According to various disclosed embodiments, a method for setting a date and time by an electronic device may include: displaying a user interface that includes a plurality of time points arranged at regular intervals along a circumferential direction in an edge area of a substantially circular dial and including a date change point, a first icon positioned at a first point among the plurality of time points, and a second icon positioned at a second point among the plurality of time points; receiving an input for at least one of the first icon and the second icon; displaying movement of the at least one of the first icon and the second icon on the plurality of time points based on the received input; and displaying a date and time corresponding to a movement direction and movement location of the at least one of the first icon and the second icon.

According to various disclosed embodiments, a method for setting a date and time by an electronic device may include: displaying a user interface that includes a plurality of time points arranged at regular intervals along a circumferential direction in an edge area of a substantially circular dial and including a date change point, a first icon positioned at a first point among the plurality of time points, and a second icon positioned at a second point among the plurality of time points; receiving an input for at least one of the first icon and the second icon; displaying movement of the at least one of the first icon and the second icon on the plurality of time points based on the received input; and displaying a date and time corresponding to a movement direction and movement location of the at least one of the first icon and the second icon.

According to various disclosed embodiments, a method for setting a date and time by an electronic device may include: displaying a user interface that includes a plurality of time points arranged at regular intervals along a circumferential direction in an edge area of a substantially circular dial and including a date change point, a first icon positioned at a first point among the plurality of time points, and a second icon positioned at a second point among the plurality of time points; receiving an input for at least one of the first icon and the second icon; displaying movement of the at least one of the first icon and the second icon on the plurality of time points based on the received input; and displaying a date and time corresponding to a movement direction and movement location of the at least one of the first icon and the second icon.

According to various disclosed embodiments, a method for setting a date and time by an electronic device may include: displaying a user interface that includes a plurality of time points arranged at regular intervals along a circumferential direction in an edge area of a substantially circular dial and including a date change point, a first icon positioned at a first point among the plurality of time points, and a second icon positioned at a second point among the plurality of time points; receiving an input for at least one of the first icon and the second icon; displaying movement of the at least one of the first icon and the second icon on the plurality of time points based on the received input; and displaying a date and time corresponding to a movement direction and movement location of the at least one of the first icon and the second icon.

A sleep training clock can be configured to assist in sleep training. The sleep training clock is shaped like a robot having a face, a torso, and two legs; two LEDs disposed in the face and three LEDs disposed in the torso; and a digital clock face disposed in the torso. Additionally, circuitry for performing sleep training is configured to determine whether the electronic device is in a wake state and turn on the two LEDs disposed in the face and turn off the three LEDs disposed in the torso in response, determine whether the electronic device is in a sleep state and turn off the two LEDs disposed in the face and turn on the three LEDs disposed in the torso in response.

In one aspect of the invention, a graphical user interface on a portable multifunction device with a touch screen display comprises: an hour column comprising a sequence of hour numbers; a minute column comprising a sequence of minute numbers; and a selection row that intersects the hour column and the minute column. In response to detecting a gesture on the hour column, the hour numbers in the hour column are scrolled without scrolling the minute numbers in the minute column. In response to detecting a gesture on the minute column, the minute numbers in the minute column are scrolled without scrolling the hour numbers in the hour column. The single hour number and the single minute number in the selection row after scrolling the hour numbers and the minute numbers, respectively, are used as time input for a function or application on the multifunction device.

In one aspect of the invention, a graphical user interface on a portable multifunction device with a touch screen display comprises: an hour column comprising a sequence of hour numbers; a minute column comprising a sequence of minute numbers; and a selection row that intersects the hour column and the minute column. In response to detecting a gesture on the hour column, the hour numbers in the hour column are scrolled without scrolling the minute numbers in the minute column. In response to detecting a gesture on the minute column, the minute numbers in the minute column are scrolled without scrolling the hour numbers in the hour column. The single hour number and the single minute number in the selection row after scrolling the hour numbers and the minute numbers, respectively, are used as time input for a function or application on the multifunction device.

The present invention is directed to devices that may be used to help young children stay in bed or their room until it is time to get up. The device may be configured as a clock. The clock may be programmable to have a duration of a nap time, or a time when the child is able to get up. A visual countdown timer may be provided with the device (e.g., on the clock face), which may include a graphical representation of the remaining fraction of time before get up time. The visual countdown timer may not include number indicia, but rather includes a graphic (e.g., ring extending about the perimeter of the clock face), which gradually diminishes as the predetermined get up time is approached. A reward drawer may also be provided, which automatically unlocks at the get up time, and provides the child with a prize.

The present technology relates to information processing apparatus and method, and a program that make a stress level controllable depending on circumstances. A stress level measuring unit measures a stress level of a user on the basis of a result of detection by various types of sensors included in an input unit. A stress factor specifying unit specifies a factor causing an increase or decrease in the stress level on the basis of an action of the user in a period in which the stress level is increased or decreased. The present technology is applicable to a stress control system, for example.