Double-layered graphene sheets (DLGSs) can be applied to the development of a new generation of nanomechanical sensors due to their unique physical properties. A rectangular DLGS with a nanoparticle randomly located...Double-layered graphene sheets (DLGSs) can be applied to the development of a new generation of nanomechanical sensors due to their unique physical properties. A rectangular DLGS with a nanoparticle randomly located in the upper sheet is modeled as two nonlocal Kirchhoff plates connected by van der Waals forces. The Galerkin strip transfer function method which is a semi-analytical method is developed to compute the natural frequencies of the mass- plate vibrating system. It can give exact closed-form solutions along the longitudinal direction of the strip. The results obtained from the semi-analytical method are compared with the previous ones, and the differences between the single-layered graphene sheet (SLGS) and the DLGS mass sensors are also investigated. The results demonstrate the similarity of the in-phase mode between the SLGS and DLGS mass sensors. The sensitivity of the DLGS mass sensor can be increased by decreasing the nonlocal parameter, moving the attached nanoparticle closer to the DLGS center and making the DLGS smaller. These conclusions are helpful for the design and application of graphene-sheet-based resonators as nano-mass sensors.展开更多
Trend forecasting is an important aspect in fault diagnosis and work state supervision. The principle, where Grey theory is applied in fault forecasting, is that the forecast system is considered as a Grey system; the...Trend forecasting is an important aspect in fault diagnosis and work state supervision. The principle, where Grey theory is applied in fault forecasting, is that the forecast system is considered as a Grey system; the existing known information is used to infer the unknown information's character, state and development trend in a fault pattern, and to make possible forecasting and decisions for future development. It involves the whitenization of a Grey process. But the traditional equal time interval Grey GM (1,1) model requires equal interval data and needs to bring about accumulating addition generation and reversion calculations. Its calculation is very complex. However, the non equal interval Grey GM (1,1) model decreases the condition of the primitive data when establishing a model, but its requirement is still higher and the data were pre processed. The abrasion primitive data of plant could not always satisfy these modeling requirements. Therefore, it establishes a division method suited for general data modeling and estimating parameters of GM (1,1), the standard error coefficient that was applied to judge accuracy height of the model was put forward; further, the function transform to forecast plant abrasion trend and assess GM (1,1) parameter was established. These two models need not pre process the primitive data. It is not only suited for equal interval data modeling, but also for non equal interval data modeling. Its calculation is simple and convenient to use. The oil spectrum analysis acted as an example. The two GM (1,1) models put forward in this paper and the new information model and its comprehensive usage were investigated. The example shows that the two models are simple and practical, and worth expanding and applying in plant fault diagnosis.展开更多
The atmospheric scattering optical transfer function (OTF) is solved by applying the multi-coupled single scattering (MCSS) method to the three-dimensional radiative transfer equation (RTE) under the periodic gr...The atmospheric scattering optical transfer function (OTF) is solved by applying the multi-coupled single scattering (MCSS) method to the three-dimensional radiative transfer equation (RTE) under the periodic ground condition. This approach is a direct hit to the atmospheric scattering OTF using the same original context of modulation transfer function (MTF) measurement, i.e., images of sinusoidal grating at different spatial frequencies. Both the amplitude and phase shift of the OTF at various zenith and azimuth angles can be obtained at an arbitrary spatial frequency.展开更多
In this paper the definitions of generalized transfer functios of control system and itscontinuity are presented.Using generalized transfer function as a tool,a set of theorems fordeciding movement stability have been...In this paper the definitions of generalized transfer functios of control system and itscontinuity are presented.Using generalized transfer function as a tool,a set of theorems fordeciding movement stability have been constructed.Thus basing understanding of thecharacteristics of a control dynamics system on its measured procedure will simplify thedecision method of movement stability problems.展开更多
The key difficulty of restoring a fuzzy image is to estimate its point spread function( PSF). In the paper,PSF is modelled based on modulation transfer function( MTF). The first step is calculating the image MTF. In t...The key difficulty of restoring a fuzzy image is to estimate its point spread function( PSF). In the paper,PSF is modelled based on modulation transfer function( MTF). The first step is calculating the image MTF. In the traditional slanted-edge method,a sub-block is always manually extracted from original image and its MTF will be viewed as the result of the whole image. However,handcraft extraction is inefficient and will lead to inaccurate results. Given this,an automatic MTF computation algorithm is proposed,which extracts and screens out all the effective sub-blocks and calculates their average MTF as the final result. Then,a two-dimensional MTF restoration model is constructed by multiplying the horizontal and vertical MTF,and it is combined with conventional image restoration methods to restore fuzzy image. Experimental results indicate the proposed method implementes a fast and accurate MTF computation and the MTF model improves the performance of conventional restoration methods significantly.展开更多
Applying 3-dimension finite difference method, the distribution characteristics of horizontal field transfer functions for rectangular conductor have been computed, and the law of distribution for Re-part and Im-part ...Applying 3-dimension finite difference method, the distribution characteristics of horizontal field transfer functions for rectangular conductor have been computed, and the law of distribution for Re-part and Im-part has been given. The influences of source field period, the conductivity, the buried depth and the length of the conductor on the transfer functions were studied. The extrema of transfer functions appear at the center, the four corners and around the edges of conductor, and move with the edges. This feature demonstrates that around the edges are best places for transfer functions' observation.展开更多
The Vector Hydrophone(VH) is widely used to remotely detect underwater targets. Accurately measuring the self-noise of the VH provides an important basis for evaluating the performance of the detection system in which...The Vector Hydrophone(VH) is widely used to remotely detect underwater targets. Accurately measuring the self-noise of the VH provides an important basis for evaluating the performance of the detection system in which it is utilized, since the ability to acquire weak signals is determined by the VH self-noise level. To accurately measure the VH self-noise level in actual working conditions, the Dual-channel Transfer Function Method(DTFM) is proposed to reduce ambient background noise interference. In this paper, the underlying principles of DTFM in reducing ambient background noise is analyzed. The numerical simulations to determine the influence of ambient background noise, and the sensitivity difference of the two VHs on the measurement results are studied. The results of measuring the VH self-noise level in a small laboratory water tank by using DTMF indicate that ambient background noise interference can be reduced effectively by employing DTMF, more accurate self-noise level can be obtained as well. The DTMF provides an effective method for accurately measuring the self-noise level of VHs and also provides technical support for the practical application of the VH in underwater acoustics.展开更多
调制传递函数是红外遥感卫星像质评价的核心参数,但其在轨检测面临靶标温差稳定性不足与数据处理复杂两大挑战。提出一种基于三线靶标与温阶靶标协同的在轨调制传递函数(modulation transfer function,MTF)直接检测方法,通过靶标设计与...调制传递函数是红外遥感卫星像质评价的核心参数,但其在轨检测面临靶标温差稳定性不足与数据处理复杂两大挑战。提出一种基于三线靶标与温阶靶标协同的在轨调制传递函数(modulation transfer function,MTF)直接检测方法,通过靶标设计与模糊PID(proportional-integralderivative)温控算法,实现靶标温度均匀性(<0.5℃)、稳定性(±0.6℃)与重复性(>99%)的良好表现。基于傅里叶光学理论与辐射传输模型,结合“物方-像方调制度分离”计算原理,从遥感影像中直接提取奈奎斯特频率处MTF值,避免了传统方法中大气因素、数值微分以及参数拟合误差等对MTF检测的影响,为高分辨率红外卫星定量化应用提供了高精度技术支撑。展开更多
强干扰区多类噪声时空叠加,对电磁勘探的影响严重且复杂.以往的人工源电磁(Controlled-Source Electromagnetic Method,CSEM)信号处理方法大多针对单道数据进行处理,并未考虑各道之间的相关性,从而产生非必要的误差.为此,在同步观测的...强干扰区多类噪声时空叠加,对电磁勘探的影响严重且复杂.以往的人工源电磁(Controlled-Source Electromagnetic Method,CSEM)信号处理方法大多针对单道数据进行处理,并未考虑各道之间的相关性,从而产生非必要的误差.为此,在同步观测的基础上,本文提出一种基于站间传递函数的CSEM有效信号提取方法.首先,从多域对同步观测的CSEM数据进行质量评价,优选出高信噪比的参考站;其次,基于参考站与测站之间的时域信号方差比(Ratio of variance,ROV)实现测站强干扰噪声的快速识别与定位,采用密度聚类方法(Density-based spatial clustering of applications with noise,DBSCAN)筛选出测站高信噪比数据段,并构建频率域站间传递函数;最后,考虑各道之间的相关性,利用参考站信号与站间传递函数对受强干扰时间段的观测数据进行处理,从而实现了强干扰环境下CSEM有效信号的高精度提取.通过对仿真信号与广域电磁法(Wide Field Electromagnetic Method,WFEM)实测数据的处理,验证了方法的有效性和实用性.结果表明,本文提出的基于站间传递函数的CSEM信噪分离方法不仅考虑了多道同步观测数据之间的相关性,还能在不增加野外工作量的基础上实现对有效信号的高精度提取,方法具有普适性,为CSEM同步阵列数据处理提供了一种快速、可行的解决方案.展开更多
针对某车型的噪声、振动和粗糙度(noise、vibration、harshness,NVH)性能与质量的平衡设计,采用响应面法进行车身NVH性能多学科优化。首先进行BIP模态、内饰车身(trimmed body,TB)动刚度和噪声传递函数(noise transfer function,NTF)的...针对某车型的噪声、振动和粗糙度(noise、vibration、harshness,NVH)性能与质量的平衡设计,采用响应面法进行车身NVH性能多学科优化。首先进行BIP模态、内饰车身(trimmed body,TB)动刚度和噪声传递函数(noise transfer function,NTF)的基础性能分析;然后以钣金件料厚为设计变量,采用最优拉丁方法进行实验设计(design of experiment,DOE);最后通过二次开发和模态追踪等方法获取优化响应,并创建响应面模型进行多学科优化。结果表明:在性能基本不变的前提下,车身减轻7.4 kg,减重率为3.8%。展开更多
The electronic and physical properties of PtmPdn (m+n≤5) metal clusters and their interactions with dioxygen have been studied by using hybrid density functional B3LYP method. The total energies, atomization energ...The electronic and physical properties of PtmPdn (m+n≤5) metal clusters and their interactions with dioxygen have been studied by using hybrid density functional B3LYP method. The total energies, atomization energies, vibration frequencies, and charge distributions were reported. The Pt-Pt bridge site modified by Pd atoms was found to be the most active site for the dissociation of dioxygen, which was mainly due to the change of electronic structures of the Pt atoms in bimetallic Pt-Pd clusters.展开更多
基金supported by the National Natural Science Foundation of China(Grant No.11302254)
文摘Double-layered graphene sheets (DLGSs) can be applied to the development of a new generation of nanomechanical sensors due to their unique physical properties. A rectangular DLGS with a nanoparticle randomly located in the upper sheet is modeled as two nonlocal Kirchhoff plates connected by van der Waals forces. The Galerkin strip transfer function method which is a semi-analytical method is developed to compute the natural frequencies of the mass- plate vibrating system. It can give exact closed-form solutions along the longitudinal direction of the strip. The results obtained from the semi-analytical method are compared with the previous ones, and the differences between the single-layered graphene sheet (SLGS) and the DLGS mass sensors are also investigated. The results demonstrate the similarity of the in-phase mode between the SLGS and DLGS mass sensors. The sensitivity of the DLGS mass sensor can be increased by decreasing the nonlocal parameter, moving the attached nanoparticle closer to the DLGS center and making the DLGS smaller. These conclusions are helpful for the design and application of graphene-sheet-based resonators as nano-mass sensors.
文摘Trend forecasting is an important aspect in fault diagnosis and work state supervision. The principle, where Grey theory is applied in fault forecasting, is that the forecast system is considered as a Grey system; the existing known information is used to infer the unknown information's character, state and development trend in a fault pattern, and to make possible forecasting and decisions for future development. It involves the whitenization of a Grey process. But the traditional equal time interval Grey GM (1,1) model requires equal interval data and needs to bring about accumulating addition generation and reversion calculations. Its calculation is very complex. However, the non equal interval Grey GM (1,1) model decreases the condition of the primitive data when establishing a model, but its requirement is still higher and the data were pre processed. The abrasion primitive data of plant could not always satisfy these modeling requirements. Therefore, it establishes a division method suited for general data modeling and estimating parameters of GM (1,1), the standard error coefficient that was applied to judge accuracy height of the model was put forward; further, the function transform to forecast plant abrasion trend and assess GM (1,1) parameter was established. These two models need not pre process the primitive data. It is not only suited for equal interval data modeling, but also for non equal interval data modeling. Its calculation is simple and convenient to use. The oil spectrum analysis acted as an example. The two GM (1,1) models put forward in this paper and the new information model and its comprehensive usage were investigated. The example shows that the two models are simple and practical, and worth expanding and applying in plant fault diagnosis.
基金supported by the Main Direction Program of Knowledge Innovation of Chinese Academy of Sciences(Grant No.KGFZD-125-13-006)
文摘The atmospheric scattering optical transfer function (OTF) is solved by applying the multi-coupled single scattering (MCSS) method to the three-dimensional radiative transfer equation (RTE) under the periodic ground condition. This approach is a direct hit to the atmospheric scattering OTF using the same original context of modulation transfer function (MTF) measurement, i.e., images of sinusoidal grating at different spatial frequencies. Both the amplitude and phase shift of the OTF at various zenith and azimuth angles can be obtained at an arbitrary spatial frequency.
文摘In this paper the definitions of generalized transfer functios of control system and itscontinuity are presented.Using generalized transfer function as a tool,a set of theorems fordeciding movement stability have been constructed.Thus basing understanding of thecharacteristics of a control dynamics system on its measured procedure will simplify thedecision method of movement stability problems.
基金Supported by the National High Technology Research and Development Programme of China(No.2012AA12A305)the National Key Technology R&D Program of the Ministry of Science and Technology(No.2013BAH03B01)+1 种基金Fundamental Research Funds for the Central Universities of China(No.2042015kf0059)China Postdoctoral Science Foundation(No.2015M582277)
文摘The key difficulty of restoring a fuzzy image is to estimate its point spread function( PSF). In the paper,PSF is modelled based on modulation transfer function( MTF). The first step is calculating the image MTF. In the traditional slanted-edge method,a sub-block is always manually extracted from original image and its MTF will be viewed as the result of the whole image. However,handcraft extraction is inefficient and will lead to inaccurate results. Given this,an automatic MTF computation algorithm is proposed,which extracts and screens out all the effective sub-blocks and calculates their average MTF as the final result. Then,a two-dimensional MTF restoration model is constructed by multiplying the horizontal and vertical MTF,and it is combined with conventional image restoration methods to restore fuzzy image. Experimental results indicate the proposed method implementes a fast and accurate MTF computation and the MTF model improves the performance of conventional restoration methods significantly.
文摘Applying 3-dimension finite difference method, the distribution characteristics of horizontal field transfer functions for rectangular conductor have been computed, and the law of distribution for Re-part and Im-part has been given. The influences of source field period, the conductivity, the buried depth and the length of the conductor on the transfer functions were studied. The extrema of transfer functions appear at the center, the four corners and around the edges of conductor, and move with the edges. This feature demonstrates that around the edges are best places for transfer functions' observation.
文摘The Vector Hydrophone(VH) is widely used to remotely detect underwater targets. Accurately measuring the self-noise of the VH provides an important basis for evaluating the performance of the detection system in which it is utilized, since the ability to acquire weak signals is determined by the VH self-noise level. To accurately measure the VH self-noise level in actual working conditions, the Dual-channel Transfer Function Method(DTFM) is proposed to reduce ambient background noise interference. In this paper, the underlying principles of DTFM in reducing ambient background noise is analyzed. The numerical simulations to determine the influence of ambient background noise, and the sensitivity difference of the two VHs on the measurement results are studied. The results of measuring the VH self-noise level in a small laboratory water tank by using DTMF indicate that ambient background noise interference can be reduced effectively by employing DTMF, more accurate self-noise level can be obtained as well. The DTMF provides an effective method for accurately measuring the self-noise level of VHs and also provides technical support for the practical application of the VH in underwater acoustics.
文摘调制传递函数是红外遥感卫星像质评价的核心参数,但其在轨检测面临靶标温差稳定性不足与数据处理复杂两大挑战。提出一种基于三线靶标与温阶靶标协同的在轨调制传递函数(modulation transfer function,MTF)直接检测方法,通过靶标设计与模糊PID(proportional-integralderivative)温控算法,实现靶标温度均匀性(<0.5℃)、稳定性(±0.6℃)与重复性(>99%)的良好表现。基于傅里叶光学理论与辐射传输模型,结合“物方-像方调制度分离”计算原理,从遥感影像中直接提取奈奎斯特频率处MTF值,避免了传统方法中大气因素、数值微分以及参数拟合误差等对MTF检测的影响,为高分辨率红外卫星定量化应用提供了高精度技术支撑。
文摘强干扰区多类噪声时空叠加,对电磁勘探的影响严重且复杂.以往的人工源电磁(Controlled-Source Electromagnetic Method,CSEM)信号处理方法大多针对单道数据进行处理,并未考虑各道之间的相关性,从而产生非必要的误差.为此,在同步观测的基础上,本文提出一种基于站间传递函数的CSEM有效信号提取方法.首先,从多域对同步观测的CSEM数据进行质量评价,优选出高信噪比的参考站;其次,基于参考站与测站之间的时域信号方差比(Ratio of variance,ROV)实现测站强干扰噪声的快速识别与定位,采用密度聚类方法(Density-based spatial clustering of applications with noise,DBSCAN)筛选出测站高信噪比数据段,并构建频率域站间传递函数;最后,考虑各道之间的相关性,利用参考站信号与站间传递函数对受强干扰时间段的观测数据进行处理,从而实现了强干扰环境下CSEM有效信号的高精度提取.通过对仿真信号与广域电磁法(Wide Field Electromagnetic Method,WFEM)实测数据的处理,验证了方法的有效性和实用性.结果表明,本文提出的基于站间传递函数的CSEM信噪分离方法不仅考虑了多道同步观测数据之间的相关性,还能在不增加野外工作量的基础上实现对有效信号的高精度提取,方法具有普适性,为CSEM同步阵列数据处理提供了一种快速、可行的解决方案.
文摘针对某车型的噪声、振动和粗糙度(noise、vibration、harshness,NVH)性能与质量的平衡设计,采用响应面法进行车身NVH性能多学科优化。首先进行BIP模态、内饰车身(trimmed body,TB)动刚度和噪声传递函数(noise transfer function,NTF)的基础性能分析;然后以钣金件料厚为设计变量,采用最优拉丁方法进行实验设计(design of experiment,DOE);最后通过二次开发和模态追踪等方法获取优化响应,并创建响应面模型进行多学科优化。结果表明:在性能基本不变的前提下,车身减轻7.4 kg,减重率为3.8%。
基金This work was partly supported by Innovation Foundation of the Chinese Academy of Sciences (K2003D2), National Natural Science Foundation of China (No. 20173060), Hi-tech Research and Development Program of China (2003AA517040) and Knowledge Innovation Program of the Chinese Academy of Sciences (KGCX2-SW-310)
文摘The electronic and physical properties of PtmPdn (m+n≤5) metal clusters and their interactions with dioxygen have been studied by using hybrid density functional B3LYP method. The total energies, atomization energies, vibration frequencies, and charge distributions were reported. The Pt-Pt bridge site modified by Pd atoms was found to be the most active site for the dissociation of dioxygen, which was mainly due to the change of electronic structures of the Pt atoms in bimetallic Pt-Pd clusters.
