A method (P1) for coding a solar time, called the initial solar time (Hs1), associated with a geographical location (Loc) and with a day (J1) of the year, wherein the method includes selecting SEL(Href, Nb1) a reference time (Href) and an initial number of bits (Nb1) as a function of the type of initial solar time (Hs), computing CALC(Nm1) a number of minutes (Nm1) separating the initial solar time (Hs1) and the reference time (Href), coding COD(Hs1) the number of minutes (Nm1) in the initial number of bits (Nb1).

There is provided a wearable device including: a display that displays time; and a processor, in which the processor includes an acquisition unit that acquires moving object information related to a moving object which moves to a destination place and a time difference of the destination place with respect to standard time, and a correction unit that corrects the time to be displayed on the display unit based on the time difference when it is determined that a predetermined condition related to arrival of the moving object to the destination place is satisfied based on the moving object information.

A time display apparatus includes a display section that displays the time, a first receiver that receives a wireless signal containing information on the time zone corresponding to a destination from a transmitter provided in a moving object, a second receiver that receives a satellite signal from a positioning satellite to perform positioning and calculates position information, and a processor that is capable of selectively executing a first process of setting time to be displayed on the display section based on the time zone information and a second process of setting the time to be displayed on the display section based on the position information and does not execute the second process for the period until the processor determines that a predetermined condition is satisfied in a case where the first receiver has received the wireless signal.

A method for permutation of a time display mode of an electronic watch with an analogue display, including, after manipulation of a control member of the watch, a permutation of the position of main time indicating means of the watch, such that the device changes from indicating a first time to indicating a second time, the position of secondary time indicating device of the watch, such that the device changes from indicating the second time to indicating the first time, the position of an analogue time display mode indicator of the watch, such that the indicator changes from a first position characteristic of the first mode to a second position characteristic of the second mode.

The invention relates to a timepiece comprising at least an hour indicator, a minute indicator, a movement arranged to drive the hour indicator and the minute indicator, a dial, a crown and an indicator for at least one time zone, housed inside a first case. According to the invention, the first case is rotatable inside a second case about an axis of rotation, so that a rotation of the first case in a clockwise or anticlockwise direction with respect to the second case allows a time zone to be chosen and the time in the selected time zone to be indicated.

The analog electronic timepiece includes rotatable plural hands, a current position acquisition unit, a processor and a counting unit. The current position acquisition unit acquires a current position and stores local time settings therein. The local time settings include time zones and daylight saving time implementation information in each area. The processor rotates the plural hands, reads and acquires a local time setting corresponding to the acquired current position from the current position acquisition unit, and selects and sets a time zone. The counting unit counts the local time, based on a later action which the processor performs either the acquired local time setting or the set time zone. The processor controls at least one of the plural hands to display a local time determination result as to whether the counted local time is based on the acquired local time setting in correspondence to the current position.

An electronic timepiece includes a receiver that executes reception process to capture a position information satellite transmitting leap second information and receive a satellite signal transmitted from the captured position information satellite and a controller that acquires the leap second information on the basis of the satellite signal received by the receiver, in which the controller determines whether or not to stop the reception processing on the basis of a type of the satellite signal receivable from the position information satellite captured by the receiver.

In a plan view in an axial direction of an indicating hand axle of a small second hand, three arrangement relationships described below are satisfied between a 10 o'clock side information display unit and an hour hand. According to a first arrangement relationship, respective numbers of a scale are disposed line-symmetrically with respect to a virtual straight line connecting a scale and the indicating hand axle to each other. According to a second arrangement relationship, the indicating hand axle is located at a position which does not overlap an indicating hand axle of the hour hand. According to a third arrangement relationship, a portion of a rotatable range of the hour hand overlaps a rotatable range of the small second hand, and does not overlap the scale.

An electronic device has a reception device; a display device; an input device; a display controller that controls the display device to display the set time zone data when a first operation of the input device instructing displaying time zone data is detected; a positioning driver that operates the reception device to run a reception process and acquire positioning information when a second operation of the input device instructing starting reception in the navigation mode is detected while time zone data is displayed on the display device; and a time zone setter that sets time zone data based on the acquired positioning information.

An electronic timepiece includes a magnetic sensor that serves as a magnetic detection unit, a GPS reception unit that serves as a reception unit receiving positional information of a current position, a time zone setting unit that sets a time zone, a specifying unit that specifies a declination angle based on the positional information of the current position, a decision unit that decides a direction of a due north based on an output of the magnetic sensor and a declination angle, and an azimuth display unit that displays the direction of the due north decided by the decision unit.