迎接数字化时代的到来--浅谈大学物理实验教学改革

本简单介绍了数字化、多媒体设备在大学物理实验教学改革中的应用，以提高大学物理实验的教学效果。     

The myth of data acquisition rate

With the need for high-frequency data acquisition, the influence of the data acquisition rate on the quality of the digitized signal is often discussed and also misinterpreted. In this study we show that undersampling of the signal, i.e. low data acquisition rate will not cause band broadening. Users of modern instrumentation and authors are frequently misled by hidden features of the data handling software they use. Very often users are unaware of the noise filtering algorithms that run parallel with data acquisition and that lack of information misleads them. We also demonstrate that undersampled signals can be restored by a proper trigonometric interpolation.     

数字化声学测量技术──Ⅰ.概论

数字化是当今世界上声学测量技术的发展趋势，它采用微计算机和数字信号处理系统．数字化声学测量的主要优点是：1．精确度高，动态范围大2．性能稳定，可靠3．可实现许多模拟仪器设备不能完成的复杂功能4．使用灵活方便5．优异的性能价格比．本文综合介绍了数字化声学测量技术的这些优越性，同时还介绍了一种实际使用的数字化声学测量系统的组成和工作原理，以及它的主要测量分析功能．本文可为涉及声学测量的部门和单位在选择仪器设备时提供参考．