公开(公告)号：US08972225B2

公开(公告)日：2015-03-03

申请号：US13431284

申请日：2012-03-27

Applicant: Jaeyoung Cheon ,  Sang-il Lee ,  Byoung-In Cho

Inventor： Jaeyoung Cheon ,  Sang-il Lee ,  Byoung-In Cho

IPC: G06F17/50 ,  H04L12/24 ,  H04L12/00

CPC classification number: H04L41/145 ,  H04L41/0813

Abstract: A method of constructing an optimized network simulation environment according to the present invention includes the steps of identifying communication equipment models for relaying a message to/from real equipments out of communication equipment models within a network model, as major models, calculating the order of abstraction priority for major models, performing batch-mode abstraction for non-major models, driving a simulation, determining whether a difference between a simulation execution time and an actual time spent is within an allowable delay value, performing adaptive abstraction for the major models, and evaluating a result of the simulation. If the method according to the present invention is used, a real-time simulation having fidelity and reliability for the function and operation of real equipments can be guaranteed.

Abstract translation: 根据本发明的构建优化的网络仿真环境的方法包括以下步骤：从网络模型内的通信设备模型中识别用于将消息传递到实际设备的通信设备模型，作为主要模型，计算抽象的顺序 主要模型的优先级，为非主要模型执行批量抽象，驱动模拟，确定模拟执行时间与实际花费时间之间的差异是否在允许的延迟值内，为主要模型执行自适应抽象，以及 评估模拟结果。 如果使用根据本发明的方法，则可以保证对真实设备的功能和操作具有保真度和可靠性的实时仿真。

公开(公告)号：US20120253773A1

公开(公告)日：2012-10-04

申请号：US13431284

申请日：2012-03-27

Applicant: Jaeyoung Cheon ,  Sang-il Lee ,  Byoung-In Cho

Inventor： Jaeyoung Cheon ,  Sang-il Lee ,  Byoung-In Cho

IPC: G06G7/62

CPC classification number: H04L41/145 ,  H04L41/0813

Abstract: A method of constructing an optimized network simulation environment according to the present invention includes the steps of identifying communication equipment models for relaying a message to/from real equipments out of communication equipment models within a network model, as major models, calculating the order of abstraction priority for major models, performing batch-mode abstraction for non-major models, driving a simulation, determining whether a difference between a simulation execution time and an actual time spent is within an allowable delay value, performing adaptive abstraction for the major models, and evaluating a result of the simulation. If the method according to the present invention is used, a real-time simulation having fidelity and reliability for the function and operation of real equipments can be guaranteed.

Abstract translation: 根据本发明的构建优化的网络仿真环境的方法包括以下步骤：从网络模型内的通信设备模型中识别用于将消息传递到实际设备的通信设备模型，作为主要模型，计算抽象的顺序 主要模型的优先级，为非主要模型执行批量抽象，驱动模拟，确定模拟执行时间与实际花费时间之间的差异是否在允许的延迟值内，为主要模型执行自适应抽象，以及 评估模拟结果。 如果使用根据本发明的方法，则可以保证对真实设备的功能和操作具有保真度和可靠性的实时仿真。

公开(公告)号：US20130128000A1

公开(公告)日：2013-05-23

申请号：US13649322

申请日：2012-10-11

Applicant: Dongseuck Ko ,  Jaeyoung Cheon

Inventor： Dongseuck Ko ,  Jaeyoung Cheon

IPC: H04N13/02

CPC classification number: H04N13/239 ,  H04N13/246 ,  H04N13/296

Abstract: A mobile terminal may include a camera module and a controller. The camera module may include a first capture unit to capture a subject to acquire a first image, a second capture unit to capture the subject to acquire a second image, an actuator disposed at least one of the first capture unit and the second capture unit, and a drive unit configured to drive the actuator. The controller may analyze a perceived 3-dimensional (3D) image formed by using the first image and the second image, and may produce a relative position compensation value corresponding to a relative displacement between the first capture unit and the second capture unit according to a result of the analysis. The drive unit may drive the actuator to control a relative position between the first capture unit and the second capture unit based on the relative position compensation value.

Abstract translation: 移动终端可以包括相机模块和控制器。 相机模块可以包括捕获被摄体以获取第一图像的第一捕获单元，用于捕获被摄体以获取第二图像的第二捕获单元，设置在第一捕获单元和第二捕获单元中的至少一个的致动器， 以及构造成驱动致动器的驱动单元。 控制器可以分析通过使用第一图像和第二图像形成的感知的三维（3D）图像，并且可以根据第一图像和第二图像产生对应于第一捕获单元和第二捕获单元之间的相对位移的相对位置补偿值 分析结果。 驱动单元可以驱动致动器，以基于相对位置补偿值来控制第一捕获单元和第二捕获单元之间的相对位置。