Golden apple of disc的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到下列包括價格和評價等資訊懶人包

Golden apple of disc的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦Rodman, Julie A./ Esmaili, Daniel D., M.D. (EDT)寫的 Optical Coherence Tomography Angiography Atlas: A Case Study Approach 可以從中找到所需的評價。

國立清華大學 動力機械工程學系 張禎元所指導 費安彥的 永久磁鐵磁流變液離合器之開發與特性化及其運用於機器人系統之失效保護機制 (2021),提出Golden apple of disc關鍵因素是什麼,來自於磁流變液、離合器、失效保護機制。

而第二篇論文馬偕醫學院 聽力暨語言治療學系碩士班 李沛群所指導 江岱璉的 應用藍牙耳機於隔音室外進行高品質聽力檢測之可行性分析 (2021),提出因為有 藍牙耳機、純音聽力檢查、等效參考音壓的重點而找出了 Golden apple of disc的解答。

接下來讓我們看這些論文和書籍都說些什麼吧:

除了Golden apple of disc,大家也想知道這些:

Optical Coherence Tomography Angiography Atlas: A Case Study Approach

為了解決Golden apple of disc的問題,作者Rodman, Julie A./ Esmaili, Daniel D., M.D. (EDT) 這樣論述:

Optical Coherence Tomography Angiography (OCTA) is a novel, non-invasive, dyeless imaging modality that has emerged as an indispensable tool in the fields of optometry and ophthalmology. OCTA provides three-dimensional volumetric images of the retinal and choroidal vasculature by using a motion-cont

rast decorrelation algorithm. This cutting-edge imaging technology has widespread clinical utility as a non-invasive alternative for visualizing microvasculature in detail, but there are no textbooks dedicated to its use and the interpretation of scans. To fill this need, Optical Coherence Tomograph

y Angiography Atlas: A Case Study Approach, by Dr. Julie A. Rodman, is a richly illustrated, practical guide to OCTA. It provides detailed information on the fundamental principles behind the technology, as well as clinical applications critical for accurate interpretation. The first section of the

book discusses the principles behind OCTA and provides an introduction into the interpretation of OCTA images, including a chapter devoted to terminology. The remainder of the book provides detailed analysis of a myriad of inner and outer retinal disorders, including diseases of the optic nerve head

. Most importantly for the clinical setting, the cases are presented with numerous images and a multitude of arrows and callouts to assist in the recognition of various clinical findings.Case examples include: Vascular Occlusive DiseasePigment Epithelial DetachmentChoroidal Neovascular MembraneDiabe

tic RetinopathyOptic Disc EdemaDr. Rodman's emphasis on the clinical use of OCTA technology and step-by-step interpretation of images makes Optical Coherence Tomography Angiography Atlas: A Case Study Approach a must-have resource for physicians, residents, students, and ophthalmic technicians looki

ng for a simple, comprehensive guide to OCTA. Julie A. Rodman, OD, MSc, FAAO graduated from Brandeis University (Waltham, Massachusetts) in 1994 with a BA in Neuroscience. She received her optometry degree from the New England College of Optometry (Boston, Massachusetts) in 1998. Dr. Rodman went o

n to complete a residency in hospital-based optometry at the VA Medical Center Brockton/West Roxbury, Massachusetts. Since completing her residency, Dr. Rodman has worked in various settings, including an ophthalmology private practice and an HMO-based practice. Dr. Rodman joined the Nova Southeaste

rn University College of Optometry (Fort Lauderdale, Florida) in 2000 and now holds the rank of Professor of Optometry. During her tenure at Nova, she obtained her master’s degree in Clinical Vision Research. Dr. Rodman has assumed many roles at the College of Optometry. She has taught in the Optome

try Theory and Methods Laboratory and currently serves as the Chief of the Broward Eye Care Institute in downtown Fort Lauderdale. She has been the recipient of numerous teaching awards, including the Golden Apple Award for Excellence in Clinical Precepting and Preceptor of the Year. Dr. Rodman has

served as Residency Education Coordinator where she was responsible for arranging the didactic assignments for the Resident Conference Series as well as interdisciplinary presentations. Dr. Rodman is a residency supervisor and mentors the residents with grand rounds presentations, posters, and publi

cations. Dr. Rodman is actively involved in the residency program and has served on the Residency Advisory Committee as well as the Association of Schools and Colleges of Optometry Residency Affairs Committee. Dr. Rodman has authored multiple posters at the American Academy of Optometry, American Op

tometric Association, Association for Research in Vision and Ophthalmology, Southeast Conference of Optometry, and Heart of America on various ocular disease topics. She became a Fellow of the American Academy of Optometry in 2007. She serves as a poster reviewer for the multi-media session at South

east Conference of Optometry and is a reviewer for multiple index medicus journals as well. Dr. Rodman is a member of the American Optometric Association, Florida Optometric Association, and Optometric Retina Society. Dr. Rodman is a member of the Optovue Advisory Board, where she serves as a lectur

er and consultant. She holds her Oral Pharmaceuticals Certification and is Laser Certified as well. Her scholarly interests include retinal disease, optical coherence tomography, optical coherence tomography angiography, and diseases of the vitreo-retinal interface. She was the principal investigato

r on a multi-center, nationwide investigation into the prevalence of vitreomacular adhesion in patients 40 years of age and older.

永久磁鐵磁流變液離合器之開發與特性化及其運用於機器人系統之失效保護機制

為了解決Golden apple of disc的問題,作者費安彥 這樣論述:

對於更高產量和更短停機時間的需求,以及在各種產品製造過程中對更高精度的要求,導致在工業環境中增加機械手臂和夾爪的使用。儘管這些現代化的設備已被廣泛採用,並對製造業整體產生了正向的影響,但這些設備的某些方面仍可受益於進一步的研究和開發。具體而言,研究安全機制可以避免機械手臂和夾爪可能對操作人員及其處理的物體造成損害。這篇博士論文的研究重點是開發和研究一種候選機構,該機構主旨在用作機械手臂和夾爪中的安全裝置,這將限制驅動機器人系統的致動器可能施加在其處理的物體上的扭矩。該候選機構是一種以磁流變液為主要動力傳輸介質的限扭矩離合器。這種流體具有在磁場作用下變成半固體的特殊性質,該磁場的強度決定了流體

變成半固體的程度。因此,通過控制磁場,也可以控制流體的狀態,進而控制離合器的可傳遞扭矩。在整個研究過程中,總共開發和測試了四個磁流變液離合器,每個都有不同的目的。本論文首先介紹了在本研究期間開發的離合器中實施的主要設計決策及其原由,即使用永久磁鐵作為改變離合器內磁流變液狀態所需的磁場源。隨後引入並測試了一種稱為「磁場阻斷器」的新型磁場調節機制,該機制允許在基於永磁之磁流變液離合器中改變可傳遞的扭矩。這一研究階段產生了兩個離合器的製造和測試以及磁場阻斷機構的台灣專利。在建立了貫穿本研究開發的離合器的主要設計模式後,研究的重點轉向探索影響磁流變液離合器行為的因素。這個新焦點的目標是更好地了解這種類

型的離合器,以便後續能夠開發出性能更好的設備。探討的因素如下:磁極數、離合器部件的材料、角速度和離合器內磁流變液層的厚度。對這些因素進行了廣泛的參數研究,並依其結果導致提出了磁流變液離合器行為的新模型,以及在後來的離合器中實施的磁場阻斷器設計的新改進設計。除了該參數研究之外,還進行了一項獨立的研究,測試當石墨粉用作磁流變液中的添加劑時對離合器中扭矩傳遞的影響。對不同濃度石墨的流體混合物進行了測試,並就何時使用這種添加劑提出了建議。第三個離合器被設計和製造用於這個研究階段。在研究更深入地了解基於永磁之磁流變液離合器之後,利用所有獲得的知識開發了最終離合器。其引入並測試了一種新改進的磁場阻斷器設計

,使該離合器的性能優於前三個離合器。除此之外,還測試了將此離合器應用作安全裝置的情況,該測試是使用適用於離合器的開源3D列印夾爪進行的。夾爪系統的正常使用和故障案例都進行了展示和測試。這些測試的結果表明,離合器作為機器人夾爪系統中的可調扭矩之限制裝置是成功的。

應用藍牙耳機於隔音室外進行高品質聽力檢測之可行性分析

為了解決Golden apple of disc的問題,作者江岱璉 這樣論述:

隨著人口老化與聽力損失人口的成長,世界衛生組織、各國政府與民間單位對聽力健康的意識逐漸提高,更加重視聽力損失所帶來的影響並試圖著手介入。為預防聽力損失,第一要素即為實現普遍性的聽力篩檢,但受限於隔音空間與臨床設備的配置,年長者及居住在偏鄉地區者不易得到標準臨床聽力檢查的服務,而各種形式的聽力檢測也持續出現,試圖透過遠距、行動式或自行施測的聽檢模式以彌補上述服務缺口。然而線上聽檢或是可供人下載的聽力檢測應用程式卻仍有環境噪音控制及絕對音量控制的問題,若影響施測品質則失去進行聽檢的意義。隨著藍牙耳機的盛行,本研究結合普及性高的藍牙耳機與行動裝置連結,作為新式聽力檢查工具,透過藍牙協定AVRCP控

制音量,可應用在不同系統的行動裝置(如手機、平板、電腦),並進行聲電測試檢核,對照此硬體表現是否能確實輸出高品質音訊。接著應用此新式聽力檢測工具進行人體實驗,計算出入耳式藍牙耳機之等效參考音壓值,並搭配抗噪耳罩模擬在一般安靜環境下進行純音聽力檢測,與標準聽力檢查對照確認施測品質。結果顯示多數項目的聲電測試結果符合現行ANSI 3.6-2010對標準聽力檢查儀之規範,惟在底噪和部分頻率於正常聽力閾值對應之小音量輸出的線性程度仍有改善空間,但後續人體實驗結果未顯示顯著影響。在模擬一般安靜環境的情況下,抗噪耳罩能確實阻隔50 dBA的白噪音,使新式聽力檢測工具搭配抗噪耳罩與標準聽力檢測兩者之檢測結果

無顯著差異(p>0.05)。兩者所測得各頻率閾值差距在5分貝以內之比例為69%,差距在10分貝以內之比例為91%。而此新式聽力檢查適用之受測者聽損範圍可從聽力正常者至聽力損失程度極重度聽損。本研究結果顯示此新式聽力檢測工具可於一般安靜環境下進行檢測,輔以藍牙耳機便於攜帶及高普及性之特質,將可大幅提升聽力檢測的方便性及可取得性。