A controller includes a first control member movable with one or two degree(s) of freedom (DoF) a second control member coupled to the first control member and movable with three independent DoFs and a third control member coupled to the first and the second control members, the third control member movable with one DoF, which is being one of the three DoFs of the second control member in the set, and providing a third control input, wherein the first, the second, and the third control members are configured to be operated by a user's single hand. Further, a forearm brace for attaching to a forearm of a user and a controller is used to support the user's forearm when the user operates the controller. Additionally, the controller includes vibration haptic motors for provide haptic alerts to the user based on position data and/or orientation data associated with a target object.

A display control system includes an input unit to receive position information of a knob, a memory to store a display control program in relation to a position of the knob, and a processor to execute the display control program to change a display of content in a display in consideration of the position information of the knob in relation to movement of the knob.

A display control system includes an input unit to receive position information of a knob, a memory to store a display control program in relation to a position of the knob, and a processor to execute the display control program to change a display of content in a display in consideration of the position information of the knob in relation to movement of the knob.

The present disclosure relates to user interfaces for receiving user input. In some examples, a device determines which user input technique a user has accessed most recently, and displays the corresponding user interface. In some examples, a device scrolls through a set of information on the display. When a threshold criteria is satisfied, the device displays an index object fully or partially overlaying the set of information. In some examples, a device displays an emoji graphical object, which is visually manipulated based on user input. The emoji graphical object is transmitted to a recipient. In some examples, a device displays paging affordances that enlarge and allow a user to select a particular page of a user interface. In some examples, the device displays user interfaces for various input methods, including multiple emoji graphical objects. In some examples, a keyboard is displays for receiving user input.

Exemplary embodiments of the present disclosure are directed to a lighting system that includes a line control module and light modules. The line control module can be configured to interrupt power to the light modules according to one or more power interruption schemes to control an operation of the light modules. The line control module can have user interface circuitry including a rotary encoder with a shaft and a push button, a preview circuit, and indicator light emitting diodes. A user can interact with the lighting system via the user interface circuitry, which can be configured to provide visual feedback of various settings of the lighting system.

Systems and methods for a wireless controller are provided. The wireless controller includes an enclosure having a top and a bottom, each having a substantially circular perimeter, and a side having a height circumferentially around the perimeter of the top and the bottom. A first sensor is configured to detect movement of the enclosure. A processor is coupled to the first sensor and configured to process signals from the first sensor and to send command signals via a wireless interface based at least upon the signals from the first sensor.

Reduced-size user interfaces for providing weather information are disclosed. At an electronic device with a touch-sensitive display, indications of a location and a temperature at the location may be displayed. In some examples, a user may provide input through a touch on the touch-sensitive display and/or through a rotation of a rotatable input mechanism to display additional weather information, such as weather information for another location, another temperature, another time, and so forth. In some examples, the device may obtain data representing an upcoming activity, determine whether the activity is to begin within a threshold amount of time, and display weather information based on the upcoming activity. In some examples, the device may display an affordance at a position to indicate the time of day for which a weather condition is provided.

Reduced-size user interfaces for providing weather information are disclosed. At an electronic device with a touch-sensitive display, indications of a location and a temperature at the location may be displayed. In some examples, a user may provide input through a touch on the touch-sensitive display and/or through a rotation of a rotatable input mechanism to display additional weather information, such as weather information for another location, another temperature, another time, and so forth. In some examples, the device may obtain data representing an upcoming activity, determine whether the activity is to begin within a threshold amount of time, and display weather information based on the upcoming activity. In some examples, the device may display an affordance at a position to indicate the time of day for which a weather condition is provided.

A multimedia content editing controller includes a microcontroller, a data storage device, a display device and a function selection device. The microcontroller receives plural editing function options from an external computer host. The plural editing function options are stored in the data storage device. The plural editing function options are displayed on the display device. When a user performs at least one function selection operation through the function selection device, the microcontroller determines at least one selected editing function option from the plural editing function options, and the microcontroller generates a human-machine interaction control signal. The at least one selected editing function option is transmitted from the microcontroller to the external computer host. The human-machine interaction control signal is transmitted to at least one of the display device and a LED display module.

A multimedia content editing controller includes a microcontroller, a data storage device, a display device and a function selection device. The microcontroller receives plural editing function options from an external computer host. The plural editing function options are stored in the data storage device. The plural editing function options are displayed on the display device. When a user performs at least one function selection operation through the function selection device, the microcontroller determines at least one selected editing function option from the plural editing function options, and the microcontroller generates a human-machine interaction control signal. The at least one selected editing function option is transmitted from the microcontroller to the external computer host. The human-machine interaction control signal is transmitted to at least one of the display device and a LED display module.