例句與造句

1. The main work in this paper are as follows : research on the oscillometric technique and pulse - wave theory
   論文主要做了以下幾個方面的研究：研究示波法原理和脈搏波理論。
2. On the other hand , oscillometric method - based nibp devices with single cuff have received complaints due to doubtable systolic accuracy
   普通單袖帶示波法血壓產(chǎn)品由于收縮壓的準(zhǔn)確性受到質(zhì)疑而在臨床上表現(xiàn)出很大的局限性。
3. With the rapid development of eletronics and computer technology , no invasion blood pressure instrument based on oscillometric method begin to come out
   隨著電子與計算機技術(shù)的飛速發(fā)展，基于測振法的無創(chuàng)血壓儀相繼問世。
4. Put forward the method to calculate artery stiffness index based on oscillometric technique and flexibility theory of vascular wall
   從示波法波形出發(fā)，依據(jù)動脈血管臂彈性理論，提出了一種簡單無創(chuàng)的測量動脈彈性指數(shù)的方法。
5. It also analyses the characteristics and advantages of oscillometric method as well as introduces a noninvasive blood pressure measurement monitor based on oscillometric
   用與各種血壓測量技術(shù)進(jìn)行比較的方法，著重分析了振動法無創(chuàng)血壓測量和柯氏音聽診法。
6. It's difficult to find oscillometric in a sentence. 用oscillometric造句挺難的
7. The patented dual - cuff nibp measurement technique owned by jumbor combines oscillometric method and conventional korotkoff sounds method , yielding more accurate systolic number
   Fig1單袖帶血壓測量，收縮壓難以確定fig2雙袖帶血壓測量技術(shù)，收縮壓很容易確定
8. Pick up the pulse waveform which can reflect the activity of brachial artery mostly from oscillometric - wave , and analyse the waveform selected to get brachial vascular complicance
   從示波法波形中，提取最能反映臂動脈活性的脈搏波，對此脈搏波進(jìn)行分析，計算出臂動脈順應(yīng)性。
9. With the analysis of various ways of noninvasive blood measure , oscillometric method was chose to measure the noninvasive blood pressure aimed at the requirement of the system
   筆者在深入分析各種無創(chuàng)血壓測量方法的基礎(chǔ)上，針對系統(tǒng)的設(shè)計要求，采用了袖帶式振蕩法進(jìn)行無創(chuàng)血壓測量。
10. Research and conclude the methods to determine blood pressure , present a method that systhsis the mean value method , comparing method and empiric coefficient method of the oscillometric blood pressure measurement
    研究歸納血壓檢測方法，提出了一種綜合示波法測血壓中差值法、比值法和經(jīng)驗系數(shù)法的血壓檢測計算方法。
11. Compared with tranditional oscillometric deflation blood pressure measurement method ( dbpm ) , the csbpm have the much lower power dissipation , smaller volume and better individual adaptability . at the same time it can improve effectively measurement precision and antijam ability
    該技術(shù)解決了血壓測量的個體適應(yīng)性問題，大大減小了測量系統(tǒng)的功耗和體積，有效的提高了血壓的測量精度和抗干擾能力。
12. Oscillometric method is the advanced method for the no invasion blood pressure measurement . it qualitatively provides the order of the pulse pressure signal ' s changing with the cuff pressure and quantificationally points out the relationship between the mean blood pressure value and the pulse wave signal . so this method gives us a more scientific way to find other blood pressure parameters
    測振法( oscillometricmethod )是無創(chuàng)血壓測量中先進(jìn)的檢測方法，它定性地揭示了脈動壓力信號隨袖帶壓力變化的規(guī)律，并給出了平均壓與脈搏波信號的定量關(guān)系，為血壓參數(shù)進(jìn)一步確定提供了一條更為科學(xué)的方法。
13. On the basis of investigation on oscillometric technique for non - invasive blood pressure measurements , and combined the technique with pulse - wave theory , this paper designs a blood pressure and artery stiffness measuring apparatus , which not only can measure blood pressure and heart - beat - rate accurately , but can calculate the measurer ' s arterial stiffness index and vascular compliance . the apparatus provides an effective instrument for doctors to determine the measurer ' s cirrhosis level
    本論文在研究分析無創(chuàng)血壓測量方法示波法的基礎(chǔ)上，結(jié)合脈搏波理論，設(shè)計出一種準(zhǔn)確高效的血壓與血管硬度測量儀，該儀器不僅能夠準(zhǔn)確測量出受試者的血壓與心率，還能夠計算出受試者的動脈彈性指數(shù)和臂動脈順應(yīng)性，為醫(yī)生判斷患者的動脈硬化程度提供一種有效的檢測手段。
14. Design and make the blood pressure and artery stiffness appartus , including the design of filter , amplifier , adc , memorizer circuit , lcd circuit , communication interface circuit , power supply , etc . research the blood pressure arithmetics and bring forward a new blood pressure judging method based on existing oscillometric technique
    該儀器硬件電路以at89c55單片機為核心，包括信號采集處理電路、 a / d轉(zhuǎn)換電路、存儲器擴展電路、液晶顯示電路、自動充放氣電路、串行通信電路、鍵盤電路等幾大部分。