公开(公告)号：KR1020010038204A

公开(公告)日：2001-05-15

申请号：KR1019990046088

申请日：1999-10-22

Applicant: 한국전자통신연구원

Inventor： 양종윤 ,  김경옥 ,  안충현

IPC: G06T3/00

Abstract: PURPOSE: A method for processing large capacity satellite image is provided to make expansibility easily, execute effectively large capacity satellite image process, and minimize memory size required to work by object-oriented technique CONSTITUTION: The first stage is to image load object element(11) loads large capacity satellite image. The second stage is to exchange object element(12) exchange data type of image loaded into byte type. The third stage is to process object element(13) exchange and process byte type image applying to pixel unit image process algorithm. The fourth stage is to image creating object element(14) exchange image exchanged and processed into image object for image process at Java. Image load object element loads by a part of line if process type of satellite image is file type, loads all of image if memory type at the first stage.

Abstract translation: 目的：提供一种处理大容量卫星图像的方法，使得扩展容易，有效执行大容量卫星图像处理，并通过面向对象技术最小化所需的内存大小构成：第一阶段是图像载入对象元素（11 ）加载大容量卫星图像。 第二阶段是交换对象元素（12）交换数据类型的图像加载到字节类型。 第三阶段是处理对象元素（13）交换和处理字节类型图像应用到像素单元图像处理算法。 第四阶段是将图像创建对象元素（14）交换并处理成图像对象以进行图像处理。 如果卫星图像的进程类型为文件类型，图像载入对象元素由部分行加载，如果在第一阶段存储类型，则加载所有图像。

公开(公告)号：KR1020000037798A

公开(公告)日：2000-07-05

申请号：KR1019980052562

申请日：1998-12-02

Applicant: 한국전자통신연구원

Inventor： 양종윤 ,  오원근

IPC: G06F15/00

Abstract: PURPOSE: An expert system is provided to reduce cost and effort for an image managing expert by constructing examples of development of automatic examination system through image management as knowledge base and by finding and showing same examples automatically when an user executes a specific examination work and by finding and showing the most similar example if same examples are not present in the knowledge base. CONSTITUTION: An expert system includes an example base(11) which subdivides applied examples into image management work units and stores them; an example managing module(13) which loads examples stored the example base(11) or stores supplied success examples or failure examples in the example base(11) when an user shows a problem; and a deduction engine(14) which searches the loaded examples from the example managing module(13) and verifies propriety and provides success examples or failure examples to the example managing module(13).

Abstract translation: 目的：提供一种专家系统，通过构建自动检查系统的开发实例，通过图像管理作为知识库，并通过在用户执行特定检查工作时自动查找和显示相同的示例，从而降低图像管理专家的成本和工作量，并通过 找到并显示最相似的例子，如果相同的例子不在知识库中。 规定：专家系统包括将应用实例细分为图像管理工作单元并进行存储的示例库（11）; 当用户显示问题时，加载示例库（11）中存储的示例管理模块（13）或存储所提供的成功示例或故障示例在示例库（11）中的示例管理模块（13） 以及从示例管理模块（13）搜索加载的示例并且验证适当性并向示例管理模块（13）提供成功示例或故障示例的扣除引擎（14）。

公开(公告)号：KR1020010045472A

公开(公告)日：2001-06-05

申请号：KR1019990048779

申请日：1999-11-05

Applicant: 한국전자통신연구원

Inventor： 양종윤 ,  안충현 ,  김경옥

IPC: G08G1/0968

Abstract: PURPOSE: A method of positioning a moving body using location and geographical information is provided to track down moving bodies such as trucks and buses through a computer system or internet. CONSTITUTION: In the method of positioning a moving body, in step (201) the moving body receives a GPS(Global Positioning System) signal. In step (202), the moving body displays its position on a display. In step (203), the moving body delivers the received GPS signal to a GPS compensation server, Here, the moving body's location is checked and the information is displayed along with GIS(Geographical Information System) data on a monitor. In step (204), the compensation server compensates the received GPS signal through IDGPS(Inverted Differential GPS) method and sends the compensated signal to the central control server. And after the central control system receives all the information about each moving body, the control server transmits directions to any moving body if necessary. And each moving body is on hold. In step (205), the central control server sends related information to the moving bodies.

Abstract translation: 目的：提供使用位置和地理信息定位移动体的方法，以通过计算机系统或互联网跟踪卡车和公共汽车等移动体。 构成：在移动体的定位方法中，在步骤（201）中，移动体接收GPS（全球定位系统）信号。 在步骤（202）中，移动体在显示器上显示其位置。 在步骤（203）中，移动体将接收到的GPS信号传送到GPS补偿服务器。这里，检查移动体的位置，并将该信息与GIS（地理信息系统）数据一起显示在监视器上。 在步骤（204）中，补偿服务器通过IDGPS（反向差分GPS）方法补偿接收到的GPS信号，并将补偿信号发送到中央控制服务器。 并且在中央控制系统接收到关于每个移动体的所有信息之后，如果需要，控制服务器向任何移动体发送指示。 并且每个移动的身体都被搁置。 在步骤（205）中，中央控制服务器向移动体发送相关信息。