KR20140072705A - Method of providing accelerated page navigation using temporary and simplified representation of accumulating effect for e-book devices, and computer-readable recording medium for the same - Google Patents

Abstract

The present invention relates to a technique for providing accelerated e-book page navigation, which is suitable to be used for e-book devices and, more specifically, to a technique for providing accelerated e-book page navigation, which enables brief but rapid page navigation through accelerated page navigation using the temporary representation of an accumulating effect in order to solve the problem of the prior art in which the page navigation speed of an e-book device is decreased noticeably for e-book content designed by using a script or a plurality of large images. When the page navigation speed of e-book content having various dynamic elements realized by a script for interactive representations like the real or e-book content designed by using a plurality of large images is decreased noticeably, the present invention can represent an accumulating effect for moving or skipping a page according to specified manipulation scenarios even for this e-book content to enable page navigation using a simple action, thereby improving user convenience.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for accelerating page search of an e-book terminal using cumulative effect temporary representation, and a computer readable recording medium therefor. 2. Description of the Related Art FOR THE SAME}

The present invention relates to an electronic book page accelerated search technique suitable for use in an electronic book terminal. In particular, the present invention aims at solving the problem of the prior art in which the page search speed of the e-book terminal is significantly slowed down with respect to e-book contents designed using a script or a large number of large images, The present invention relates to a page accelerated search technique of an e-book terminal that enables a quick but quick page search implementation through an electronic book terminal.

In general, e-books are a new concept book that enables people to digitize knowledge and information contained in paper books and view them through digital devices such as smartphones and tablet computers. It has the characteristic of digital contents that can be circulated.

These ebooks preserve the original files on the server, and when the reader purchases the book, they copy the eBook file and download it over the network, so the cost of publishing and maintaining books such as printing costs, paper expenses, inventory management costs, And the price is very low at 40-60% of paper books.

In addition, depending on capacity, you can store hundreds of e-book contents on thin and light e-book terminals, so you do not have to carry heavy paper books. If you connect to the network, you can download books anytime and anywhere There are advantages to be able to.

Accordingly, in recent years, the use of e-books has been rapidly increasing, and the number of people reading books on buses and subways using the e-book terminals is increasing remarkably.

On the other hand, e-book terminals are thin and light, while low-performance processors are used because battery life should be maximized. A user performs a page search through a touch operation. When an e-book page is designed using a script or a large number of large images, a considerable amount of time is required to render the page screen.

Accordingly, when the user tries to search for contents while moving a plurality of pages in the e-book, if the e-book content is designed using a script or a large number of images, the page search speed is remarkably slowed, There is a problem, and the user inconvenience is significant. In view of such a problem, in the prior art, the processor performance of the e-book terminal is expected to be improved and solved, but it is thought that it will be difficult to be solved within a short period of time because of the battery capacity problem.

Accordingly, in the related technology field, it is urgently required to develop a technology that allows a user to quickly search for an e-book page in an e-book terminal using a low-performance processor.

[Related Technical Literature]

1. How to convert e-book terminals and e-book pages (Patent application 10-2010-0114049)

2. Flipping page display method using electromechanical information browsing device (Patent Application No. 10-2004-7003771)

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problem of the prior art in which a page search speed of an e-book terminal is remarkably slowed with respect to e-book contents designed using a script or a large number of large images, And a page accelerated search technique of an e-book terminal which enables a simple but quick page search implementation.

According to another aspect of the present invention, there is provided a method of searching for a page acceleration of an electronic book terminal, the method comprising: a first step of implementing an electronic book UI screen divided into a first UI area and a second UI area; A second step of identifying a sensing spot input for one of the first UI area and the second UI area on the electronic book UI screen; A third step of temporally implementing a cumulative effect of sequential page movement of the e-book contents corresponding to the sensing spot on the electronic book UI screen to form a page movement state temporary implementation area; A fourth step of identifying a user's selected spot input in a page movement state provisional implementation area; A fifth step of identifying an input of the motion gesture for page movement adjustment according to the selected spot; And a sixth step of implementing an electronic book UI screen in which a page of the e-book content is moved by a page corresponding to the input position of the selected spot in the page movement state provisional implementation area according to the motion gesture input.

Meanwhile, a page acceleration search method of an electronic book terminal according to the present invention includes: identifying an input holding time of a sensing spot, which is performed between a third step and a fourth step; Performing acceleration setting of sequential page movement in proportion to the input holding time of the sensing spot; Recognizing an input stop of a sensing spot; Maintaining a cumulative effect of temporarily implemented page movement for a predetermined time; And implementing an electronic book UI screen displaying an original page before page movement according to a sensing spot when a selected spot is not input within a preset time. At this time, it is desirable that the acceleration setting of the page movement in the third step is set more in proportion to the total page number of the e-book content.

Also, in the page accelerated search method of an electronic book terminal according to the present invention, it is preferable that the page movement state provisional implementation region is formed on the opposite side of the first UI region and the second UI region, to which the sensing spot is input. In the third step, numbering for page movement adjustment is implemented in the page movement state temporary implementation area. In the sixth step, the number of pages of the electronic book content moved by the page specified by the selected spot in the numbering according to the motion gesture input It is desirable to implement a book UI screen. In addition, any one of the first UI area and the second UI area of the electronic book UI screen may be set as the hidden area.

Meanwhile, a computer-readable recording medium according to the present invention records a page acceleration search program for executing a page acceleration search method of an electronic book terminal using the cumulative effect temporary representation as described above.

For realistic interactive expression, page browsing speed may be significantly slowed with respect to e-book content having a variety of dynamic elements as a script or e-book contents designed using a large number of large images. According to the present invention, The cumulative effect for page movement or skipping is expressed according to a specific operation scenario, thereby showing a merit that a quick page search can be performed with a simple action, thereby improving user convenience.

1 shows an internal configuration of an electronic book terminal having a page acceleration search function according to the present invention;
FIG. 2 is a view showing a user interface screen in which page acceleration search is performed by a sensing spot in an electronic book terminal to which the present invention is applied; FIG.
FIG. 3 is a view showing an example of a user interface screen in which a page is fine-tuned by a selection spot and a motion jewel following a sensing spot in an electronic book terminal to which the present invention is applied;
4 is a diagram showing another example of a user interface screen in which a page is fine-tuned by a selected spot and a motion spot following a sensing spot in an electronic book terminal to which the present invention is applied;
5 is a flowchart showing a processing procedure of a sensing spot in a page acceleration search function according to the present invention;
FIG. 6 is a flowchart showing a processing procedure of a selection spot and a motion gesture in the page acceleration search function according to the present invention. FIG.

Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram showing an internal configuration of an electronic book terminal (hereinafter referred to as an 'electronic book terminal') having a page acceleration search function according to the present invention. (Hereinafter referred to as a UI) screen in which a page acceleration search is performed by a sensing spot on a sensing spot, and FIG. 3 and FIG. 2 is a diagram showing two examples of a user interface screen to be executed.

Referring to FIG. 1, the electronic book terminal 10 includes a touch screen 11, a central control unit 12, a storage unit 13, and a page acceleration search unit 14, to which the technique of the present invention is applied. At this time, the UI of the e-book contents divided into two areas is implemented on the touch screen 11, and the page acceleration searching unit 14 includes a sensing spot processing module 14a, a selected spot processing module 14b, (14c).

Hereinafter, an operation method of the electronic book terminal 10 will be described in detail with reference to [Figure 1] to [Figure 4].

The storage unit 13 stores a plurality of electronic book contents. When the user selects one of the e-book contents through the touch screen 11 and inputs an implementation request, the central control unit 12 displays the selected e-book contents on the electronic book UI screen (E- BOOK UI), and then loads the page acceleration search unit 14 onto the system memory.

In this case, as shown in Fig. 2 (a), the electronic book UI screen according to the present invention is configured to display the e-book content in a first UI area (e.g., a left area) and a second UI area Respectively. However, this area classification is a concept for software processing, and one of these areas may be set as a hidden area on the display screen. That is, it is also possible to temporarily display only two areas during the most of the time while the page acceleration search according to the present invention is operated.

First, the sensing spot processing module 14a waits for reception of a sensing spot on the electronic book UI screen. More specifically, the sensing spot processing module 14a waits for the user's sensing spot input to the UI area of the first UI area and the second UI area on the electronic book UI screen. At this time, the sensing spot can be input into one of the first UI area and the second UI area. However, the sensing spot is not limited to a direct area where the contents of the electronic book are displayed, but may be another area implicitly set to correspond to these UI areas, In the case of input, the same processing is performed by software. In this specification, for convenience of description, description will be made on the basis that the sensing spot is input to the first UI area as shown in Fig. 2 (b).

The sensing spot processing module 14a stores the sensing spot recording on the storage unit 13 as it identifies the sensing spot input, and sequentially writes the pages of the electronic book contents in the UI area into which the sensing spot is input, Prepare to move. In order to implement the e-book contents screen according to the page movement, the page moving speed may be slowed due to the script or the large image. Therefore, in the present invention, only cumulative effect of sequential page movement is temporarily implemented do. As shown in FIG. 2, various expressions such as displaying a page number, displaying an animation effect over a page, displaying a form in which a page is accumulated in a second UI area, displaying a thumbnail, or the like are possible. The page moving effect is accumulated in proportion to the time when the page is moved.

At this time, as shown in Fig. 2 (c), the sensing spot processing module 14a senses the sensing spot input time in real time and accelerates the page movement in proportion to the sensed spot input retention time, thereby gradually switching from low speed search to acceleration search . When the user applies the long press input in the first UI area, the sensing spot processing module 14a identifies that the sensing spot is inputted. Accordingly, the effect that pages of the first UI area are transferred to the second UI area one by one or a plurality of pages is accumulated, and the passing speed is preferably accelerated gradually.

On the other hand, the acceleration setting of the page movement is preferably proportional not only to the holding time of the sensing spot but also to the total page number of the e-book contents. That is, in the case of a total of 300 pages, it is preferable to accelerate 2 times or 3 times faster in proportion to the elapse of the sensing spot retention time, compared to a case where the total amount of the e-book contents is 100 pages. have.

As the user inputs the long press input as the sensing spot on the e-book UI screen, the form in which the e-book contents are moved in the acceleration page in one direction is temporarily implemented on the UI, as shown in FIGS. 2 to 4 Called page movement state provisional implementation area. In the present invention, the user performs the page fine adjustment after accelerating in this way, and the operation of the selected spot processing module 14b to perform fine adjustment of the page will be described with reference to FIGS. 3 and 4. Referring to FIGS. 2 (b) and 2 (c), in the e-book contents having a total of 327 pages, an acceleration search according to a sensing spot has moved at high speed from 12 to 159 pages.

As shown in FIG. 3 and FIG. 4, after the acceleration search is performed at a high speed in one direction by the sensing spot, fine adjustment of the page can be performed through the selection spot and the motion gesture. In the acceleration search, an effect of accumulating the page movement is temporarily implemented, which is shown in [Figure 3] and [Figure 4] as the page number and the overlapping page (see enlarged area).

In the present invention, a portion in which a page is temporarily displayed as in the enlarged area of [FIG. 3] and [FIG. 4] is referred to as a page movement state provisional implementation area. In the page movement state provisional implementation area, numbering for fine adjustment is set (1 to 5 in the drawing). In this part, the user inputs the selected spot through the touch input and then performs motion gestures such as dragging, flip and flickering Upon entry, fine tuning of page movement is achieved accordingly.

At this time, the fine adjustment numbering (1 to 5 in the drawing) may or may not be displayed on the electronic book UI screen. In addition, the selected spot may be input after the sensing spot is removed, or may be input by the user in a multi-touch manner with the sensing spot maintained.

The page movement module 14c receives the selected spot identification result from the selected spot processing module 14b, and then performs page movement for fine adjustment in response to the motion gesture input. In the case of [Fig. 3], after the selected spot for numbering 3 is identified, the page movement module 14c moves the page from page 159 moved by the acceleration search to the page corresponding to the operation that the user flicked to the left Move and fine-tune to page 156. Conversely, in the case of FIG. 4, after the selected spot for numbering 3 is identified, the page movement module 14c moves from 159 pages moved by acceleration search to 3 pages Moved to the back and finely adjusted to 162 pages.

That is, according to the present invention, when a user inputs a sensing spot through a long press or the like on the electronic book UI screen of the touch screen 11 and continuously maintains the input, effects such as page movement are temporarily And fine adjustment is made possible through the user's selected spot input and the motion gesture input on the accumulated image.

The page shifting module 14c implements an electronic book UI screen shifted by a page number having a selected spot corresponding to the motion gesture on the touch screen 11 and then writes the sensed spot recorded in the storage section 13 And deletes the selected spot record. That is, even if the input of the sensing spot is interrupted, the accumulated area for the page movement is temporarily maintained, and is set to go directly to the page according to the direction in which the specific page is bounced in this area.

On the other hand, the page movement module 14c does not actually implement the page movement when a preset threshold time (for example, 10 seconds) elapses after the identification spot is identified after the identification of the sensing spot, It is preferable to operate to delete the sensing spot recording stored in the storage unit 13 after returning to the screen. Optionally, an acceleration search may be performed on the sensing spot, and an 'OK' button may be displayed on the e-book UI screen to immediately confirm the selection.

On the other hand, the storage unit 13 may be configured as a space for storing control program codes of the electronic book terminal 10 and various data, such as a RAM, a ROM, a flash memory, a hard disk, a memory card, a web disk, .

5 is a flowchart showing a process of processing a sensing spot in a page acceleration search function of an electronic book terminal according to the present invention.

Step S11: First, when the user selects an e-book content through the touch screen 11 and inputs an implementation request, the central control unit 12 implements the selected e-book content as an e-book UI screen. At this time, as shown in Fig. 2 (a), the electronic book UI screen suitable for the present invention divides the e-book content into a first UI area (e.g., a left area) and a second UI area .

Step S12: Then, the page acceleration searching unit 14 identifies which one of the first UI region and the second UI region of the electronic book UI screen is selected by the user to input the sensing spot. The sensing spot means that the user performs a touch operation, and assumes a long press operation in this specification.

Step S13: When the sensing spot is identified, the page acceleration searching unit 14 prepares the sequential movement of the page of the e-book content in the UI area in which the sensing spot is input to the opposite area. In order to implement the e-book contents screen according to the page movement, the page moving speed may be slowed due to the script or the large image. Therefore, in the present invention, only cumulative effect of sequential page movement is temporarily implemented do. As shown in FIG. 2, various expressions such as displaying a page number, displaying an animation effect over a page, displaying a form in which a page is accumulated in a second UI area, displaying a thumbnail, or the like are possible. The page moving effect is accumulated in proportion to the time when the page is moved.

Steps S14 and S15: Then, the page acceleration search section 14 identifies the sensing spot input time in real time, sets the acceleration of the page so as to be proportional thereto, and gradually switches from the low speed search to the acceleration search. When the user applies the long press input in the first UI area, the page acceleration search unit 14 temporarily identifies the sensing spot as being input, and temporarily implements the effect of moving the page by one sheet. At this time, The elapsed speed is preferably accelerated gradually.

Steps S16 and S17: This operation continues until the input of the sensing spot is stopped, whereby the same effect as that of moving the page of the e-book content at high speed is temporarily realized. In the present invention, the selection spot process and the motion gesture process follow the sensing spot process. To this end, the UI screen temporarily implemented by the sensing spot process is temporarily maintained.

FIG. 6 is a flowchart showing a processing procedure of a selection spot and a motion gesture in the page acceleration search function according to the present invention.

Step S21: As described above with reference to FIG. 5, as the page acceleration search unit 14 identifies and processes the user's sensing spot input, the effect that the page moves at a high speed is temporarily implemented on the UI screen, The electronic book UI screen is temporarily held for the subsequent selected spot processing and the motion gesture processing.

Steps S22 and S23: The page acceleration search unit 14 waits for a user's selection spot input in the page movement state provisional implementation area. If the selected spot input is identified within a predetermined time, the process proceeds to step S24. Otherwise, if there is no selected spot input, the process proceeds to step S27.

Step S24: The page acceleration search unit 14 identifies the fine adjustment numbering according to the point where the selected spot is input in the page movement state provisional implementation area. Referring to FIG. 3 and FIG. 4, the fine adjustment numbering may be displayed in the page movement state provisional implementation area or only mapped internally in the unmarked state. Thus identifying the fine adjustment numbering corresponding to the point at which the selected spot was entered.

Step S25: The page acceleration search unit 14 then stores the selected spot record in the storage unit 13 and then waits for a motion gesture to be input from the user to identify the motion gesture.

Step S26: When the motion gesture is identified, the page acceleration search unit 14 formally implements an electronic book UI screen that implements page movement by the fine adjustment numbering set by the selected spot. At this time, it is desirable to set the fine adjustment direction according to the shape of the motion gesture. For example, it is preferable to separately apply the front fine adjustment and the back fine adjustment according to whether the left side flickering or the right side flickering is performed. In addition, when the page fine adjustment is completed, it is preferable to delete the sensing spot recording and the selected spot recording which have been stored in the storage unit 13.

If the selected spot input signal is not identified within the predetermined time as a result of the judgment in the step S23, the page acceleration searching section 14 searches the electronic book Implement the UI screen. In fact, no page movement has occurred.

The present invention can also be embodied in the form of computer readable code on a computer readable recording medium. At this time, the computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored.

Examples of the computer-readable recording medium include a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage, and the like, and may be implemented in the form of a carrier wave . The computer-readable recording medium can also be stored and executed by a computer-readable code in a distributed manner on a networked computer system. And functional programs, codes, and code segments for implementing the present invention can be easily deduced by programmers skilled in the art to which the present invention belongs.

As described above, the embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention. And is not intended to limit the scope of the invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: electronic book terminal
11: Touch screen
12:
13:
14:
14a: Sensing spot processing module
14b: selected spot processing module
14c: a page movement module

Claims (8)

A first step of implementing an electronic book UI screen divided into a first UI area and a second UI area;
A second step of identifying a sensing spot input for one of the first UI area and the second UI area on the electronic book UI screen;
A third step of temporally implementing a cumulative effect of sequential page movement of the e-book contents corresponding to the sensing spot on the e-book UI screen to form a page movement state temporary implementation area;
A fourth step of identifying a user's selected spot input in the page movement state provisional implementation area;
A fifth step of identifying an input of a motion gesture for page movement adjustment according to the selected spot;
A sixth step of implementing an electronic book UI screen in which a page of the e-book content is moved by a page corresponding to an input position of the selected spot in the page movement state provisional implementation area according to the motion gesture input;
A page accelerated search method for an electronic book terminal using a cumulative effect temporary representation composed of a cumulative effect temporal expression.
The method according to claim 1,
And a third step of performing the second step,
Identifying an input retention time of the sensing spot;
Performing acceleration setting of the sequential page movement in proportion to an input holding time of the sensing spot;
A page accelerated search method of an e-book terminal using a cumulative effect temporary representation composed of a cumulative effect temporal expression.
The method of claim 2,
Wherein the acceleration setting of the page movement is set more in proportion to the total page number of the e-book content.
The method of claim 2,
And a third step of performing the second step,
Recognizing an input stop of the sensing spot;
Maintaining a cumulative effect of the temporarily implemented page movement for a predetermined time;
Implementing an electronic book UI screen displaying an original page before page movement according to the sensing spot when the selected spot is not input within the predetermined time;
A page accelerated search method of an e-book terminal using a cumulative effect temporary representation composed of a cumulative effect temporal expression.
The method of claim 4,
Wherein the page moving state temporary realization area is formed in the third UI area and the second UI area opposite to the area in which the sensing spot is input. A method of searching for page acceleration of a terminal.
The method of claim 5,
In the third step, the page movement state provisional implementation area implements numbering for page movement adjustment,
Wherein the sixth step implements an electronic book UI screen in which a page of the electronic book content is moved by a page designated by the selected spot in the numbering according to the motion gesture input. A method of searching for page acceleration of a terminal.
The method of claim 6,
Wherein one of the first UI area and the second UI area of the electronic book UI screen is set as a hidden area.
A page-acceleration search program for executing a page-acceleration search method of an electronic book terminal using a cumulative effect temporary representation according to any one of claims 1 to 7.

Images