排序方式: 共有6条查询结果,搜索用时 15 毫秒
1
1.
提出了一种基于加速度计、陀螺仪、气压计输出时域特征的高精度、高实时性的人体行为模式识别算法。该算法选取多传感器输出的时域特征值作为唯一特征量,通过特征提取运算实现行为的实时识别。通过在实验室自主研发的软硬件平台上进行测试,在识别时间缩短到2 s一次的条件下,对于8种人体日常行为模式和4种摔倒模式的平均识别率可达到94%以上。该算法对于现有算法实时精度有明显提高,且拓展了模式识别的种类,在可穿戴智能终端领域具有很好的应用前景。 相似文献
2.
平衡零拍探测是测量量子光场的重要方法之一. 通过对相位灵敏光学参量放大器注入的信号进行位相调制, 然后利用平衡零拍探测系统测量光学参量放大器输出的压缩光. 将相位灵敏光学参量分别运转在参量放大和参量缩小, 通过观察噪声谱中的调制信号就可确定测量的量子光场是正交振幅或位相分量. 通过解调位相调制信号可获得误差信号, 实现锁定平衡零拍探测系统本底光与待测光场相对位相为零(对应于待测光场振幅噪声分量).
关键词:
平衡零拍探测
位相锁定 相似文献
3.
Coherent effect of triple-resonant optical parametric amplification inside a cavity with injection of a squeezed vacuum field 下载免费PDF全文
In theory, we study the quantum tluctuatlons ot tlae suDllarmonlc renecteu nela Irom a ulplc-rc~ulltUtt IdU~ClIClatC optical parametric amplifier (OPA) inside an optical cavity. We discuss two cases, where the linewidth of the harmonic field is either much narrower or broader than the subharmonic field. Since an electromagnetically-induced-transparency (EIT)-like effect can be simulated in a triple-resonant OPA, the output spectra from a triple-resonant OPA with a squeezed vacuum input may simulate the phenomenon of the response of an EIT medium for squeezed states. This scheme can be implemented with present experimental setups. 相似文献
4.
针对传统计步算法精度低适用性不高的问题,提出了一种基于MEMS足部定位模块的高精度自适应步长估计算法。首先通过分析行人步态的周期特征,精确地判断每个步态周期中单脚离地和落地的时间差值,采用零速更新法结合时间阈值、加速度阈值和加速度方差阈值进行步态检测;然后对转换后地理坐标系下传感器信号进行双重积分,计算出行人每一步的空间轨迹,无需进行前期步长数据采集或者生物模型参数提取,即可实现对行人步长的精确估计。在AHRS_box惯性传感器模块上进行了实验,结果表明该算法估计得出的步长和行走距离误差均小于2.5%,证实了该算法的有效性。 相似文献
5.
6.
We experimentally investigate the optical cavity for various coupled regimes with an injected squeezed vacuum state. We measure the quantum fluctuation spectra of the reflected field of an optical cavity using the homodyne detection and present the spectral dependence on the absorption and dispersion properties of the cavity in the under-coupled, critically-coupled, and over-coupled regimes. The spectra lineshape is phase sensitive with the phase shift induced by the cavity. Moreover, we find that the over-coupled optical cavity has obvious advantage in the manipulation of quantum fluctuation. 相似文献
1