Ergonomics and Parameter Optimization for Intelligent Autostereoscopic Camera System

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簡歷

基本資料

Project title

Code/計畫編號

MOST106-2221-E019-070

Translated Name/計畫中文名

人因工程與最佳化之智慧型自動立體攝影系統

Project Coordinator/計畫主持人

Hsing-Cheng Yu

Funding Organization/主管機關

National Science and Technology Council

Department/Unit

Department of Systems Engineering and Naval Architecture

Website

https://www.grb.gov.tw/search/planDetail?id=12485529

Year

2017

Start date/計畫起

01-08-2017

Expected Completion/計畫迄

01-07-2018

Bugetid/研究經費

668千元

ResearchField/研究領域

電子電機工程

"隨著電影｢阿凡達｣帶來的熱潮與攝影科技的發展，3D 電影已廣泛的出現在我們的生活圈中，但卻難以在市面上看到「3D 立體拍攝系統」；此外，在選擇觀看電影時，消費者通常會猶豫是否選擇3D 電影，因為3D 影片在長時間觀看下可能使得人體造成不舒適感，因此，本計畫擬開發一套兼具人因工程與參數最佳化之智慧型自動立體相機系統。第一年度將進行智慧型自動立體相機系統開發，此系統將具備拍攝前的立體相機自動校正對位，和即時拍攝具有立體感之最佳化自動控制的功能。針對此系統，將發展創新的校正對位流程，且同時考量理論正確性及實際應用性，以因應環境較差的拍攝環境。另一方面，也將尋求更高精度的控制演算法及控制機構，以達到高效率且正確的調整結果。第二年度預計以人因工程之研究方法將近場拍攝立體影片類型及內容的組成結構作為研究內容媒介，分析人眼觀賞立體影片時之不舒服的刺激因子，推算各個刺激因子與人眼舒適度之關係，藉由計算近場3D 影片之物理量，整合其生理量測資訊，最後整合智慧型自動立體相機系統及人因統計數據，完成開發參數最佳化與人因工程方法之智慧型自動立體相機系統雛型機；此系統具備自動化校正對位之功能，以及自動調整雙攝影機之間距與夾角達到最佳化立體感的效能，提高立體內容的拍攝效率，使輸出的立體影片較能讓人眼感到舒適，可大幅降低立體影像拍攝難度，及增加輸出影片之接受度。" "Due to camera technology development and the movie “Avatar” blew up media, 3D films have been widely appeared in our daily lives; however, there is little 3D autostereoscopic camera system in business market. In addition, we would hesitate to select 3D movies while watching movies because 3D movies may make audiences feel uncomfortable while watching 3D movies. Hence, an intelligent autostereoscopic camera system with ergonomics and parameter optimization is going to be developed in this project. In the first year period, an intelligent autostereoscopic camera system is going to be developed. The system is provided with auto alignment before making films, and optimized automatic control function with stereo at once. In accordance with this system, a novel alignment schedule will be proposed under consideration of theoretical accuracy and actual application in harsh filmed environment. Additionally, control algorithm and mechanism with high precision will be developed to achieve accurate adjusted results effectively. In the second year period, stereo film contents and composition structure will be considered to analyze the uncomfortable stimulating factor while audiences watch stereo film by using ergonomics, and calculate the relation of stimulating factors and the comfort of the human eyes. Finally, a prototype of the intelligent autostereoscopic camera system with ergonomics and parametric optimization can be obtained by integration of physiological measurement information, combination of intelligent autostereoscopic camera systems, and statistical data. The system has the automatic alignment calibration function, and automatic adjustment for pitch angles of dual cameras to achieve optimized automatic stereoscope effectively, and to improve the efficiency of making stereo film. As a result, audiences can feel much comfortable and increase acceptability of the stereo films while watching stereo films; furthermore, the system can reduce the difficulty of making stereo film significantly."

Keyword(s)

自動控制
自動立體攝影
人因工程
智慧型
參數最佳化
立體影片
Automatic control
Autostereoscopic camera
Ergonomics
Intelligent
Parameter optimization
Stereo film

DSpace CRIS

Ergonomics and Parameter Optimization for Intelligent Autostereoscopic Camera System

基本資料

Description