KR20140112912A - Method for displaying in electronic device - Google Patents

Abstract

An apparatus and method for intuitively displaying display information in an electronic device, the apparatus for intuitively displaying measurement results in an electronic device comprises at least one processor, a memory, and a memory, wherein the at least one processor Wherein the module comprises at least one of a measurement range, a display object for displaying a measurement result, and a reference information for indicating a status of a measurement result, And displaying the measurement result by changing the position of the measurement range while the position of the display object is fixed.

Description

[0001] METHOD FOR DISPLAYING IN ELECTRONIC DEVICE [0002]

And more particularly, to an apparatus and method for intuitively displaying display information in an electronic device.

BACKGROUND ART [0002] With the recent rapid development of electronic devices, electronic devices capable of wireless voice communication and information exchange have become necessities of life. However, according to the development of the technology and the introduction of the wireless Internet, the electronic device can not only be used for a simple telephone call or a schedule management but also for a game, The remote control using a short distance communication, and the image taking by a digital camera equipped, the usage range thereof is getting larger and it satisfies a user's desire.

The amount of information to be processed or the amount of information to be displayed increases with the provision of the multimedia service. Accordingly, there is an increasing interest in an electronic device having a touch screen capable of increasing the size of a display unit by improving space utilization.

The touch screen is an input or display device for performing input and display of information on one screen. Accordingly, when the touch screen is used, the electronic device can increase the display area by removing a separate input device such as a keypad. For example, when the entire screen is a full-touch system using a touch screen, the screen size can be enlarged by using the front surface of the electronic apparatus as a screen.

The electronic device provides measurement results for a plurality of contents using the enlarged size screen as described above. For example, the electronic device may provide measurement results for temperature, humidity, length, area, speed, fuel economy, and the like.

The electronic device does not merely provide a measurement result but provides a measurement result using a screen in which a shape of an actual measurement instrument is expressed on a screen of an enlarged size.

This is intended to provide a measurement result that enhances the reality, but the screen configuration is complicated and the measurement result is not displayed intuitively, making it difficult to confirm the measurement result.

Accordingly, there is a need for an apparatus and method for intuitively providing measurement results in the electronic device to solve the above problems.

Various embodiments of the present disclosure are directed to providing an apparatus and method for intuitively displaying a plurality of measurement results in an electronic device.

Various embodiments of the present disclosure provide an apparatus and method for simultaneously displaying measurement results for a plurality of contents in an electronic device in one area.

Various embodiments of the present disclosure provide an apparatus and method for simultaneously displaying measurement results for content having different reference ranges in an electronic device in one area.

Various embodiments of the present disclosure are directed to providing an apparatus and method for intuitively providing a correlation to measurement results of a plurality of content in an electronic device.

A method for displaying a measurement result in an electronic device according to an embodiment of the present disclosure includes an execution screen including at least one of a measurement range, a display object for displaying a measurement result, and reference information for indicating a state of a measurement result And displaying the measurement result by changing the position of the measurement range while the position of the display object is fixed.

A method for intuitively displaying a measurement result in the electronic device includes fixing a position of a measurement range instead of the display object when measurement information is not included in the reference information, And displaying the results.

A method for intuitively displaying measurement results in the electronic device may include displaying a plurality of execution screens and arranging the display objects included in each execution screen in the same direction.

The process of displaying the plurality of execution screens may include displaying an execution screen including a plurality of parallel measurement ranges, an execution screen having a plurality of measurement ranges forming a predetermined angle, Any one screen can be displayed.

The step of arranging the display objects included in the execution screen in the same direction may include arranging the display objects for the measurement results on the same line when a plurality of measurement results are included in the respective reference information.

The reference information constituting the execution screen is fixed to at least a part of the measurement range and the position of the fixed reference information may be changed according to the position of the measurement range to be changed.

The measurement range can be expressed using a scale or a numerical value.

The display object may be represented using a numerical value indicating a measurement result or a guidance indicating a measurement result.

The measurement result may include at least one of temperature, humidity, fuel consumption, speed, area, length, and weight.

An apparatus for displaying a measurement result in an electronic device according to an embodiment of the present disclosure includes at least one processor, a memory, and at least one module stored in the memory and configured to be executable by the at least one processor Wherein the module displays an execution screen including at least one of a measurement range, a display object for displaying a measurement result, and a reference information for indicating a state of a measurement result, To change the position of the measurement range in order to display the measurement result.

The module may include instructions for fixing the position of the measurement range instead of the display object and changing the position of the display object and displaying the measurement result when the measurement information is not included in the reference information.

The module may include a command for displaying a plurality of execution screens and processing the display objects included in each execution screen to be arranged in the same direction.

The module may display at least one of an execution screen in which a plurality of parallel measurement ranges are arranged, an execution screen in which a plurality of measurement ranges forming a certain angle are arranged, and an execution screen in which a plurality of intersectioned measurement ranges are arranged And < / RTI >

The module may include instructions to process a display object for a measurement result to be placed on the same line when a plurality of measurement results are included in the respective reference information.

The module may include instructions for fixing the reference information constituting the execution screen to at least a part of the measurement range and processing to change the position of the fixed reference information according to the position of the measurement range to be changed.

The module may include instructions to process the measurement information using a scale or a number.

The module may include instructions to process the display object to represent the display object using a numerical value indicating a measurement result or a guidance indicating a measurement result.

The module may include instructions for processing to provide at least one of measurement results of temperature, humidity, fuel consumption, speed, area, length, and weight.

When the electronic device displays the measurement results for a plurality of contents, the electronic device may display the measurement results in one area and provide a correlation to the measurement results of the respective contents.

1 is a block diagram illustrating the configuration of an electronic device for displaying measurement results in accordance with one embodiment of the present disclosure;
2 is a flow chart illustrating a process of displaying measurement results in an electronic device according to an embodiment of the present disclosure;
FIG. 3 is a flowchart illustrating a process of determining a display method for measurement results in an electronic device according to an embodiment of the present disclosure;
4 is a diagram showing measurement results displayed in an electronic device according to an embodiment of the present disclosure;
Figure 5 illustrates a situation in which measurement results for temperature and humidity are displayed in an electronic device according to one embodiment of the present disclosure;
6 is a view showing a screen displaying a measurement result changed in an electronic device according to an embodiment of the present disclosure;
7 is a view showing a screen displaying a measurement result changed in an electronic device according to another embodiment of the present disclosure;
8 is a diagram illustrating a process of displaying a measurement result on a graph in an electronic device according to an embodiment of the present disclosure;
FIG. 9 illustrates a process of displaying a measurement result on a graph in an electronic device according to another embodiment of the present disclosure; FIG.
10 is a diagram illustrating a process of displaying a measurement result on a graph in an electronic device according to another embodiment of the present disclosure;
11 is a diagram illustrating a process of displaying a measurement result on a graph in an electronic device according to another embodiment of the present disclosure;
12 illustrates a process of displaying a measurement result on a graph in an electronic device according to another embodiment of the present disclosure;
13 is a flowchart illustrating a process of displaying contents in an electronic device according to an embodiment of the present disclosure;
14 illustrates a process of retrieving phonebook data in an electronic device according to an embodiment of the present disclosure;
15 is a diagram illustrating a process of retrieving music data in an electronic device according to an embodiment of the present disclosure;
16 is a diagram illustrating a process of retrieving image data in an electronic device according to an embodiment of the present disclosure,
17 is a view showing an example of measurement results displayed in an electronic device according to an embodiment of the present disclosure;

The operation principle of the present disclosure will be described in detail below with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present disclosure rather unclear. It is to be understood that the following terms are defined in consideration of the functions of the present disclosure and may vary depending on the user, the intention or custom of the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

In the following description, an apparatus and method for intuitively displaying a plurality of measurement results in an electronic device according to an embodiment of the present disclosure will be described.

The electronic device can simultaneously display measurement results of a plurality of contents in one area.

The electronic device can intuitively provide a correlation of measurement results of a plurality of contents.

The electronic device may be a portable electronic device and may be a portable terminal, a mobile terminal, a media player, a tablet computer, a handheld computer ) Or a PDA (Personal Digital Assistant). It may also be any portable electronic device, including devices combining two or more of these devices. Such an electronic device can support short-range communication such as bluetooth, wifi, NFC, and the like.

1 is a block diagram illustrating the configuration of an electronic device for displaying measurement results in accordance with one embodiment of the present disclosure;

1, the electronic device 100 includes a memory 110, a processor unit 120, an audio processing unit 130, a communication system 140, an input / output control unit 150, a touch screen 160, or an input device 170. At least one of these configurations may exist in a plurality of configurations.

The components are as follows.

The memory 110 may include a program storage unit 111 for storing a program for controlling the operation of the electronic device 100 or a data storage unit 112 for storing data generated during program execution. For example, the data storage unit 112 may store various updatable archive data such as a telephone directory, an origination message, or a received message.

The data storage unit 112 may store a measurement range, a display object, and reference information for displaying measurement results.

The measurement range is a range of measurement results obtainable using the content, and may range from the lowest measurement result to the highest measurement result. The measurement range may be displayed using a scale, a numerical value, or the like.

The display object is an object for displaying a measurement result measured by the content, and may include a numerical value indicating a measurement result, a guide indicating a measurement result, and the like.

The reference information indicates the state of the measurement result, and may include information on a range that satisfies a specific condition in the measurement range.

The data storage unit 112 may store a display method of measurement results.

The display scheme may be defined as information for changing the position to display the measurement result.

In the first method, the measurement result may be displayed by changing the position of the measurement range. In the second method, the position of the display object may be changed to display the measurement result.

The program storage unit 111 may include an operating system program 113, an information analysis module 114, a display module 115, or at least one application program 116. Here, the program included in the program storage unit 111 may be expressed as an instruction set as a set of instructions.

The operating system program 113 may include various software components for controlling a general system operation. Control of these general system operations may mean, for example, memory management or control, storage hardware (device) control or management, power control or management, and the like. Such an operating system program 113 may also facilitate the communication between various hardware (devices) and program components (modules).

The information analysis module 114 may include various software components for processing the display method of the measurement result.

The information analysis module 114 can confirm the measurement result and the reference information to confirm the display method of the measurement result.

In addition, the information analysis module 114 compares the measurement result with the reference information to check whether the measurement result included in the reference information is acquired.

In addition, the information analysis module 114 may search for data corresponding to a search range when searching for data.

The display module 115 may include various software components for providing and displaying graphics on the touch screen 160. The term graphics refers to text, a web page, an icon, a digital image, video, animation, and the like.

In addition, the display module 115 may include various software components related to the user interface.

The display module 115 may display a process of providing measurement results for the content.

That is, the display module 115 may display a screen including a measurement range, a display object, and reference information for the content providing the measurement result.

In addition, the display module 115 can display the measurement result by changing the position of at least one of the displayed measurement range, the display object, and the reference information.

That is, the display module 115 can display the measurement result by moving the position of the measurement range while the position of the display object is fixed.

In addition, the display module 115 can display the measurement result by moving the position of the display object while the position of the measurement range is fixed.

In addition, the display module 115 may display the search data.

At this time, the display module 115 may display a display area based on at least one of the axes, and then display data corresponding to the search range in the display area.

In addition, when a plurality of data included in the same category is searched, the display module 115 can display a plurality of image data in the display area of the corresponding category.

In addition, the display module 115 may display the measurement range and the reference range of each content so as to maintain a certain angle with each other, display the measurement range and the reference range of each content to move along the horizontal axis, And the reference range may be displayed so as to move in a curve with each other, or the measurement range and the reference range of each content may intersect with each other.

The application program 116 may include a software component for at least one application program installed in the electronic device 100 and a module for displaying measurement results may be included in the application program 116 as described above . This is because the function of displaying the measurement result as described above can be provided as one application.

The processor unit 120 may include at least one processor 122 or interface 124. Here, the processor 122 or interface 124 may be integrated into at least one integrated circuit or may be implemented as a separate component.

The interface 124 may serve as a memory interface for controlling the processor 122 and the memory 110 access.

In addition, the interface 124 may serve as a peripheral interface for controlling the connection of the processor 122 to the input / output peripheral of the electronic device 100.

The processor 122 may use at least one software program to control the electronic device 100 to change the location of the displayed information to display the measurement results.

At this time, the processor 122 may execute at least one program stored in the memory 110 to perform a function corresponding to the program.

The processor 122 may include a processor that is responsible for fixing the position of at least one of the displayed measurement range, the display object, and the reference information, and changing the position of other information to display the measurement result .

That is, the function of displaying the measurement result of the electronic device 100 may be performed using software such as a program stored in the memory 110 or hardware such as the processor.

The audio processing unit 130 may provide an audio interface between the user and the electronic device 100 through the speaker 131 or the microphone 132.

The communication system 140 may perform a communication function for voice communication or data communication of the electronic device 100. [ At this time, the communication system 140 may be divided into a plurality of communication submodules supporting different communication networks. For example, a communication network may include but is not limited to a Global System for Mobile Communications (GSM) network, an Enhanced Data GSM Environment (EDGE) network, a Code Division Multiple Access (CDMA) network, a W- Access network, an LTE (Long Term Evolution) network, an OFDMA (Orthogonal Frequency Division Multiple Access) network, a wireless LAN, a Bluetooth network or a NFC (Near Field Communication).

The electronic device 100 can receive measurement results to be displayed using such a communication system 140. [

The input / output control unit 150 may provide an interface between an input / output device such as the touch screen 160 or the input device 170 and an interface.

The touch screen 160 is an input / output device for outputting information or inputting information, and may include a touch input unit 161 and a display unit 162.

The touch input unit 161 may provide the touch information sensed through the touch panel to the processor unit 120 through the input / output control unit 150. At this time, the touch input unit 161 converts the touch information into a command structure such as a touch down, a touch movement (touch_move), or a touch up (touch_up) and provides the changed information to the processor unit 120, Can be generated.

The display unit 162 may display status information of the electronic device 100, a character input by the user, a moving picture or a still picture. For example, the display unit 162 may display a process of providing measurement results for the content.

That is, the display unit 162 may display a screen including a measurement range, a display object, and reference information for the content providing the measurement result.

In addition, the display unit 162 may display a process of providing a measurement result by changing a position of at least one of a displayed measurement range, a display object, and reference information.

In addition, the display unit 162 may display a process of moving the position of the display object while the position of the measurement range is fixed.

In addition, the display unit 162 may display a display area based on at least one of the axes, and then display data corresponding to the search range in the display area.

The input device 170 may provide the input data generated by the user's selection to the processor unit 120 through the input / output control unit 150. For example, the input device 170 may include only a control button for controlling the electronic device 100. As another example, the input device 170 may generate input data to display a measurement result. In addition, the input device 170 may generate input data that determines a search method for data retrieval.

Although not shown, the electronic device 100 may include a broadcast receiving module for receiving broadcasts, a digital sound source playback module such as an MP3 module, a short range wireless communication module for short range wireless communication, an image sensor for acquiring image data, And proximity sensor module for providing additional functions and software for their operation.

2 is a flow chart illustrating a process of displaying measurement results in an electronic device according to an embodiment of the present disclosure.

Referring to FIG. 2, the electronic device may include content providing measurement results such as comparison results, numerical values, and the like.

Here, the content may include applications that provide measurement results of temperature, humidity, length, weight, area, fuel economy, speed, and the like. At this time, the electronic device can provide a measurement result of one content or two or more contents.

The content may include an application providing a graph composed of measurement results such as Audiogram, Scatter graph, Radar graph, and the like.

The electronic device can confirm whether an event for displaying the measurement result occurs, such as the operation 201. [ The electronic device can verify that at least one of the applications mentioned above is running.

In addition, the electronic device may display first information including results that can be measured through the content, such as operation 203. Here, the first information may be a measurement range of the content, and the electronic device may display the first information using a scale, a numerical value, or the like. In addition, the electronic device may add to the first information reference information indicative of the status of the measurement result.

In addition, the electronic device may display second information indicative of the measured result as operation 205. Here, the second information means an object for displaying the measurement result measured by the content, and the electronic device may use the numerical value representing the measurement result, the instruction (needle) indicating the measurement result, Can be displayed.

That is, the electronic device displays the first information and the second information in order to display the measurement result. For example, in the case where the content capable of temperature measurement is executed, the electronic device displays the range from the lowest temperature to the maximum temperature And the first information including the reference information indicating the high temperature, the low temperature, or the optimum temperature or the range on the measurement range, and the second information indicating the current measurement temperature can be displayed.

In addition, the electronic device can display the measurement result by changing the position of the displayed first information or second information, as in operation 207. [

The electronic device can display the current temperature by moving the pointer corresponding to the second information or move the scale included in the first information to the pointer position to display the current temperature.

In addition, the electronic device can display measurement results for a plurality of contents. In this case, the electronic device can display the first information and the second information corresponding to each content in one area. For example, the electronic device may display the measurement results in one area using second information that divides each content into one first information.

3 is a flow chart illustrating a process for determining a display scheme for measurement results in an electronic device according to an embodiment of the present disclosure.

Referring to FIG. 3, the electronic device may display first information, which is a measurement range of contents when displaying a measurement result, and second information, which is an object that indicates a measured result.

The electronic device may obtain a measurement result as in operation 301. [ Here, the electronic device can acquire measurement results using various information (e.g., sensing information).

In addition, the electronic device can obtain measurement results through a server that provides measurement results.

In addition, the electronic device may perform a process of comparing the obtained measurement result with the reference information indicating the state of the measurement result, such as the operation 303, and the electronic device may compare the comparison result Can be confirmed.

In addition, when the measurement result is included in the reference information as in operation 307, the electronic device can display the measurement result by changing the position of the first information while fixing the position of the second information.

In addition, when the measurement result is not included in the reference information as in operation 309, the electronic device can display the measurement result by changing the position of the second information while fixing the position of the first information.

The electronic device may simultaneously display measurement results for a plurality of contents, and may display first information and second information for each content to display measurement results.

If the measurement result of each content is included in each of the reference information, the electronic device fixes the second information on the first content and the second information on the second content horizontally on the same line The measurement result can be displayed while changing the position of the first information in accordance with the measurement result.

Here, the arrangement of the second information on the same line may mean that the measurement results of the respective contents satisfy the reference information.

In addition, if the measurement result of at least one content is not included in the reference information in the above situation, the electronic device fixes the position of the first information with respect to the content, To display the measurement result. In this case, the second information of each content may not be arranged on the same line, so that the measurement result that does not satisfy the reference information can be expressed.

In the present embodiment, when the measurement result is included in the reference information, the electronic device can display the measurement result by changing the position of the first information while fixing the position of the second information. However, Can display the measurement result by changing the position of the second information while fixing the position of the first information when the measurement result is included in the reference information.

4 is a diagram showing measurement results displayed in an electronic device according to an embodiment of the present disclosure.

Referring to FIG. 4, the electronic device may include content providing measurement results such as comparison results, numerical values, and the like.

Generally, the electronic device can display the measurement result on the execution screen of the content.

The execution screen may include, for example, a measurement range, a display object, and reference information.

The measurement range is a range of measurement results obtainable using the content, and may range from the lowest measurement result to the highest measurement result. The measurement range may be displayed using a scale, a numerical value, or the like.

The display object is an object for displaying a measurement result measured by the content, and may include a numerical value indicating a measurement result, a guide indicating a measurement result, and the like.

The reference information indicates the state of the measurement result, and may include information on a range that satisfies a specific condition in the measurement range.

In addition, the electronic device can display measurement results for at least two or more contents.

As an example, the electronic device can simultaneously display measurement results of temperature and humidity as shown in Fig. 4 (a).

In the figure, the measurement results of the temperature and the humidity are displayed on a circular execution screen, and the semicircle (401) represented by the curve on the upper side shows the execution screen of the content ). In addition, the semicircle represented by the curved line on the lower side can be viewed as an execution screen (second execution screen) of the contents providing the measurement result of the humidity 411. [

Here, the execution screen (first execution screen) 401 of the content is a screen on which the temperature of the content capable of temperature measurement is displayed. The range of the temperature (measurement range) 405 that can be measured using the content, (Display object) 403 indicating a scale corresponding to the measured temperature, information (reference information) 407 about the range of the optimum temperature, and the like. In this example, the reference information may indicate that the currently measured temperature corresponds to the optimum temperature.

The execution screen (second execution screen) 411 of the content capable of humidity measurement may have the same configuration as the execution screen (first execution screen) 401 of the content capable of temperature measurement. That is, the execution screen (second execution screen) of the content capable of measuring the humidity may include a measurement range 415, a display object 413, and reference information 417.

When the measurement results are displayed on at least two content execution screens as described above, the measurement results for the respective contents are displayed separately from each other, so that the user can not intuitively check the measurement results.

As one of such problems, there is a problem that it is difficult to confirm the correlation between the execution result of the content capable of temperature measurement and the execution result of the content capable of humidity measurement, in a symmetrical manner.

In order to solve such a problem, the electronic device can simultaneously display measurement results measured through a plurality of contents in one area.

That is, the electronic device can express the execution screen of the content shown in FIG. 4 (a) as shown in FIG. 4 (b).

Referring to FIG. 4B, the electronic device displays the measurement range of the temperature-measurable content on the basis of an axis (e.g., the vertical axis), and displays the reference information on the temperature on the measurement range have. In addition, the electronic device may also display a display object indicative of the measured temperature. In the present embodiment, the measurement range including the reference information may be defined as first information, and the display object may be defined as second information. In addition, in the figure, the shaded part means the reference information 407-1, and the object indicated by a bold solid line means the display object 403-1. Further, a plurality of graduations means the measurement range 405-1.

Such an electronic device can display the measurement result while changing the position of the first information along the axis while fixing the position of the second information. That is, the electronic device fixes the position of the display object (the pointer) indicating the measured temperature so that information (e.g., scale, numerical value) corresponding to the changed temperature in the measurement range is moved to the fixed display object can do. The movement of the measurement range may also move the reference range included in the measurement range.

In addition, the second information may be fixed at the center of the screen, in which case the measurement results may be concentrated in the center of the screen.

In addition, the electronic device can display the measurement result while changing the position of the second information along the axis while fixing the position of the first information. That is, the electronic device can process the display object (the pointer) to the position of the information corresponding to the changed temperature in the fixed measurement range.

The electronic device performs processing so that the position of the display object 413-1 displaying the measurement range 415-1, reference information 417-1, and humidity of the content capable of humidity measurement is also displayed in the manner described above .

In addition, when the electronic device displays measurement results measured through a plurality of contents, it is possible to display the display objects for respective contents to be arranged on the same line.

This allows the relationship between the measurement result of each content and the reference information on the measurement result to be intuitively displayed. For example, if the current temperature and humidity are displayed on the same line, and the display object (e.g., a measurement value, a guideline indicating the numerical value) indicating the current temperature and humidity is included in the reference information It may mean that the temperature and humidity measured in the content satisfy the optimum condition.

As another example, when the current temperature and humidity are displayed on the same line, and only display objects (e.g., measurement values, instructions indicating the numerical values) indicating the current temperature are included in the reference information (area) This means that only the measured temperature satisfies the optimum condition. Also, when the measurement object and the reference information are changed in accordance with the measurement result and the display object indicating the current humidity deviates from the reference information indicating the optimum condition, the difference between the display object and the reference information corresponds to the current humidity and the optimal condition Which is the difference between the humidity and the humidity.

5 is a diagram illustrating a situation in which measurement results for temperature and humidity are displayed in an electronic device according to an embodiment of the present disclosure.

Referring to FIG. 5, the electronic device may provide content (e.g., application) capable of measuring temperature and humidity.

In addition, the electronic device can provide measurement results for temperature and humidity using information obtained through multiple sensors.

In addition, the electronic device can provide measurement results for temperature and humidity for a specific location, a specific time as well as the current location, current time, through a server providing measurement results for temperature and humidity.

In addition, the electronic device may previously store reference information on temperature and humidity. Here, the reference information may be a range for high temperature, low temperature, optimum temperature, high humidity, low humidity, and optimum humidity. In the following description, the term "reference range" will be used to express the optimum condition for temperature and humidity.

In the following description, it will be assumed that the electronic device storing the reference range for the optimum temperature and the optimum humidity provides measurement results for temperature and humidity.

The figure shows a state in which the optimum temperature is 20 ° C to 25 ° C and the optimum humidity is 40% to 60% and the electronic device storing the reference range measures the current temperature at 23 ° C and the current humidity at 40%. Here, the current temperature measured by the electronic device is a measurement result on temperature, and the present humidity means a measurement result on humidity.

As shown in the figure, the electronic device for providing the measurement result of the temperature and the humidity as described above displays a measurement range of the temperature on the vertical axis 501 and a reference range 503 indicating the optimum temperature on the measurement range Can be displayed. In the drawing, the left vertical axis represents the measurement range of temperature, and the range shaded in the measurement range may mean the reference range of temperature. At this time, the electronic device can display a display object (an object indicated by a bold solid line) 505 indicating a measurement temperature.

In addition, the electronic device can display (511) a measurement range of humidity on a vertical axis as shown and display a reference range 513 indicating optimal humidity on the measurement range. In the drawing, the right vertical axis represents the measurement range of humidity, and the range shaded in the measurement range may mean the reference range of humidity. At this time, the electronic device can display a display object (an object denoted by a bold solid line) 515 indicating the measured humidity.

Referring to the drawings, the electronic device is capable of measuring temperature from 0 ° C to 100 ° C and displaying a temperature between 20 ° C and 25 ° C as an optimum temperature.

In addition, the electronic device is capable of measuring humidity from 0% to 100% and displaying that humidity between 40% and 60% is optimal.

Such an electronic device can display measurement results using the following method.

The electronic device can determine the display mode using the measurement result and the reference range.

When the measurement result is included in the reference range, the electronic device can display the measurement result by changing the position of the measurement range while fixing the position of the display object for displaying the measurement result.

This shifts the measurement range so that the scale corresponding to the currently measured temperature and humidity matches the position of the fixed object. In addition, the movement of the measurement range means that the scale included in the measurement range is shifted upward or downward at regular intervals.

If a plurality of measurement results are included in a reference range indicating each optimum condition, the electronic device can process the display object for each measurement result so as to be placed on the same line.

That is, the electronic device can be concentrated in one place so that the measurement results for temperature and humidity can be compared.

In addition, when the measurement result is not included in the reference range, the electronic device can display the measurement result by changing the position of the display object displaying the measurement result while the measurement range is fixed.

In this case, the display object for each measurement result will not be placed on the same line, and the position of the display object may indicate the difference between the current measurement result and the reference range.

In the drawing, the temperature and humidity measured by the electronic device are included in the respective reference ranges, and the scale of the measurement range for the measurement result is shifted to the position of the fixed display object. In addition, it can be seen from the drawing that the current temperature is included in the middle of the reference range, and the current humidity is included in the limit line of the reference range.

6 is a view showing a screen displaying a measurement result changed in an electronic device according to an embodiment of the present disclosure.

Referring to FIG. 6, the electronic device may provide content (e.g., application) capable of measuring temperature and humidity.

In addition, the electronic device can provide temperature and humidity measurement results at intervals of time. As described above, the electronic device can obtain measurement results using sensor information or receive measurement results from a server.

In addition, the electronic device may previously store reference information on temperature and humidity. Here, the reference information may be a range of high temperature, low temperature, optimum temperature, high humidity, low humidity, and optimum humidity. In the following description, the term "reference range" is used to express the optimum condition.

In the following description, it will be assumed that the electronic device storing the reference range for the optimum temperature and the optimum humidity provides a measurement result of temperature and humidity to be changed.

The electronic device for providing the measurement result as described above displays (601) a temperature measurement range on the vertical axis as shown in FIG. 6 (a), and displays a reference range 603 indicating the optimum temperature on the measurement range can do. In the drawing, the left vertical axis indicates the measurement range of the temperature, and the electronic device can display (605) a display object indicating the measured temperature. In the figure, the shaded part means the reference range, and the object indicated by the bold solid line means the display object. Also, a plurality of graduations means the measurement range.

In addition, the electronic device can display (611) a measurement range of humidity on a vertical axis as shown and display a reference range indicating optimal humidity on the measurement range. In the drawing, the right vertical axis indicates the measurement range of humidity, and the electronic device can display (615) a display object indicating the measured humidity.

In addition, the electronic device can determine the display mode of the measurement result by comparing the measurement result with the reference range.

For example, when the measurement result is included in the reference range, the electronic device can display the measurement result by changing the position of the measurement range while fixing the position of the display object for displaying the measurement result have.

Referring to the drawing, the electronic device can display a measurement result that a temperature between 20 ° C and 25 ° C in the measurement range is an optimum temperature, and the current temperature is 23 ° C, which is included in the optimum temperature. At this time, the electronic device can display the measurement result by changing the position of the scale in the measurement range and processing the scale to 23 deg. C, which is the measurement result, to match the display object.

In addition, the electronic device is capable of displaying a measurement result of 50%, wherein the humidity between 40% and 60% of the measurement range is the optimum humidity and the current humidity is included in the optimum humidity. At this time, the electronic device can display the measurement result by changing the position of the scale in the measurement range and processing the scale for 50% of the measurement result to match the display object. In addition, the electronic device can process such that the display objects for temperature and humidity are arranged on the same line as the measurement results for temperature and humidity are included in the respective reference ranges.

This is to show the relationship between the measurement result and the reference range. In FIG. 6 (a), it can be seen that both the current temperature and the humidity satisfy the reference range.

As described above, the electronic device can provide temperature and humidity measurement results at intervals of a predetermined time.

If the electronic device measures the temperature at 23 ° C and the humidity at 50% and then the temperature at 23 ° C and the humidity at 60%, the electronic device displays the measurement result as shown in FIG. 6 (b) can do.

Referring to FIG. 6 (b), the electronic device can change only the measurement result of humidity as it can not obtain the measurement result changed with respect to temperature.

As the changed humidity is included in the reference range (40% to 60%), the electronic device changes the position of the measurement range while fixing the position of the display object for displaying the measurement result, can do. At this time, the electronic device may display a scale for 60% instead of a scale for 50% that is located in the display object according to the previous measurement result.

In the figure, the reference range of the humidity is 40% to 60%, and the humidity of 50% is changed to 60%. In the electronic device, when the measurement result is changed within the reference range, The position of the range is changed, and the position of the display object is fixed. In addition, you can see that the numerical value of the display object has changed to the numerical value of the changed result.

7 is a view showing a screen displaying a measurement result changed in an electronic device according to another embodiment of the present disclosure.

Referring to FIG. 7, the electronic device may provide content (e.g., application) capable of measuring temperature and humidity.

In addition, the electronic device can provide measurement results for temperature and humidity using information obtained through multiple sensors. As described above, the electronic device can obtain measurement results using sensor information or receive measurement results from a server.

In addition, the electronic device can provide temperature and humidity measurement results at intervals of time.

In addition, the electronic device may previously store reference information on temperature and humidity. Here, the reference information may be a range of high temperature, low temperature, optimum temperature, high humidity, low humidity, and optimum humidity. In the following description, the term "reference range" is used to express the optimum condition.

In the following description, it will be assumed that the electronic device storing the reference range for the optimum temperature and the optimum humidity provides a measurement result of temperature and humidity to be changed.

The electronic device for providing the measurement result as described above can display the measurement range of temperature on the vertical axis and display the reference range indicating the optimum temperature on the measurement range, as shown in Fig. 7 (a). In the drawing, the left vertical axis indicates the measurement range of the temperature, and the electronic device can display the display object indicating the measured temperature. In the figure, the shaded part means the reference range, and the object indicated by the bold solid line means the display object. Also, a plurality of graduations means the measurement range.

In addition, the electronic device can display a measurement range of humidity on a vertical axis as shown, and display a reference range indicative of optimal humidity on the measurement range. In the drawing, the right vertical axis means the measurement range of humidity, and the electronic device can display a display object indicating the measured humidity.

In addition, the electronic device can determine the display mode of the measurement result by comparing the measurement result with the reference range.

For example, when the measurement result is not included in the reference range, the electronic device changes the position of the display object to display the measurement result, while fixing the position of the measurement range .

Referring to the drawing, the electronic device can display a measurement result that a temperature between 20 ° C and 25 ° C in the measurement range is an optimum temperature, and the current temperature is 23 ° C, which is included in the optimum temperature. At this time, the electronic device can display the measurement result by changing the position of the scale in the measurement range and processing the scale to 23 deg. C, which is the measurement result, to match the display object.

In addition, the electronic device is capable of displaying a measurement result of 50%, wherein the humidity between 40% and 60% of the measurement range is the optimum humidity and the current humidity is included in the optimum humidity. At this time, the electronic device can display the measurement result by changing the position of the scale in the measurement range and processing the scale for 50% of the measurement result to match the display object. In addition, the electronic device can process such that the display objects for temperature and humidity are arranged on the same line as the measurement results for temperature and humidity are included in the respective reference ranges.

This is to show the relationship between the measurement result and the reference range. In FIG. 7 (a), it can be seen that the present temperature and humidity both satisfy the reference range.

As described above, the electronic device can provide temperature and humidity measurement results at intervals of a predetermined time.

If the electronic device measures a temperature of 23 ° C and a humidity of 50% and then a temperature of 23 ° C and a humidity of 70%, the electronic device displays the measurement result as shown in FIG. 7 (b) can do.

Referring to FIG. 7 (b), the electronic device can change only the measurement result of humidity as it can not obtain the measurement result changed with respect to temperature.

In addition, since the changed humidity 70% is not included in the reference range (40% to 60%), the electronic device changes the position of the display object indicating the measurement result while fixing the position of the measurement range The measurement result can be displayed. At this time, the electronic device can display the display object for humidity located on the same line as the display object with respect to the temperature according to the previous measurement result to be positioned with a scale of 70% in the changed measurement result among the scale of the measurement range.

In the figure, the reference range of the humidity is 40% to 60%, and the humidity of 50% is changed to 70%. In the electronic device, when the measurement result is changed within the reference range, It is possible to confirm that the position of the range is fixed and the position of the display object is changed. In addition, you can see that the numerical value of the display object has changed to the numerical value of the changed result.

In addition, in the drawing, the difference between the changed measurement result and the reference range can be confirmed.

8 is a diagram illustrating a process of displaying a measurement result on a graph in an electronic device according to an embodiment of the present disclosure.

Referring to FIG. 8, the electronic device may provide a content (e.g., application) that provides a graph composed of measurement results such as an audiogram, a scatter graph, a radar graph, and the like.

That is, the electronic device can display a graph including the first result and the second result as shown in FIG. 8 (a). The graph includes the measurement result of the left hearing (first result) and the measurement result of the right hearing (second result), wherein the x axis represents the height of the sound and the y axis represents the sound intensity.

The electronic device can confirm the measurement result of the first result and the second result for one measurement period.

For example, the electronic device can check the measurement result for the left / right hearing at the A1 section (250 Hz) and the measurement result for the left / right hearing at the A2 section (500 Hz).

In this case, the electronic device can display the measurement results as shown in Figs. 8 (b) and 8 (c).

The electronic device can display the measurement range for the x-axis and the measurement range for the y-axis on a vertical axis. In addition, a display object for displaying the measurement period and the measurement result can be displayed together. In the figure, the shaded part means the measurement range, and the object indicated by the bold solid line means the display object. In the graph, measurement results are included in the range of the x-axis and the y-axis, and the measurement range and the reference range can be the same.

In addition, the electronic device can display the measurement result by changing the position of the measurement range while the position of the displayed display object is fixed.

FIG. 8B is a diagram showing a measurement result (110 dBHL) for the left hearing and a measurement result (55 dBHL) for the right hearing at the A1 section (250 Hz) 802). At this time, the electronic device can change the position of the measurement range with respect to the x-axis so that the information on the interval A1, which is the measurement interval, is placed in the fixed display object. At this time, the electronic device may add information about the measurement period to the fixed display object. As shown in the figure, the electronic device can add a value of 250 Hz to a fixed display object.

In addition, the electronic device can display the measurement result 803 for the corresponding interval together with the information about the measurement interval. At this time, the electronic device can change the position of the measurement range with respect to the y-axis to display the first result and the second result. As shown in the figure, the electronic device performs processing such that information on the first result (scale corresponding to 110 dBHL of the left hearing) and information on the second result (scale corresponding to 55 dBHL of the right hearing) are placed on the fixed display object can do. At this time, the electronic device may add information about the measurement period to the fixed display object. As shown, the electronic device can add 55 dBHL, 110 dBHL to each fixed display object.

8 (c) is a diagram showing a measurement result (90 dBHL) for the left hearing and a measurement result (45 dBHL) for the right hearing at the A2 section (500 Hz) Can be displayed.

That is, the electronic device can simultaneously display a plurality of measurement results in one area, and process the measurement results and the measurement range intuitively to be displayed.

9 is a diagram illustrating a process of displaying a measurement result on a graph in an electronic device according to another embodiment of the present disclosure.

Referring to FIG. 9, the electronic device may display a graph including a first result as shown in FIG. 9 (a).

The electronic device can display a plurality of measurement results of the y-axis with respect to the x-axis. For example, the electronic device can identify the measurement results A, B, and C in the drawing. The measurement result A (80 dBHL) is obtained at 125 Hz, the measurement result B (115 dBHL) is the result obtained at 250 Hz, and the measurement result C (95 dBHL) means the result obtained at 500 Hz.

In this case, the electronic device can display the measurement result as shown in FIG. 9 (b).

The electronic device can display the measurement range for the x-axis and the measurement range for the y-axis on a vertical axis. In addition, a display object for displaying the measurement period and the measurement result can be displayed together. In the figure, the shaded part means the measurement range, and the object indicated by the bold solid line means the display object.

In addition, the electronic device can display the measurement result by changing the position of the measurement range while the position of the displayed display object is fixed.

9 (b) shows the measurement results A, B, and C. In order to display the measurement result A, the electronic device changes the position of the measurement range with respect to the x-axis, The corresponding scale) can be processed to be positioned on the fixed display object. At this time, the electronic device may add information about the measurement period to the fixed display object. As shown in the figure, the electronic device can add a numerical value of 125 Hz to a fixed display object.

In addition, the electronic device can display the measurement result for the corresponding interval together with the information about the measurement interval. At this time, the electronic device may change the position of the measurement range with respect to the y-axis so that information on a result obtained in the measurement period (a scale corresponding to 80 dBHL) is positioned on the fixed display object. At this time, the electronic device may add information about the measurement period to the fixed display object. As shown, the electronic device may add a value of 80 dBHL to the fixed display object.

In addition, the electronic device can display the measurement results B, C in such a manner that the measurement result A is displayed.

10 is a diagram illustrating a process of displaying a measurement result on a graph in an electronic device according to another embodiment of the present disclosure.

Referring to FIG. 10, the electronic device may display a scatter graph as shown in FIG. 10 (a).

The electronic device may display measurement results for the x and y axes. For example, the electronic device can identify the measurement results A, B, C, and D in the drawing. The measurement result A corresponds to the coordinate (10,5), the measurement result B corresponds to the coordinates (15,30), the measurement result C corresponds to the coordinates (20,20) D means the result corresponding to the coordinates (25, 15).

In addition, the region processed in a rectangular shape in the above drawing is defined as a reference range.

In this case, the electronic device can display the measurement result as shown in FIG. 10 (b).

The electronic device may display the x-axis range and the y-axis range for the reference range on a vertical axis. In addition, a display object for displaying the measurement period and the measurement result can be displayed together. In the figure, the shaded part means the reference range, and the object indicated by the bold solid line means the display object.

In addition, the electronic device can determine the display mode by comparing the measurement result with a reference range.

When the measurement result is included in the reference range, the electronic device can display the measurement result by changing the position of the reference range while fixing the position of the display object for displaying the measurement result.

In addition, when the measurement result is not included in the reference range, the electronic device can display the measurement result by changing the position of the display object displaying the measurement result while fixing the position of the measurement range.

For example, the measurement result A can be confirmed to be out of the reference range. In this case, the electronic device can arrange the position of the display object in accordance with the measurement result, with the x-axis reference range and the y-axis reference range fixed.

That is, the electronic device can display a state in which the measurement result A corresponding to the coordinates (10, 5) is out of the reference range as shown in the figure.

For example, the measurement result D can be confirmed to be included in the reference range. In this case, the electronic device can arrange the positions of the x-axis reference range and the y-axis reference range in accordance with the measurement result while fixing the position of the display object indicating the measurement result.

That is, the electronic device can display a state in which the measurement result D corresponding to the coordinates (25, 15) is included in the reference range as shown in the figure.

In addition, the electronic device confirms that the measurement results B and C are included in the reference range, and sets the positions of the x-axis reference range and the y-axis reference range in accordance with the measurement result .

11 is a diagram illustrating a process of displaying a measurement result on a graph in an electronic device according to another embodiment of the present disclosure.

Referring to FIG. 11, the electronic device can display a radar graph as shown in FIG. 11 (a).

The electronic device may set a reference range on a radar graph. In the figure, the shaded area corresponds to the reference range.

In the graph, each axis represents measurement data, and each axis is divided into a plurality of measurement ranges. In other words, the measurement range of the data A to D in the figure can be from 0 to 40. [

The electronic device can check the measurement results for the data A, B, C, D and E in the figure. The reference range of data A and B is 10, and the measurement result is 30. The reference range of the data C is 15, the measurement result is 10, the reference range of the data D is 20, and the measurement result is 10. The reference range of the data D is 30, and the measurement result corresponds to 20.

The electronic device can display measurement results for a reference range for multiple axes as shown.

In this case, the electronic device can display the measurement result as shown in FIG. 11 (b).

The electronic device can display the measurement range of each data on the vertical axis. In addition, the reference range can be displayed in the measurement range of each data. In the figure, the shaded part means the reference range, and the object indicated by the bold solid line means the display object. Also, a plurality of graduations means the measurement range.

In addition, the electronic device can determine the display mode by comparing the measurement result with a reference range.

When the measurement result is included in the reference range, the electronic device can display the measurement result by changing the position of the measurement range while fixing the position of the display object for displaying the measurement result. In the drawing, a bold solid line means a display object.

For example, as the measurement results of the data D and E are included in the reference range, the electronic device can fix the position of the display object and then position the measurement range according to the measurement result. And for the data D, the measurement result corresponding to 10 (the position of the display object) in the reference range 20 (shaded part) is obtained.

In addition, when the measurement result is not included in the reference range, the electronic device can display the measurement result by changing the position of the display object displaying the measurement result while fixing the position of the measurement range.

For example, since the measurement results of the data A, B, and C are not included in the reference range, the electronic device can fix the position of the measurement range, and then position the display object according to the measurement result. For data A, a measurement result corresponding to 30 out of the reference range 10 is displayed.

Referring to FIG. 11 (b), it can be confirmed that not only the measurement results of the respective data but also the states in the reference range are intuitively displayed.

12 is a diagram illustrating a process of displaying a measurement result on a graph in an electronic device according to another embodiment of the present disclosure.

Referring to FIG. 12, the electronic device can display a radar graph as shown in FIG. 12 (a).

The electronic device may set a reference range on a radar graph. In the figure, the shaded area corresponds to the reference range.

In the graph, each axis represents measurement data, and is divided into a plurality of measurement ranges of each axis. In other words, the measurement range of the data A to D in the figure can be from 0 to 40. [

In addition, the measurement result of each data is included in the measurement range, and each data can have a plurality of measurement results. The figure shows a situation in which each data has a first measurement result and a second measurement result.

For example, the electronic device may verify the measurement results for data A, B, C, D, and E in the depicted figures. The reference range of data A and B is 10, and the measurement result corresponds to 30 and 20. The reference range of the data C is 15, the measurement results are 10 and 30, the reference range of the data D is 20, and the measurement results are 10 and 30. The reference range of data D is 30, and the measurement results are 20 and 15.

The electronic device can display measurement results for a reference range for multiple axes as shown.

In this case, the electronic device can display the measurement result as shown in FIG. 12 (b).

The electronic device can display the measurement range of each data on the vertical axis. In addition, the reference range can be displayed in the measurement range of each data. In the figure, the shaded part means the reference range, and the object indicated by the bold solid line means the display object. Also, a plurality of graduations means the measurement range.

In the drawing, the first measurement result is displayed on the left side with respect to one longitudinal axis, and the second measurement result is displayed on the right side.

In addition, the electronic device can determine the display mode by comparing the measurement result with a reference range.

When the measurement result is included in the reference range, the electronic device can display the measurement result by changing the position of the measurement range while fixing the position of the display object for displaying the measurement result.

For example, as the measurement result of the data E is included in the reference range, the electronic device can fix the position of the display object, and then position the measurement range according to the measurement result. For the data D, the first measurement result corresponding to 10 out of the reference range 20 and the measurement result corresponding to 15 out of the reference range 20 are obtained.

In addition, when the measurement result is not included in the reference range, the electronic device can display the measurement result by changing the position of the display object displaying the measurement result while fixing the position of the measurement range.

For example, since the measurement result of the data A is not included in the reference range, the electronic device can fix the position of the measurement range, and then arrange the position of the display object according to the measurement result. For the data A, a first measurement result corresponding to 30 of the reference range 10 and a second measurement result corresponding to 20 of the reference range 10 are obtained.

In addition, as with the data D, the first measurement result may be included in the reference range, but the second measurement result may not be included in the reference range.

In this case, the electronic device fixes the position of the display object, arranges the position of the measurement range according to the measurement result, displays the first measurement result, fixes the position of the measurement range, And the second measurement result can be displayed by arranging it according to the result.

Referring to FIG. 12 (b), it can be confirmed that not only a plurality of measurement results of each data but also a state in the reference range are intuitively displayed.

13 is a flowchart illustrating a process of displaying contents in an electronic device according to an embodiment of the present disclosure.

Referring to FIG. 13, the electronic device can intuitively display measurement results as described above.

In addition, the electronic device can intuitively display search results for content. Here, the content may be data that can be retrieved from the electronic device, and may include image data, phone book data, music data, moving picture data, and the like.

The electronic device can receive a search range of contents as in operation 1301. [ Here, the search range may be a search term for data to be searched.

The electronic device can confirm the contents included in the corresponding range as in operation 1303. [

This classifies only the data that the user desires to search among a plurality of data stored in the electronic device.

The electronic device can display the contents of the corresponding range on the same line as the operation 1305. [ Here, the content in the corresponding range can be searched in a plurality of categories, and among them, contents included in the same category can exist.

In this case, the electronic device can separately display the contents searched for by category, and display the contents included in the same category on the same line so as to be distinguished from the contents included in another category.

14 is a diagram illustrating a process of retrieving phone book data in an electronic device according to an embodiment of the present disclosure.

Referring to FIG. 14, the electronic device can store phone book data using a plurality of categories.

For example, the electronic device may store the phone book data belonging to each category after defining the category 1403 such as a family, a school, a university, and a company, as shown in the phonebook execution screen 1401 of Fig. 14 (a).

In addition, the phonebook execution screen 1401 may include a menu 1405 for selecting a search range. As shown in the figure, the electronic device can confirm the information of the user located at a certain distance using the location information.

Of course, the electronic device should be able to receive location information from a user stored as phonebook data.

As shown, when an input 1407 for searching a user located within 50 km is generated, the electronic device can display the search result as shown in FIG. 14 (b).

The electronic device may display the display area based on at least one of the axes to display search results. In the drawing, the display area may be an area indicated by a dotted line.

The electronic device may sort the users by category in order of distance and then display a user who satisfies the search range on the display area. At this time, when the electronic device searches a plurality of data included in the same category, it can display a plurality of data in the display area of the corresponding category.

For example, the search result 1411 for the family category includes data 1413 for two people in the display area. This means that the user corresponding to the search range, that is, the user who is distant from the electronic device by 50 km, is two persons. In addition, the data displayed on the upper and lower sides of the display area refer to the user located before and after the search range.

In addition, for example, in the search result for the school category, there is no data in the display area. This means that there is no user corresponding to the search range. In addition, the data displayed on the upper side based on the display area means a user who is separated from the electronic device by a distance of 10 km, and the data displayed on the lower side means a user who is separated from the electronic device by 50 km or more.

15 is a diagram illustrating a process of retrieving music data in an electronic device according to an embodiment of the present disclosure.

Referring to FIG. 15, the electronic device can store music data using a plurality of play lists.

For example, as shown in the reproduction list execution screen of FIG. 15A, the electronic device can generate a plurality of reproduction lists 15003 and then store music data belonging to each list.

In addition, the playlist execution screen may include a menu 1501 for selecting a search range. As shown in the figure, the electronic device can confirm the music data belonging to the genre by using the music genre.

As shown in FIG. 15B, when the input 1503 for searching music data corresponding to pop is generated, the electronic device can display the search result as shown in FIG. 15B.

The electronic device may display the display area based on at least one of the axes to display search results.

The electronic device may search music data corresponding to a pop genre, and then display music data satisfying a search range on the display area. At this time, when the electronic device searches a plurality of data (music data of a pop genre) included in the same play list, the electronic device can display a plurality of music data in a display area of the list.

For example, in the search result 1505 for the playlist 1, there are two pieces of music data 1507 in the display area. This means that the music data corresponding to the search range, that is, the data of the pop genre included in the play list 1 is two.

In addition, for example, the search result 1509 for the playlist 2 does not include data in the display area. This means that music data corresponding to the search range does not exist.

16 is a diagram illustrating a process of retrieving image data in an electronic device according to an embodiment of the present disclosure.

Referring to FIG. 16, the electronic device can store image data using a plurality of categories.

For example, as shown in the gallery execution screen of Fig. 16 (a), the electronic device can store music data belonging to each category after defining a plurality of categories.

In addition, the gallery execution screen may include a menu 1601 for selecting a search range. As shown in the figure, the electronic device can confirm the image data stored on the date by using the storage date.

As shown, when the input 1605 for selecting a search date is generated, the electronic device can display the search result as shown in FIG. 16 (b).

The electronic device may display the display area based on at least one of the axes to display search results.

The electronic device may search image data corresponding to a search date, and then display image data satisfying a search range on the display area. At this time, when the electronic device searches a plurality of data (image data stored on the same date) included in the same category, the electronic device can display a plurality of image data in the display area of the corresponding category.

As a result of the search for the travel category, for example, there are a plurality of image data 1607 in the display area. This means that there are a plurality of image data corresponding to the search range.

In addition, for example, there is one image data in the display area as a search result for the friend category. This means that the image data corresponding to the search range is one.

17 is a diagram showing an example of measurement results displayed in an electronic device according to an embodiment of the present disclosure.

Referring to FIG. 17, the electronic device displays the measurement range and the reference range of each content on one axis and displays the display object in one area in order to display a plurality of measurement results.

This is intended to intuitively display the correlation between the measurement result and the reference range, in the present disclosure, the measurement range, the reference range, and the display object are displayed to move along the vertical axis.

The electronic device displays the measurement range 1701 and the reference range 1703 of each content so as to maintain a certain angle with each other as shown in FIG. 17 (a), and displays the display object 1705 in one area . At this time, the area where the display object is displayed may be an area inside the measurement range and the reference range of each content.

The electronic device displays the measurement range 1711 and the reference range 1713 of each content so as to move along the horizontal axis and displays the display object 1715 in one area as shown in FIG. have. At this time, the area where the display object is displayed may be an area inside the measurement range and the reference range of each content.

The electronic device displays the measurement range 1721 and the reference range 1723 of each content so as to move in a curve with each other as shown in Fig. 17 (c), and displays the display object 1725 in one area have. At this time, the area where the display object is displayed may be an area inside the measurement range and the reference range of each content.

The electronic device may display the measurement range 1731 and the reference range 1733 of each content so that the display range 1735 intersects with each other and display the display object 1735 in one area as shown in FIG.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Therefore, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

Claims (18)

A method for intuitively displaying measurement results in an electronic device,
Displaying an execution screen including at least one of a measurement range, a display object for displaying a measurement result, and reference information for indicating a state of a measurement result;
And displaying a measurement result by changing a position of the measurement range in a state where the position of the display object is fixed.
The method according to claim 1,
A method for intuitively displaying measurement results in an electronic device,
Fixing the position of the measurement range instead of the display object when the measurement information is not included in the reference information;
And changing the position of the display object to display a measurement result.
The method according to claim 1,
A method for intuitively displaying measurement results in an electronic device,
Displaying a plurality of execution screens,
And arranging the display objects included in each execution screen in the same direction.
The method of claim 3,
Wherein the displaying of the plurality of execution screens comprises:
A method of displaying at least one of an execution screen in which a plurality of parallel measurement ranges are arranged, an execution screen in which a plurality of measurement ranges forming a certain angle are arranged, and an execution screen in which a plurality of intersecting measurement ranges are arranged.
The method of claim 3,
Wherein the step of arranging the display objects included in the execution screen in the same direction comprises:
And arranging the display objects for the measurement results on the same line when a plurality of measurement results are included in the respective reference information.
The method according to claim 1,
Wherein the reference information constituting the execution screen is fixed to at least a part of the measurement range and the position of the fixed reference information is also changed according to the position of the measurement range to be changed.

The method according to claim 1,
Wherein the measurement range is expressed using a scale or a numerical value.
The method according to claim 1,
Wherein the display object is represented using a numerical value indicating a measurement result or a guidance indicating a measurement result.
The method according to claim 1,
As a result of the measurement,
Temperature, humidity, fuel economy, speed, area, length, and weight.
An apparatus for intuitively displaying measurement results in an electronic device,
At least one processor,
Memory, and
At least one module stored in the memory and configured to be executable by the at least one processor,
The module comprises:
A display object including at least one of a measurement range, a display object for displaying a measurement result, and reference information for indicating a state of a measurement result is displayed, and the position of the measurement range is changed And to display the measurement result.
11. The method of claim 10,
The module comprises:
And if the measurement information is not included in the reference information, fixing the position of the measurement range instead of the display object, and changing the position of the display object to display the measurement result.
11. The method of claim 10,
The module comprises:
And displaying the plurality of execution screens and processing to arrange the display objects included in each execution screen in the same direction.
13. The method of claim 12,
The module comprises:
A command for processing to display at least any one of an execution screen in which a plurality of parallel measurement ranges are arranged, an execution screen in which a plurality of measurement ranges forming a certain angle are arranged, and an execution screen in which a plurality of intersectioned measurement ranges are arranged, / RTI >
13. The method of claim 12,
The module comprises:
And processing the display object for the measurement result to be arranged on the same line when a plurality of measurement results are included in the respective reference information.
11. The method of claim 10,
The module comprises:
And to process the reference information constituting the execution screen in at least a part of the measurement range and to change the position of the fixed reference information according to the position of the measurement range to be changed.
11. The method of claim 10,
The module comprises:
And to process the measurement information using a scale or a numerical value.
11. The method of claim 10,
The module comprises:
And instructions for expressing the display object using a numerical value indicating a measurement result or a guidance indicating a measurement result.
11. The method of claim 10,
The module comprises:
To provide a measurement result of at least one of temperature, humidity, fuel consumption, speed, area, length, and weight.

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