几何尺寸与公差论坛------致力于产品几何量公差标准GD&T (GDT:ASME)|New GPS(ISO)研究/CAD设计/CAM加工/CMM测量  


返回   几何尺寸与公差论坛------致力于产品几何量公差标准GD&T (GDT:ASME)|New GPS(ISO)研究/CAD设计/CAM加工/CMM测量 » 三维空间:产品设计或CAX软件使用 » CAD/CAM/CMM » SPC质量控制
用户名
密码
注册 帮助 会员 日历 银行 搜索 今日新帖 标记论坛为已读


回复
 
主题工具 搜索本主题 显示模式
旧 2009-09-05, 09:01 PM   #1
huangyhg
超级版主
 
huangyhg的头像
 
注册日期: 04-03
帖子: 18592
精华: 36
现金: 249466 标准币
资产: 1080358888 标准币
huangyhg 向着好的方向发展
默认 nyquist vs averaging

nyquist vs averaging
suppose the following:
1. you have an infinite amount
of periodic data available for post processing.
2. the information of interest is at a
frequency higher than your data-acq card can sample.
3. you are able to cut the data into an infinite number
of single cycle data sets.
4. you interpolate the data using a high order scheme
and double the number of points.
5. you then average an "infinite" number of
resampled-single-cycle data sets into one "super-sample".
question:
does this "super-sample" contain information
beyond what the original sampling rate would normally allow?
does the averageing of interpolated data get you a little more?
does this have a name, is this ever done?
thanks in advance.
find a job or post a job opening
it could, assuming that the single-sample bandwidth is sufficiently high.
many sampling scopes and so-called "box-car" averaging use this technique. there used to be sampling scopes that sampled at 40 mhz on periodic signals while the scope had 1 ghz analog bandwidth. therefore, it could sample its way into 1 ghz bandwidth periodic signals. however, if you tried that with a 40 mhz analog bandwidth, you'd get pretty much bupkis.
"does this "super-sample" contain information
beyond what the original sampling rate would normally allow? "
also check out zoom fft
cheers
greg locock
that would depend on the sampler. for the sampling scopes from about 10 yrs ago, the answer is yes. the issue back then was that there weren't memories fast enough or deep enough to do everything in real time, but a slower memory could be accomodated by low-speed sampling clock that could effectively interleave samples from a later time on a periodic signal, but only if the sampling bandwidth was sufficient large accurately capture the high frequency signals.
under those conditions, the reconstructed signal would accurately represent the signal, but not the noise, as if it had been sampled in real time at the effective higher sampling rate.
eventually, those scopes faded away as memories got fast enough to store the data in real time.
ttfn
just rereading the op, is this a homework question?
cheers
greg locock
thank you all for your input.
bandwidth, i'll look into that,
there's a lowpass filter
upstream of the data-acq card,
which might make this a non-starter.
and this is not a homework problem,
(but could be for some nay-sayer).
i just needed a countervaling opinion
to tip the balance-of-merit towards science.
look up bandpass sampling, this technique is commonly used in radio receiver design. interpolation does not in general provide new information. you will need to swap your lowpass with a bandpass, since all the nyquist zones will fold down.
for example, if your analog bandwidth is 500 mhz, and your sample rate is 100 msps, you will have ten nyquist zones within your analog bandwidth. you could look at data from any one of these zones by using the proper filter. for instance, an if of 70 mhz (above nyquist), will fold down to 30 mhz. however, without a bandpass filter there will be ambiguity since signals at 30 mhz will also show up at 30 mhz, as well as signals at 130 mhz, 170 mhz etc. therefore you will need a bandpass filter that has reasonable attenuation at all the frequencies that could alias into your desired output.
peter
__________________
借用达朗贝尔的名言:前进吧,你会得到信心!
[url="http://www.dimcax.com"]几何尺寸与公差标准[/url]
huangyhg离线中   回复时引用此帖
GDT自动化论坛(仅游客可见)
回复


主题工具 搜索本主题
搜索本主题:

高级搜索
显示模式

发帖规则
不可以发表新主题
不可以回复主题
不可以上传附件
不可以编辑您的帖子

vB 代码开启
[IMG]代码开启
HTML代码关闭



所有的时间均为北京时间。 现在的时间是 12:18 PM.


于2004年创办,几何尺寸与公差论坛"致力于产品几何量公差标准GD&T | GPS研究/CAD设计/CAM加工/CMM测量"。免责声明:论坛严禁发布色情反动言论及有关违反国家法律法规内容!情节严重者提供其IP,并配合相关部门进行严厉查处,若內容有涉及侵权,请立即联系我们QQ:44671734。注:此论坛须管理员验证方可发帖。
沪ICP备06057009号-2
更多