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The Mv Agusta Story

為了解決Cylinder的問題，作者Falloon, Ian 這樣論述：

With 75 World Championships (riders and manufacturers), 270 Grand Prix victories, and more than 3000 International race wins, MV Agusta’s competition record is unequalled amongst Italian motorcycle manufacturers. MV’s list of World Champions includes some of the greatest names in the sport, with

Carlo Ubbiali, John Surtees, Mike Hailwood, Giacomo Agostini and Phil Read winning multiple times. Alongside the magnificent racing bikes MV produced a wide range of street models, including the exotic four-cylinder bikes based on the Grand Prix racers of the 1950s and early 1960s. After closing in

1977 MV Agusta was resurrected by Cagiva in 1997 and released the Massimo Tamburini-designed four-cylinder F4. Initially 750cc, this evolved into 1000cc and the Brutale series. In 2012 the three-cylinder F3 joined the F4 and a large range of models has grown from these two platforms. With a 50 year

passion for Italian motorcycles, The MV Agusta Story tells the full story of MV Agusta, covering all the street and racing models from 1945.

Cylinder進入發燒排行的影片

吹瓶機變導程螺桿振動訊號量測與失效預測

為了解決Cylinder的問題，作者洪聖儒 這樣論述：

本研究提出一種應用於寶特瓶吹瓶機之健康診斷方法。運用加速規來收取機台的振動資訊，並使用動態時間扭曲法(DTW)作為本研究的主要評斷磨耗標準。由於吹瓶機機構複雜，且以變轉速伺服馬達作為機構驅動源。本研究除了比較有無絕緣膠帶、系統簡化、有無轉子、有無變導程夾爪動作，四種振動結果差異推測其頻率成因外，更在得到量測訊號後分別以均方根、移動平均濾波器、原始頻率訊號、特徵頻率擷取四種訊號前處理方法作為DTW輸入，並以處理後之全新轉子振動訊號作為標準訊號，將不同運轉次數的訊號與標準訊號比對其相似度，記錄下不同運轉次數下的DTW距離值，並建立其斜率變化，再搭配運算時間、訊號穩定性、潤滑劑影響，這四種方式評斷

出最適合的訊號前處理方式。此外透過實際量測轉子尺寸變化，發現振動量隨轉子磨耗量增加而加大，與本文使用之DTW結果有相同趨勢。且發現180Hz頻率區段會隨於旋轉導桿添加潤滑劑而下降，因此，此頻率變化情況可用以判斷潤滑劑是否需更換。由於本研究為長時間計畫，尚未收錄至轉子毀損之完整振動變化數據。目前僅能以現階段數據，推測解釋出吹瓶機頻率譜中較顯著的頻率成因，及驗證DTW對振動量測變化之效果，並建議以特徵頻率擷取的方式作為DTW之訊號前處理。

Pretty Black’s Hole

為了解決Cylinder的問題，作者 這樣論述：

Pretty Black’s Hole, a moral fable about the impact of family history on character development, begins in the Year of the Tadpoles, when Deakie Boy, descended from a long history of deformed family character--loose character folks in his words--has just turned thirteen. He declares himself differ

ent from the workers with whom he shares a migrant labor camp in Arizona, known affectionately as the Head. This difference gains him the favor of the Six Graces and their playmate, the Petty God of Irony. Deciding to have a bit of fun, these Supernaturals infuse the boy’s difference with the power

to take at will and without regard to consequences for others. These Supernaturals intended to sit back and be amused as Deakie Boy wreaked havoc on mere humans. Instead, They lose control of Their heir, and, in the years following, under many assumed names, he uses that power to take advantage of t

hose who fail to heed the importance of his difference when it is revealed as a frog’s eye in a smiling human face. Many decades and many horrors will pass as the Supernaturals seek the means to regain control of Their heir. In the same year, in the middle of a cotton field, a sixteen-year old girl,

known as Pretty Black, finds a hole left over from an agricultural project. To this hole, six feet around, its walls held in place by a tin cylinder, Pretty adds a tin-sheet roof. The hole becomes her home away from the crowded camp. Expecting to enjoy this privacy, soon Pretty collides with Deakie

Boy’s difference. Like mangy dogs hunting scraps, men are ever on the prowl, inspiring Deakie Boy and his sidekick, Bubba Joe, to find a hideous use for Pretty’s home. The violence of that night in the Year of the Tadpoles connects back across generations of entangled family histories to reveal mor

al consequences the Supernaturals did not anticipate. In the following years, with each assumed name, and the character defamations these represent, Deakie Boy’s power becomes a looming threat to the futures of three young couples. Jean Elizabeth and Robert Reed, Altagraci a and Joseph Lincoln, and

Carrie Anne and William Ellis Porter, led by Jean Elizabeth, work together (sometimes honestly, but more often lying through their teeth) to discover how to prevent the Supernaturals’ gift to Deakie Boy from destroying their futures. To succeed, they must learn why frogs, much adored by Jean Elizabe

th, represent the Supernaturals’ purposes, and determine whether the vile scent following Jean Elizabeth is just the smell of the elderly man stalking her or an indicator of the power of a non-human creature. Struggling to understand the connection between the Supernaturals’ game and the making of m

oral character in family histories, the couples’ investigation repeatedly unearths relatives that one or more of them would prefer to rebury. All of them fear that the knowledge they gain is digging a hole within which their futures will reproduce only the worst characters in their family histories.

Making their task more difficult, they engage a private investigator (who is as crooked a dog’s hind leg), and seek assistance from friends (who seldom deserve the label).

行車駕駛人瞌睡偵測與嵌入式系統實現

為了解決Cylinder的問題，作者邱品誠 這樣論述：

中文摘要 iAbstract ii致謝 iii目　錄 vi表目錄 vii圖目錄 viii第1章、 緒論 11-1 研究背景 11-2 研究目的 21-3 文獻回顧 21-4 本論文的貢獻 31-5 論文架構 4第2章、學理基礎 52-1 Dlib程式庫 52-1-1 Dlib程式庫概述 52-1-2 方向梯度直方圖 62-1-3 支持向量機 92-1-4 影像金字塔 142-1-5 滑動視窗檢測方案 162-1-6 集成迴歸樹 172-2 OpenCV程式庫 202-2-1 OpenCV程式庫概述 202-2-2 圍

繞眼睛多邊形凸殼 212-3 紅外線 23第3章、 系統設計 243-1 系統架構 243-2硬體設備 253-2-1 Raspberry Pi 4 Model B 微型單板電腦 253-2-2 Raspberry Pi Noir Camera V2 8MP紅外線夜視攝影機 293-2-3 Raspberry 3.5吋TFT LCD觸控螢幕顯示模組 313-2-4 外接式48顆燈泡850 nm紅外線燈 323-3 田口法實驗設計介紹 333-4 系統設計流程 37第4章、實驗結果 434-1 控制因子水準表 454-2 各組實驗的平均值、標準偏差

、及S/N比 474-3 S/N比及品質特性的因子反應 484-4 控制因子的分類與製程最佳化 504-5 最後實驗確認 52第5章、結論 53參考文獻 54表目錄表 1.1、事故肇因表 1表 3.1、Raspberry Pi 4 Model B 26表 3.2、Raspberry Pi Noir Camera V2 規格 30表 3.3、Raspberry 3.5 吋 TFT LCD 觸控螢幕顯示模組規格 31表 3.4、日間閾值選定實驗 . 41表 4.1、控制因子水準表 45表 4.2、夜間照度實驗 45表 4.3、各組實驗的平均值、標準偏差、及 S/N 比

表 47表 4.4、S/N 比的因子反應表 . 48表 4.5、品質特性的因子反應表 49表 4.6、控制因子的分類 50表 4.7、最後確認實驗 51圖目錄圖 2.1、Dlib 的組件 6圖 2.2、局部梯度或目標邊緣方向的密度分佈 7圖 2.3、HOG 特徵提取流程圖 8圖 2.4、線性可分 9圖 2.5、線性不可分(輕度) 10圖 2.6、線性不可分(重度) 10圖 2.7、過擬合 12圖 2.8、模型使用圖 13圖 2.9、高斯金字塔濾波取樣圖 14圖 2.10、高斯金字塔圖 15圖 2.11、補充像素點 15圖 2.12、滑動視窗檢測 17圖 2.13、分類樹

18圖 2.14、迴歸樹 19圖 2.15、(a)P 簡單多邊形、(b)Pa 非簡單多邊形 22圖 3.1、日間工作流程 24圖 3.2、夜間工作流程 25圖 3.3、Raspberry Pi 4 Model B 25圖 3.4、Raspberry Pi 4 Model B 電源配線圖 27圖 3.5、Raspberry Pi 4 Model B 觸控螢幕配線圖 28圖 3.6、Raspberry Pi Noir Camera V2 8MP 紅外線夜視攝影機配線圖 . 29圖 3.7、Raspberry Pi Noir Camera V2 8MP 紅外線夜視攝影機 30圖 3.

8、Raspberry 3.5 吋 TFT LCD 觸控螢幕顯示模組 31圖 3.9、外接式 48 顆燈泡 850nm 紅外線燈 32圖 3.10、工程系統設計或研發的三個主要步驟 33圖 3.11、影響品質特性的因子 34圖 3.12、臉部偵測 37圖 3.13、Dlib 68 points facial landmark 38圖 3.14、集成迴歸樹去進行一毫秒人臉定位 39圖 3.15、圍繞眼睛多邊形凸殼 39圖 3.16、眼睛長和寬 40圖 3.17、眼睛長寬比睜眼與閉眼 40圖 3.18、日間總流程圖 42圖 4.1、實驗流程圖 43圖 4.2、實驗架構圖

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