects that correspond to the respective application.

Abstract: An electronic device, with a touch-sensitive surface and a display, includes one or more sensors to detect intensity of contacts with the touch-sensitive surface. The device detects a contact on the touch-sensitive surface while a focus selector corresponding to the contact is at a respective location on the display associated with additional information not initially displayed on the display. While the focus selector is at the respective location, upon determining that the contact has an intensity above a respective intensity threshold before a predefined delay time has elapsed with the focus selector at the respective location, the device displays the additional information associated with the respective location without waiting until the predefined delay time has elapsed; and upon determining that the contact has an intensity below the respective intensity threshold, the device waits until the predefined delay time has elapsed to display the additional information associated with the respective location.

Abstract: In some embodiments, an electronic device optionally identifies a person's face, and optionally performs an action in accordance with the identification. In some embodiments, an electronic device optionally determines a gaze location in a user interface, and optionally performs an action in accordance with the determination. In some embodiments, an electronic device optionally designates a user as being present at a sound-playback device in accordance with a determination that sound-detection criteria and verification criteria have been satisfied. In some embodiments, an electronic device optionally determines whether a person is further or closer than a threshold distance from a display device, and optionally provides a first or second user interface for display on the display device in accordance with the determination. In some embodiments, an electronic device optionally modifies the playing of media content in accordance with a determination that one or more presence criteria are not satisfied.

Abstract: Detecting a signal from a touch and hover sensing device, in which the signal can be indicative of concurrent touch events and/or hover events, is disclosed. A touch event can indicate an object touching the device. A hover event can indicate an object hovering over the device. The touch and hover sensing device can ensure that a desired hover event is not masked by an incidental touch event, e.g., a hand holding the device, by compensating for the touch event in the detected signal that represents both events. Conversely, when both a hover event and a touch event are desired, the touch and hover sensing device can ensure that both events are detected by adjusting the device sensors and/or the detected signal. The touch and hover sensing device can also detect concurrent hover events by identifying multiple peaks in the detected signal, each peak corresponding to a position of a hovering object.

Abstract: A method includes, at an electronic device with a display and a touch-sensitive surface: concurrently displaying a first text entry area and an unsplit keyboard on the display; detecting a gesture on the touch-sensitive surface; and, in response to detecting the gesture on the touch-sensitive surface, replacing the unsplit keyboard with an integrated input area. The integrated input area includes a left portion with a left side of a split keyboard, a right portion with a right side of the split keyboard, and a center portion in between the left portion and the right portion.

Abstract: The present application is related to a computer for providing output to a user. The computer includes a processor and an input device in communication with the processor. The input device includes a feedback surface and at least one sensor in communication with the feedback surface, the at least one sensor configured to detect a user input to the feedback surface. The processor varies a down-stroke threshold based on a first factor and varies an up-stroke threshold based on a second factor. The down-stroke threshold determines a first output of the computing device, the up-stroke threshold determines a second output of the computing device, and at least one of the first factor or the second factor are determined based on the user input.

Abstract: Detecting a signal from a touch and hover sensing device, in which the signal can be indicative of concurrent touch events and/or hover events, is disclosed. A touch event can indicate an object touching the device. A hover event can indicate an object hovering over the device. The touch and hover sensing device can ensure that a desired hover event is not masked by an incidental touch event, e.g., a hand holding the device, by compensating for the touch event in the detected signal that represents both events. Conversely, when both a hover event and a touch event are desired, the touch and hover sensing device can ensure that both events are detected by adjusting the device sensors and/or the detected signal. The touch and hover sensing device can also detect concurrent hover events by identifying multiple peaks in the detected signal, each peak corresponding to a position of a hovering object.

Abstract: Compensation for sensors in a touch and hover sensing device is disclosed. Compensation can be for sensor resistance and/or sensor sensitivity variation that can adversely affect touch and hover measurements at the sensors. To compensate for sensor resistance, the device can gang adjacent sensors together so as to reduce the overall resistance of the sensors. In addition or alternatively, the device can drive the sensors with voltages from multiple directions so as to reduce the effects of the sensors' resistance. To compensate for sensor sensitivity variation (generally at issue for hover measurements), the device can apply a gain factor to the measurements, where the gain factor is a function of the sensor location, so as to reduce the sensitivity variation at different sensor locations on the device.