社區生活資訊情報站論文書籍站
Factory floor Plan的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到附近那裡買和營業時間的推薦產品
Factory floor Plan的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦Stone, Daniel寫的 Sinkable: Obsession, the Deep Sea, and the Shipwreck of the Titanic 和Jui-ChungYao,LostSocietyDocument的 Mirage:Disused Public Property in Taiwan都 可以從中找到所需的評價。
這兩本書分別來自 和田園城市所出版 。
中原大學 工業與系統工程研究所 周永燦所指導 林映齡的 應用混合式演算法於設施規劃之研究-以氣封開關生產線為例 (2021),提出Factory floor Plan關鍵因素是什麼,來自於混合式演算法、Blocplan、設施規劃問題、系統模擬、FlexSim。
而第二篇論文國立陽明交通大學 工業工程與管理系所 洪暉智所指導 魏均旻的 傳統與現代紡織業的排程問題 (2021),提出因為有 等效平行機台排程、分散且彈性零工式排程、製程規劃與排程整合、延遲工作數、可中斷工作、混合整數規劃、啟發式演算法效能分析的重點而找出了 Factory floor Plan的解答。
Sinkable: Obsession, the Deep Sea, and the Shipwreck of the Titanic
為了解決Factory floor Plan 的問題,作者Stone, Daniel 這樣論述:
From the national bestselling author of The Food Explorer, a fascinating and rollicking plunge into the story of the world’s most famous shipwreck, the RMS TitanicOn a frigid April night in 1912, the world’s largest--and soon most famous--ocean liner struck an iceberg and slipped beneath the wave
s. She had scarcely disappeared before her new journey began, a seemingly limitless odyssey through the world’s fixation with her every tragic detail. Plans to find and raise the Titanic began almost immediately. Yet seven decades passed before it was found. Why? And of some three million shipwrecks
that litter the ocean floor, why is the world still so fascinated with this one? In Sinkable, Daniel Stone spins a fascinating tale of history, science, and obsession, uncovering the untold story of the Titanic not as a ship but as a shipwreck. He explores generations of eccentrics, like American C
harles Smith, whose 1914 recovery plan using a synchronized armada of ships bearing electromagnets was complex, convincing, and utterly impossible; Jack Grimm, a Texas oil magnate who fruitlessly dropped a fortune to find the wreck after failing to find Noah’s Ark; and the British Doug Woolley, a fo
rmer pantyhose factory worker who has claimed, since the 1960s, to be the true owner of the Titanic wreckage. Along the way, Sinkable takes readers through the two miles of ocean water in which the Titanic sank, showing how the ship broke apart and why, and delves into the odd history of our underst
anding of such depths. Author Daniel Stone studies the landscape of the seabed, which in the Titanic’s day was thought to be as smooth and featureless as a bathtub. He interviews scientists to understand the decades of rust and decomposition that are slowly but surely consuming the ship. (It is expe
cted to disappear entirely within a few decades!) He even journeys over the Atlantic, during a global pandemic, to track down the elusive Doug Woolley. And Stone turns inward, looking at his own dark obsession with both the Titanic and shipwrecks in general, and why he spends hours watching ships si
nk on YouTube. Brimming with humor, curiosity and wit, Sinkable follows in the tradition of Susan Orlean and Bill Bryson, offering up a page-turning work of personal journalism and an immensely entertaining romp through the deep sea and the nature of obsession.
應用混合式演算法於設施規劃之研究-以氣封開關生產線為例
為了解決Factory floor Plan 的問題,作者林映齡 這樣論述:
由於全球化的競爭越來越激烈,近年來更受到短交期之影響,也因為顧客不斷要求降價以及勞動力成本的逐年增加,使各個企業持續受到成本上的壓力,產業界對於獲利方面也面臨嚴峻的挑戰。唯有不斷提高自身的生產效率,以及降低不必要的成本,增進企業的競爭優勢,為當今現代企業要努力的重要課題。有學者提及在製造業中,物料搬運成本約占產品總製造成本的15%至70%之間。因此,物料搬運的改善將可以節省可觀的成本,如果能將工廠內部的佈置重新進行設施規劃至少能讓物料搬運成本降低10%至30%。而完善的設施規劃評估相當複雜,無法以人工方式進行計算與評估,須仰賴良好的演算法、電腦強大的運算能力和系統模擬來達到完善的規劃。本研究
以氣封開關生產線為研究對象,個案公司主要的目的在於使搬移時間及搬移距離減少。本研究所使用的Blocplan軟體是進行運算,此軟體是以混合式演算法(Hybrid Algorithms),將資料套入軟體後得出結果,從中挑選出最佳設施佈置,再導入3D動態模擬軟體FlexSim建構新的設施佈置之模型。最後經由模擬得出的驗證結果顯示該設施規劃有利於個案公司參考,降低了物料總搬移時間為21%,物品總搬移時間降低了24%。此方法幫助需要重新設施規劃之企業,利用本研究之研究方法更容易上手,且利用電腦化的軟體,找出最佳設施佈置。
Mirage:Disused Public Property in Taiwan
為了解決Factory floor Plan 的問題,作者Jui-ChungYao,LostSocietyDocument 這樣論述:
The truth that Taiwanese government was most reluctant to admit 5 years of research by around 200 students Exposed over 400 cases of disused public facilities –This book includes 100 selected cases. Often seen in places around Taiwan, these large and unused public facilities are also
known as “mosquito pavilions”. They often arise from inappropriate policies, where government, in the name of expanding internal consumptions and closing the urban and rural gaps, misjudge usage rates, implement inappropriate plans and designs, giving rise to the disused spaces around the country, a
practice that till this day still remained. This project was executed by “Lost Society Document” formed by artist YAO Jui-Chung and students, targeting public facilities that cost huge funds in construction over the recent twenty years, every year one hundred cases that required the most attention
and review was collected to form Mirage: Disused Public Property in Taiwan, over the past four years four volumes was published. This book selected one hundred critical cases from the four hundred cases exposed by the series, outlining the absurd state of Taiwanese society. In addition to providing
the public a reference for reflection, it also allowed youths who have yet to serious observed their hometown to open up an alternative dialogue through the lens of the camera.
傳統與現代紡織業的排程問題
為了解決Factory floor Plan 的問題,作者魏均旻 這樣論述:
本研究針對傳統與現代紡織業的生產模式來探討兩個經典的排程問題,傳統紡織業的排程問題考慮在最大化準時完成之工作數的目標下,探討工作可中斷且指派於多部等效平行機台處理。雖然此排程問題的時間複雜度為NP-hard,然而沒有文獻研究探討近似演算法的理論分析;因此,本研究根據不同的策略來設計啟發式演算法 (Heuristic) 且驗證理論誤差可以漸進達到1/2,我們也發現幾個最佳解工作集合具有的理論性質並且證明當工作數為機台數的兩倍時,此排程問題的時間複雜度為NP-hard,我們也提出兩個混合整數規劃模型以及建立上界與下界,最後執行實驗來評估啟發式演算法的效能。現代紡織業的排程問題為分散且彈性零工式排
程 (Distributed Flexible Job Shop; DFJS) 之製程規劃與排程整合 (Integrated Process Planning and Scheduling; IPPS) 問題,此排程問題的時間複雜度為NP-hard且多數的研究主要探討進化式演算法 (Meta-heuristic algorithms) 的求解品質,然而沒有研究針對此排程問題發展數學模型,因此,我們建立一個混合整數規劃模型,最後整理此排程問題文獻相關的進化式演算法。