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研究生: 沈哲緯
Shen, Jhe-Wei
論文名稱: 基於深度學習之籃球攻防戰術軌跡生成系統
Basketball Offense and Defense Strategy Movement Trajectory Generation Based on Deep Learning
指導教授: 方瓊瑤
Fang, Chiung-Yao
口試委員: 方瓊瑤
Fang, Chiung-Yao
陳世旺
Chen, Shih-Wang
黃仲誼
Huang, Zhong-Yi
羅安鈞
Luo, An-Jun
口試日期: 2023/07/17
學位類別: 碩士
Master
系所名稱: 資訊工程學系
Department of Computer Science and Information Engineering
論文出版年: 2023
畢業學年度: 111
語文別: 中文
論文頁數: 45
中文關鍵詞: 籃球運動攻防戰術運動科技影像處理軌跡生成投影轉換生成對抗網路
英文關鍵詞: Basketball, Offensive and defensive tactics, Sports technology, Image processing, Trajectory generation, Projection transformation, Generative Adversarial Networks
研究方法: 實驗設計法
DOI URL: http://doi.org/10.6345/NTNU202301599
論文種類: 學術論文
相關次數: 點閱:132下載:30
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  • 全球觀看籃球比賽的人數總計約超過22億人,根據外國媒體Sports Show在2020年公布全球最受歡迎的運動賽事,籃球在所有球類中排名第三,可看出籃球是一項非常熱門的運動。近年來運動分析的研究相當熱門,透過將生成對抗網路應用在籃球領域能夠幫助球隊提升籃球攻防戰術的素養,開發出基於深度學習之籃球攻防戰術軌跡生成系統。本系統開發目的為進攻球隊使用者在分析研究防守球隊可能會出現的防守方法時,通常只能使用經驗判斷推測,若透過本系統自動產生防守戰術軌跡供進攻球隊參考,進攻球隊可更加理解實戰中可能會遇到的防守戰術,可提升球員的戰術素養讓球隊提早思考應對方法。
    本系統透過使用者將一段真實籃球比賽攻防片段輸入,系統主要分為兩個子系統:投影轉換子系統與防守戰術軌跡生成子系統。投影轉換子系統主要分為三個步驟,第一為球場上球員與球的偵測方法,接著界定球場的範圍。第二為場上球員分隊使用球衣顏色做為辨別的依據。接著為3D球員座標投影計算出單應矩陣將對應的3D座標映射在2D戰術板球場座標系中並記錄為檔案作為防守戰術軌跡生成子系統的輸入。最後一個步驟使用生成對抗網路來進行防守戰術軌跡生成。
    本研究實驗結果顯示,透過影像處理得到球場邊線同時界定新的球場範圍可有效省略透過觀察手動決定球場頂點的步驟,減少時間成本。加入球員分隊的功能計算該區域內的色調特徵與顏色強度特徵,使用K-means clustering 將該二類特徵將場上球員分成兩隊,以利最後映射至平面戰術板座標系還原出真實比賽的情況。映射結果的球員正確率達到了77.2%,籃球則為61.0%。本系統結合了真實籃球比賽片段與防守戰術軌跡生成系統產生虛擬的防守戰術軌跡。

    Basketball has a vast global audience of 2.2 billion, ranking as the third most popular sport. Recent sports analysis research leverages Generative Adversarial Networks (GANs) to develop a deep learning system for generating basketball offensive and defensive tactics. This system's aim is to provide offensive teams with auto-generated defensive tactics trajectories, improving understanding of potential defensive strategies, enhancing players' skills, and enabling more effective team strategies.

    The system has two main subsystems: the Projection Transformation Subsystem and the Defensive Tactics Trajectories Generation Subsystem. The Projection Transformation Subsystem involves three steps: player and ball detection on the court, defining court boundaries, and distinguishing players based on jersey colors. 3D player coordinates are projected onto a 2D tactical board coordinate system via homography, and this data is used for the Defensive Tactics Trajectories Generation Subsystem, which employs Generative Adversarial Networks to generate defensive tactics trajectories.

    Experimental results indicate that image processing for court boundaries and player teams significantly reduces time costs. The inclusion of the player team function enables calculation of region color and intensity features, with K-means clustering dividing players into teams for mapping to a flat tactical board coordinate system, replicating real game scenarios. Player mapping accuracy reached 77.2%, while basketball detection accuracy was 61.0%. This system combines real basketball game segments with the defensive tactics generation system to create virtual defensive tactics trajectories.

    第1章 緒論 1 第一節 籃球戰術簡介 2 第二節 研究動機與目的 3 第三節 研究困難 5 第四節 研究貢獻 6 第五節 論文架構 7 第2章 文獻探討 8 第一節 籃球進攻戰術 8 第二節 人體與物件偵測技術 13 第三節 移動軌跡偵測技術 17 第四節 籃球攻防戰術生成技術 19 第3章 籃球攻防戰術軌跡生成系統 23 第一節 系統流程 23 第二節 球員和球的偵測改良 28 第三節 球員分隊 29 第4章 實驗結果與討論 33 第一節 資料庫介紹與研究設備 33 第二節 球場範圍界定分析 33 第三節 球員分隊功能分析 36 第四節 3D球員座標至2D戰術板座標系映射正確率 38 第五節 生成防守戰術軌跡結果 39 第5章 結論與未來工作 41 第一節 結論 41 第二節 未來工作 42 參考文獻 43

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