Magnitude的問題，透過圖書和論文來找解法和答案更準確安心。 我們找到下列問答集和資訊懶人包

Together We Decide: An Essential Guide for Making Good Group Decisions

為了解決Magnitude的問題，作者Freshley, Craig 這樣論述：

Does your group need help making good decisions?​Whether your organization is large or small, public or private, simple or complex, all groups of people must make decisions to move their agendas forward. And to ensure the ongoing health of your group, those decisions need to be optimal. With tips, u

nderlying principles, and case studies in his definitive book, Craig Freshley shares the essentials that groups of all sizes need to make sure their decisions will last and provide benefits for all members. This friendly, practical, and authoritative guide from an experienced and successful facilita

tor/trainer is a must-have for groups or individuals who want to work on consensus and their collaborative decision-making skills. Leaders, board members, and senior staff in the nonprofit sector--where there’s often a higher expectation of collaboration--and corporate leaders who have a collaborati

ve, inclusive mindset or culture will find this hook especially valuable. Topics include: - Collaboration is underrated and competition is overrated. - Making collaborative decisions (good group decisions) is as much or more about attitude as it is mechanics. - When you separate process from substan

ce (putting process in the hands of a facilitator and substance in the hands of everyone else), the process is better, and the end decision (the substance) will be better. - There are proven techniques and best practices that improve meetings and the decision-making processes. Anyone can learn how t

o turn processes and meetings from bad to good. - Humility is important. Every one of us is part of a group, and not one of us knows what’s best for all of us. - Making peace is harder than making war. It’s easier to be mad at your neighbor than to talk to your neighbor. We shouldn’t expect peacemak

ing (or productive meetings) to be easy. These things are not easy. And yet they are totally worth it when done right. - Collaboration isn’t just the right thing to do in a moral sort of way; it’s intensely practical for achieving true innovation, creativity, and breakthrough results. - Critical for

group decision-making efficiency is how to apply the right method at the right scale to fit the magnitude of the decision at hand. Freshley’s message is especially pertinent to today’s world: When good decisions are implemented properly, their effects will be long lasting--for people, for groups, a

nd for the world. Craig Freshley is a professional meeting facilitator, speaker, trainer, and author with an inspiring attitude and a well-earned reputation for helping groups be efficient, harmonious, and productive. He has professionally facilitated over 3,000 meetings where he helped groups pro

duce indispensable good decisions. Craig works with a wide range of clients including businesses, governments, and non-profits of all sizes and in all sectors. Craig has bachelor’s degrees in Political Science and Philosophy from the University of Maine, and a master’s degree in Public Policy and Ma

nagement from the Muskie School for Public Service. He also worked for the Maine State Planning Office and for the Maine Development Foundation. In 2019 Craig won the American Civic Collaboration Award for creating and facilitating Make Shift Coffee Houses: face-to-face places where conservatives, l

iberals, and all kinds of people meet to talk and understand each other’s political views.

Magnitude進入發燒排行的影片

使用 FMCW 雷達和利用人工神經網絡進行運動生命體徵檢測

為了解決Magnitude的問題，作者李景量 這樣論述：

由於對人們對健康的關注度增長使得健康監護監測變得更加流行。 現在有許多可穿戴或直接接觸的生理設備能夠在日常生活活動中監測一個人的心率； 然而，在鍛煉或長期監測期間佩戴設備通常會令使用者很尷尬或不舒服。 幸運的是，對於非接觸式設備，例如基於 FMCW 雷達的設備，可以避免這種情況發生。 與可穿戴式或直接接觸式生理設備相比，非接觸式系統更方便，可應用的地方亦更廣泛。在這項工作中，我們提出了一個 60-64 GHz 頻率調製連續波 (FMCW) 雷達系統，用於在運動期間進行非接觸式心率監測。 通過使用修改後的 MobileNetV3 模型進行回歸分析，可以實現約 90% 的準確率預測。此外，我們使

用剪枝方法將神經網絡模型的模型大小減少了 87%，以有效降低模型的計算成本並保持準確性。

Wildlife of Florida’’s Springs: An Illustrated Field Guide to Over 150 Species

為了解決Magnitude的問題，作者Paucher, Sandy 這樣論述：

Sandra Paucher is a native Floridian and lifelong naturalist whose hobbies include underwater cave exploration, survey, scientific diving, illustration, writing, and photography. She is the editor of Sheck Exley’s The Taming of the Slough: A Comprehensive History of Peacock Springs. Her articles and

photographs have been published in magazines such as Underwater Speleology, NSS News, and the NACD Journal. As an explorer of underwater features in Florida and the Yucatan peninsula of Mexico, she explored and collected survey data at various springs, including Indian Spring, O’Leno State Park, Ma

natee Springs State Park, and Sistema Camilo near Akumal in the Yucatan Peninsula, among others. She was the first woman to enter and survey in the main spring of Weeki Wachee, a first magnitude spring near Hudson, Florida.

三端自旋軌道磁矩記憶體讀寫特性之研究

為了解決Magnitude的問題，作者余家賢 這樣論述：

本研究與工研院電光所合作，主要針對其開發之三端自旋軌道磁矩記憶體(three-terminal iSOT-MRAM)元件進行讀取、寫入及讀寫交互影響所產生的特性分析。針對讀取的方面，首先就自旋轉移磁矩記憶體(STT)端進行分析，採用改變磁場對元件的角度並比較於外加磁場下其翻轉行為是否與尺寸較小之STT-MRAM元件有所不同。將所得到之不同角度下的翻轉場作圖並與不同模型進行比對，發現小尺寸的STT-MRAM元件可以得到Stoner-Wohlfarth單磁疇翻轉的模型，而大尺寸的iSOT-MRAM元件則可得到Kondorsky多磁疇翻轉的模型。接著在寫入端則就SOT端進行分析，透過RVS、CVS

分析重金屬層可承受的極限電壓，並改變電流方向及大小，可看到其翻轉方向會隨自旋電流方向而有所變化。最後，由於此元件為three-terminal 的2T1R的設計，本研究就three-terminal這部分進行分析，同時在STT及SOT兩端通電，得到SOT隨著電流方向不同是可以和STT相互競爭或加乘的結論，元件約在STT端通過10mV下會產生反向翻轉，並分析得到SOT的貢獻是影響此效應的主要原因。而綜合上述實驗結果也可得出在次微米大小的元件中在STT端通過100mV進行讀取較為合適，且各尺寸的元件性質差異不大，若蝕刻技術允許可嘗試繼續微縮尺寸，以期使未來實際應用更為方便。