KR101301130B1

KR101301130B1 - Optimization method of e-book in mobile device

Info

Publication number: KR101301130B1
Application number: KR1020120026334A
Authority: KR
Inventors: 신정일; 이종근
Original assignee: 주식회사 엔티씨
Priority date: 2012-03-15
Filing date: 2012-03-15
Publication date: 2013-09-03

Abstract

PURPOSE: An e-book optimizing method in a mobile device is provided to prevent the degradation of movement speed by automatically reducing a frame when a screen is touched to move a page. CONSTITUTION: An object of an e-book is executed and a waiting mode displaying the object on one screen is executed (S02). The waiting mode is converted into an operating mode by recognizing a touch (S03). A screen converting mode is operated by recognizing a flick motion for turning the screen or a multi touch motion giving a change to the screen (S04). The object returns to the waiting mode after the screen conversion to be repeated until termination. [Reference numerals] (AA) Start; (BB) End object; (CC) Touch; (DD) End; (S01) Implement object; (S02) Waiting mode (Public Setting: 25FPS or higher); (S03) Operating mode (Public Setting: 14FPS or lower); (S04) Screen converting mode (Public Setting: 14 or lower); (S05) End Flick or Multi Touch

Description

How to Optimize eBooks on Mobile Devices {OPTIMIZATION METHOD OF E-BOOK IN MOBILE DEVICE}

The present invention relates to an e-book optimization method on a mobile device, and more particularly, to an e-book solution applied to an iOS device, an e-book on a mobile device that does not slow down when moving to a page ( e-book) optimization method.

iOS-enabled devices (such as tablets like the iPhone and iPad) don't support Adobe Flash or Microsoft Silverlight, so it's not currently possible to work as designed with Adobe Flash or Microsoft Silverlight. This also means you can't use the Safari built-in Java engine.

Except for a few of Apple's own applications, the practical limitations imposed by software on iOS devices, such as being able to run only one application at a time, include the use of plug-in architectures in environments such as Adobe Flash. It was not possible to install or run other executable code in any way, which made it impossible to use various content created using Adobe Flash.

Recently, Adobe admittedly allowed Adobe Flash, but there was a problem that the screen was broken due to a slow speed while moving the screen or not working at all.

An object of the present invention for solving the above problems is to provide an e-book optimization method in a mobile device that lowers the screen frame at the time of touching the touch screen screen so that the speed does not decrease when moving the page.

An e-book optimization method in a mobile device of the present invention for achieving the above object comprises the steps of: executing an object of the e-book; A second step of having a standby mode in which the object of the first step is stopped on one screen; Step 3 of recognizing a touch in the standby mode of step 2 and switching to a driving mode; A fourth step of recognizing a flick operation of turning over the screen or a multi-touch operation of changing a screen in the driving mode of the third step and having a screen switching mode; And after the screen is switched to step 4, the process returns to the standby mode of step 2 and repeats until the object is terminated. The step of step 3 and step 4 has a lower FPS than the screen of step 2. It is characterized in that the automatic switching.

The screen of step 2 is characterized in that the publish setting (Publish Setting) is driven at 25FPS or more.

The screen of steps 3 and 4 is characterized in that the publish setting (Publish Setting) is automatically switched to drive 14FPS or less.

Instead of the steps 3 and 4 is characterized in that it is applied to the screen switching through the automatic flip option of e-book.

The e-book optimization method in the mobile device according to the present invention has an effect of not lowering the moving speed by automatically lowering the frame when the screen is touched to move the page.

1 is a flow chart showing that the frame change is automatically made according to the situation of the present invention.

Hereinafter, an e-book optimization method in a mobile device of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, an e-book optimization method in a mobile device has a total of five steps.

Step S01 executes an object of an e-book on a device operating through a touch such as a smart phone or a tablet PC.

In step S02, when the user has a standby mode in which the screen is stopped while the user reads the screen from the executed e-book object, the screen is set to have a publish setting of 25 FPS or more for the user to read easily.

In step 3 (S03), when the user reads the open screen and moves to the next screen, or touches the screen to move the screen to zoom in or zoom out, the output of the screen is automatically set to the publish setting. Change the screen to 14FPS or less.

Step 4 (S04) has a flick process in which the screen whose publishing settings are automatically changed has a flick process to turn over the screen according to a user's selection, or becomes a multi-touch that enlarges, reduces, or moves the screen. In this case, keep the publishing setting below 14FPS to speed up the screen switching speed.

Step 5 (S05), if the screen of step 4 is the end of the flick process or out of the multi-touch, go back to step 2, the publish setting is automatically switched to 25FPS or more, and has a standby mode again, so that the user again displays a high-quality screen Make it available.

Repeated steps 1 to 5 (S01 to S05), the e-book object is driven, and when the user ends the object, all processes are terminated.

In addition, this process allows the e-book to be applied when the touch is not made using the automatic flip option as well as the screen turning by the user selection or the touch.

The following describes how to move screens in e-books when the automatic flip option is used.

In the first step, an object of an e-book is executed on a device operating through a touch such as a smart phone or a tablet PC.

In the second step, when the user has a standby mode where the screen is stopped while the user reads the screen in the executed e-book, the display setting (Publish Setting) is displayed at 25 FPS or more for the user to read easily.

In step 3, the screen output is automatically flickered by changing the screen to 14FPS or less after the predetermined time, according to the option set by the user.

In the fourth step, after the flick process is finished, the screen returns to step 2 and automatically switches to the publish setting of 25 FPS or more, and has a standby mode, thereby allowing the user to use the high quality screen again.

While the present invention has been particularly shown and described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of course, this is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the equivalents as well as the claims that follow.

Claims

In the e-book optimization method on a mobile device,
Step 1 of executing the object of the e-book;
A second step of having a standby mode in which the object of the first step is stopped on one screen;
Step 3 of recognizing a touch in the standby mode of step 2 and switching to a driving mode;
A fourth step of recognizing a flick operation of turning over the screen or a multi-touch operation of changing a screen in the driving mode of the third step and having a screen switching mode; And
After the screen is switched to step 4, the process returns to the standby mode of step 2 again and repeats until the end of the object;
The screen of steps 3 and 4 is an e-book optimization method for a mobile device, characterized in that the automatic conversion to a lower FPS than the screen of step 2.

The method of claim 1,
The screen of the second step is an e-book optimization method for a mobile device, characterized in that the publish setting (Publish Setting) is driven at 25FPS or more.

The method of claim 1,
The screen of steps 3 and 4 is the e-book optimization method for a mobile device, characterized in that the publish setting (Publish Setting) is automatically switched to drive less than 14FPS.

The method of claim 1,
E-book optimization method in a mobile device, characterized in that applied to the screen switching through the automatic flip option of the e-book instead of the steps 3 and 4.