GLOSSARY ENTRY (DERIVED FROM QUESTION BELOW) | ||||||
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15:56 Jan 17, 2002 |
Japanese to English translations [PRO] Tech/Engineering | |||||||
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| Selected response from: Rick Noelle (X) United States Local time: 10:00 | ||||||
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Summary of answers provided | ||||
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4 | advanced operator |
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4 | "Progressive Operator" |
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4 | interval operator |
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advanced operator Explanation: Similar to "advanced" function |
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"Progressive Operator" Explanation: As this is related to Mathematics, I feel it may be a right word. |
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interval operator Explanation: If you go to the URL you provided, you will see that one of the equations above the one with the term in question shows Gp(s) where s is the Laplace Transform operator. But in the equation with your term in it, the author talks about the implications of using digital equipment to take periodic measurements and he says that Gp(s) has a 'zero sequence hold introduced'. The sampling cycle 't' (time) becomes scattered causing the Laplace transform operator to become z^-1 (z to the minus 1). He then refers to z as the term you are inquiring about 'susumi enzanshi'. We all know that enzanshi is 'operator' as found in a mathematical equation so the question becomes, what to call 'susumi' that would make sense in this context. I will make a guess that since we are talking about the introduction of a so-called 'zero sequence hold', it would refer to this sequence or interval. To make sense of it though and come up with an accurate term, I would read as much as I can about the Laplace Transform function and the implications of using digital equipment when taking measurements which involve it. The first link I provide talks about an Inverse Laplace Transform that perhaps is related as it talks about digital versus analog measurements. Good luck! :-) Reference: http://www.asp.sie.dendai.ac.jp/gr-dsp/dsp09.pdf Reference: http://mathworld.wolfram.com/LaplaceTransform.html |
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