A method to realize non linearity correction and scale transformation with compensation function used in intelligent instrument is presented.
提出了一种在智能仪器中用补偿函数实现非线性误差修正和标度变换的方法。
The relationship among visual range, minimum blind area of photoelectric transformation system, emitting energy of lasers and distance from the instrument to cooperation target was gained.
导出了能见距离、光电转换系统的最小盲区、激光器的发射能量以及仪器与合作目标间的距离四者之间的关系。
The transformation oven was designed for high transformation rate, long life and low cost of the instrument.
而研制成功的微型转化炉有较高的转化率,且寿命长,可降低仪器成本。
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