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  • 1
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    Table of Contents (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-03-21
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    Topics: Architecture, Civil Engineering, Surveying , Electrical Engineering, Measurement and Control Technology , Geosciences , Computer Science
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  • 2
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    The Fifth Year of Our Magazine Is in Print [From the Editor] (2017)
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    Publication Date: 2017-03-21
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    Topics: Architecture, Civil Engineering, Surveying , Electrical Engineering, Measurement and Control Technology , Geosciences , Computer Science
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  • 3
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    Staff Listing (2017)
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    Publication Date: 2017-03-21
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    Topics: Architecture, Civil Engineering, Surveying , Electrical Engineering, Measurement and Control Technology , Geosciences , Computer Science
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  • 4
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    Advanced Spectral Classifiers for Hyperspectral Images: A review (2017)
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    Publication Date: 2017-03-21
    Description: Hyperspectral image classification has been a vibrant area of research in recent years. Given a set of observations, i.e., pixel vectors in a hyperspectral image, classification approaches try to allocate a unique label to each pixel vector. However, the classification of hyperspectral images is a challenging task for a number of reasons, such as the presence of redundant features, the imbalance among the limited number of available training samples, and the high dimensionality of the data.
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  • 5
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    Front Cover (2017)
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  • 6
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    GRSS Has Big Plans for 2017 [President's Message] (2017)
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    Publication Date: 2017-03-21
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    Topics: Architecture, Civil Engineering, Surveying , Electrical Engineering, Measurement and Control Technology , Geosciences , Computer Science
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  • 7
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    Remote Sensing Image Classification: A survey of support-vector-machine-based advanced techniques (2017)
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    Publication Date: 2017-03-21
    Description: Land-cover mapping in remote sensing (RS) applications renders rich information for decision support and environmental monitoring systems. The derivation of such information increasingly relies on robust classification methods for identifying the complex land-cover area of different categories. Numerous classification techniques have been designed for the analysis of RS imagery. In this context, support vector machines (SVMs) have recently received increasing interest. However, the need for a small-size training set remains a bottleneck to design efficient supervised classifiers, while an adequate number of unlabeled data is readily available in RS images and can be exploited as a supplementary source of information. To fully leverage these precious unlabeled data, a number of promising advanced SVM-based methods, such as active SVMs, semisupervised SVMs (S3VMs), and SVMs combined with other algorithms, have been developed to analyze satellite imagery. In this literature review, we have surveyed these learning techniques to explore RS images. Moreover, we have provided the empirical evidences of SVMs and three representative techniques. It is our hope that this review will provide guidelines to future researchers to enhance further algorithmic developments in RS applications.
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  • 8
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    CALL FOR PAPERS IEEE Geoscience and Remote Sensing Magazine (2017)
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    Publication Date: 2017-03-21
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    Topics: Architecture, Civil Engineering, Surveying , Electrical Engineering, Measurement and Control Technology , Geosciences , Computer Science
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  • 9
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    The IEEE United Arab Emirates Section Chapter Is Gearing Up to Support the National Space Program [Chapters] (2017)
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    Publication Date: 2017-03-21
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  • 10
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    2016 IEEE GRSS Data Fusion Contest: Multitemporal Very High Resolution from Space [Technical Committees] (2017)
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    Publication Date: 2017-03-21
    Description: Since 2006, the Image Analysis and Data Fusion Technical Committee (IADF TC) of the IEEE Geoscience and Remote Sensing Society (GRSS) organizes a yearly Data Fusion Contest that aims to promote the use of new remote sensing data sources and stimulating new methodological developments [1]-[10].
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  • 11
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    Distinguished Lecturers Can Talk at Your Chapter Meeting [Distinguished Lecturer Program] (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-03-21
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    Topics: Architecture, Civil Engineering, Surveying , Electrical Engineering, Measurement and Control Technology , Geosciences , Computer Science
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  • 12
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    Alejandro Frery's Distinguished Lecturer Visit to Shanghai [Distinguished Lecturer Program] (2017)
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    Publication Date: 2017-03-21
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    Topics: Architecture, Civil Engineering, Surveying , Electrical Engineering, Measurement and Control Technology , Geosciences , Computer Science
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  • 13
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    CYME (2017)
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    Publication Date: 2017-03-21
    Description: Advertisement.
    Print ISSN: 1540-7977
    Electronic ISSN: 1558-4216
    Topics: Electrical Engineering, Measurement and Control Technology
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  • 14
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    Experimental Investigation of Stub Resonators Built in Plasmonic Slot Waveguides (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-03-21
    Description: In this letter, we focus on stub resonators embedded in plasmonic slot waveguides. The resonators have potential applications in optical interconnects and sensors. We fabricate the samples by electron beam lithography and lift-off. We use a scattering matrix-based model to quantify the optical power output from the samples. We measure the properties of the resonators by coupling light in and out of the slot waveguides by optical antennas, making use of a cross-polarization-based setup utilizing a supercontinuum source and a high numerical aperture objective lens operating in the telecom-wavelength range. Our model agrees well with the measured data. Furthermore, development on the stub resonators can be made by using the methods in this letter.
    Print ISSN: 1041-1135
    Electronic ISSN: 1941-0174
    Topics: Electrical Engineering, Measurement and Control Technology
    Published by Institute of Electrical and Electronics Engineers (IEEE) on behalf of The IEEE Photonics Society.
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  • 15
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    Metglas (2017)
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    Description: Advertisement.
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  • 16
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    V & R Energy Systems Research (2017)
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    Publication Date: 2017-03-21
    Description: Advertisement.
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  • 17
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    Virtual Bulk Current Injection: Modeling EUT for Several Setups and Quantification of CM-to-DM Conversion (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-03-21
    Description: The use of a fixed forward power as obtained during the calibration phase in a bulk current injection test, without monitoring the current, may cause damage on the equipment under test (EUT) with low impedances. In this paper, an accurate EUT model has been designed based on impedance investigation. This model can be used to predict the conducted susceptibility of a generic EUT. The model is first based on black-box approach; then, an interaction model is added to provide flexibility of several geometric parameters, which can be changed from one setup to another. This methodology leads to the combined approach, which shows a satisfactory agreement between simulations and measurements. According to the developed equations, the impedance matrix of the described model can be readily switched to modal one. Afterward, asymmetric dummy EUTs were investigated and the analytical equations used to predict differential mode due to common-mode voltage injection were validated.
    Print ISSN: 0018-9375
    Electronic ISSN: 1558-187X
    Topics: Electrical Engineering, Measurement and Control Technology
    Published by Institute of Electrical and Electronics Engineers (IEEE) on behalf of The IEEE Electromagnetic Compatibility Society.
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  • 18
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    Thru-Reflect-Line Calibration Technique: Error Analysis for Characteristic Impedance Variations in the Line Standards (2017)
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    Publication Date: 2017-03-21
    Description: In this paper, we analyze the impact of characteristic impedance variations among standards on the accuracy of the thru-reflect-line (TRL) calibration technique. The impedance transformer method is adopted to derive the expressions of the calibration coefficient errors due to the manufacturing tolerances. It is found that three factors can affect the magnitude of the errors in the calibration coefficients (c/a and b terms), which are crucial to get the final calibrated results. The first factor is related to the original parameters of the error networks (test fixtures): the larger the insertion losses, the smaller the error in b ; the error in c/a may see an opposite trend if the error network is lossy instead of lossless. The second factor is denoted as the phase contribution (one of the three multipliers of the derived error expression): the magnitude of this error contributing item is approximately equal to the ratio of two hyperbolic sine functions, the variables of which are the length of Line and the length difference between Line and Thru, respectively. The third factor comes from the impedance differences between Thru and Line: the smaller the impedance variation, the smaller the error. The error analysis, presented here, can help engineers evaluate the calibration accuracy by analyzing the error contributing items. It also can be further used to guide test fixture designs to maximize TRL's error immunity to the transmission line characteristic impedance variations.
    Print ISSN: 0018-9375
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    Topics: Electrical Engineering, Measurement and Control Technology
    Published by Institute of Electrical and Electronics Engineers (IEEE) on behalf of The IEEE Electromagnetic Compatibility Society.
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  • 19
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    Mitigation Techniques to Reduce the Vulnerability of Railway Signaling to Radiated Intentional EMI Emitted From a Train (2017)
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    Publication Date: 2017-03-21
    Description: This paper evaluates several techniques capable of mitigating the impact of low-power radio frequency jammers that interfere with ground-to-train communications. These radio communications are used for railway signaling, and interfering with these signals can have a negative impact on the train operation. Although the commercialization, detention, and use of radiofrequency jammers is strictly forbidden in most countries, they can be easily found on the internet at low cost and unexpectedly switched on by a passenger in a moving train. In this paper, we evaluate and compare the ground-to-train radio communication and intentional electromagnetic interference (IEMI) received signal powers delivered by roof train antennas to the train control command receiver. This comparison is used to deduce the potential zones of interference along the train trajectory and its consequences. Operating at the physical layer, we then propose and evaluate three mitigations techniques that can be used separately or combined to reduce the impact of this type of interference. We show that they can significantly reduce the jamming capability and help us in maintaining railway full operation.
    Print ISSN: 0018-9375
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    Published by Institute of Electrical and Electronics Engineers (IEEE) on behalf of The IEEE Electromagnetic Compatibility Society.
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  • 20
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    Ground Admittance of an Underground Insulated Conductor and its Characteristic in Lightning Induced Disturbance Problems (2017)
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    Publication Date: 2017-03-21
    Description: The evaluation of the ground admittance of an underground insulated conductor with a homogeneous nonmagnetic earth is of great significance when the electromagnetic compatibility is concerned. To evaluate the ground admittance efficiently, researchers proposed that the ground impedance of the conductor should be evaluated first and the ground admittance is related to the ground impedance through the wave number in the soil. There are several approximated analytical expressions for the evaluation of the ground impedance with a homogeneous earth and this fact makes the ground admittance easy to obtain. The characteristic of the approximated ground admittance evaluation approach is examined in this paper. Numerical examples illustrate that at frequencies with which the burial depth is much larger than the skin depth in the soil, the ground admittance and the ground impedance of the buried cable are well-related through the wave number in the soil. However, at other frequencies, the approximated approach fails to evaluate the ground admittance accurately. This paper also reveals that the discrepancy of the ground admittance will lead to a noticeable difference in the lightning induced voltage on buried cables.
    Print ISSN: 0018-9375
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  • 21
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    Effects of Different Combination Wave Generator Design on Surge Protective Devices Characteristics in Cascade Protection Systems (2017)
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    Publication Date: 2017-03-21
    Description: Cascade application of surge protective devices (SPDs) in low-voltage ac power circuits is intended to ensure proper equipment protection against surges as well as to provide surge energy distribution between SPDs. In order to evaluate equipment response and SPDs performance, concept of representative surges, which can be used for surge testing purposes, is introduced by international standards. Combination wave surge is defined both by IEEE C62.41.2 standard and IEC 61000-4-5 standard as one of the representative surges. However, these standards specify different tolerances regarding short-circuit current waveform's undershoot delivered by combination wave generator (CWG). The aim of this paper is to investigate the influences of different CWGs regarding short-circuit current undershoot in cascade two-stage protection system. It will be shown that differences that appear during surge testing with application of different CWGs can lead to inappropriate selection of SPDs regarding energy absorption capability and/or protection level.
    Print ISSN: 0018-9375
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    Topics: Electrical Engineering, Measurement and Control Technology
    Published by Institute of Electrical and Electronics Engineers (IEEE) on behalf of The IEEE Electromagnetic Compatibility Society.
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  • 22
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    An Inversion Method for Evaluating Lightning Current Waveform Based on Time Series Neural Network (2017)
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    Publication Date: 2017-03-21
    Description: An inversion method for evaluating lightning current waveforms from measured electromagnetic field data based on time series neural network (TSNN) is presented in this paper. The back-propagation neural network (BPNN) is also adopted to evaluate the channel-base current using measured electromagnetic field data, and comparisons of inversion results between TSNN and BPNN are presented. The inversion results are in good agreement with corresponding measured channel-base currents. The proposed method can evaluate the channel-base current in areas with complex terrain, and it is useful for studies on lightning-protection in power systems and lightning characteristics
    Print ISSN: 0018-9375
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    Published by Institute of Electrical and Electronics Engineers (IEEE) on behalf of The IEEE Electromagnetic Compatibility Society.
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  • 23
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    IEEE Transactions on Electromagnetic Compatibility (2017)
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    Publication Date: 2017-03-21
    Print ISSN: 0018-9375
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    Topics: Electrical Engineering, Measurement and Control Technology
    Published by Institute of Electrical and Electronics Engineers (IEEE) on behalf of The IEEE Electromagnetic Compatibility Society.
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  • 24
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    IEEE Transactions on Electromagnetic Compatibility information for authors (2017)
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    Publication Date: 2017-03-21
    Print ISSN: 0018-9375
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    Topics: Electrical Engineering, Measurement and Control Technology
    Published by Institute of Electrical and Electronics Engineers (IEEE) on behalf of The IEEE Electromagnetic Compatibility Society.
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  • 25
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    Table of contents (2017)
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    Publication Date: 2017-03-21
    Print ISSN: 1057-7149
    Electronic ISSN: 1941-0042
    Topics: Electrical Engineering, Measurement and Control Technology
    Published by Institute of Electrical and Electronics Engineers (IEEE) on behalf of The IEEE Signal Processing Society.
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  • 26
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    Table of contents (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-03-21
    Print ISSN: 1057-7149
    Electronic ISSN: 1941-0042
    Topics: Electrical Engineering, Measurement and Control Technology
    Published by Institute of Electrical and Electronics Engineers (IEEE) on behalf of The IEEE Signal Processing Society.
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  • 27
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    Blank page (2017)
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    Publication Date: 2017-03-21
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    Topics: Electrical Engineering, Measurement and Control Technology
    Published by Institute of Electrical and Electronics Engineers (IEEE) on behalf of The IEEE Signal Processing Society.
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  • 28
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    IEEE Transactions on Image Processing Edics (2017)
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    Publication Date: 2017-03-21
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    Published by Institute of Electrical and Electronics Engineers (IEEE) on behalf of The IEEE Signal Processing Society.
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  • 29
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    Blank page (2017)
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    Publication Date: 2017-03-21
    Print ISSN: 1057-7149
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    Topics: Electrical Engineering, Measurement and Control Technology
    Published by Institute of Electrical and Electronics Engineers (IEEE) on behalf of The IEEE Signal Processing Society.
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  • 30
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    A Smart High Accuracy Calibration Algorithm for 3-D Piezoresistive Stress Sensor (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-02-11
    Description: Numerical and experimental sensitivity analyses in this paper indicate that the accuracy of a silicon multi-element piezoresistive (PR) stress sensor can be dramatically influenced by the microfabrication non-uniformity and the uncertainties in the values of the PR coefficients and the thermal coefficient of resistance (TCR). The results showed that errors as large as 70% FS or more, in the extracted stress values, may be obtained due to uncertainty of about 2.5% in the values of PR coefficients. This paper aims to evaluate the capabilities of the artificial neural network (ANN) to eliminate the error in stress measurement, due to the fabrication non-uniformity within wafer, wafer-to-wafer, and batch-to-batch, for multi-element PR sensing rosettes. In this paper, sensing chips from two different batches were integrated in building the ANN and testing its performance. The proposed calibration technique employs the neural network fitting Toolbox in MATLAB to generate a two-layer feed-forward network, with sigmoid hidden neurons and linear output neurons. Three different configurations of calibration were designed to test the generalization abilities of the ANN in capturing the in-plane stress components exerted on the silicon chip. The results showed that ANN is capable of accurately predicting the stresses applied to the sensing chip with maximum stress error of 1.5% FS with no need for individual, expensive, and time-consuming calibration process for each sensor.
    Print ISSN: 1530-437X
    Electronic ISSN: 1558-1748
    Topics: Electrical Engineering, Measurement and Control Technology
    Published by Institute of Electrical and Electronics Engineers (IEEE) on behalf of The IEEE Sensors Council.
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  • 31
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    Spatiotemporal Adaptive Optimization of a Static-Sensor Network via a Non-Parametric Estimation of Target Location Likelihood (2017)
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    Publication Date: 2017-02-11
    Description: The search for a mobile target is a dynamic spatial and temporal problem. Information gathered during the search, regarding the potential whereabouts of the target, can be used to influence significantly the search strategy employed. In this paper, thus, a novel (wireless) static-sensor network deployment strategy is presented to detect efficiently and effectively a mobile target in an unbounded environment. The proposed strategy deploys the static sensors optimally and in a time-phased manner while adapting in real-time to the availability of new information during the search. An optimal network-deployment plan, herein, refers to a set of optimal sensor-deployment times and locations. The optimal sensor-deployment instances aim to achieve a uniform deployment of search effort over time. Optimal sensor-deployment locations, in turn, are determined according to the highest possible likelihood of detection of the mobile target. The proposed deployment strategy contains two novel contributions: it makes use of a non-parametric approach to estimate effectively the target location likelihood, and it performs an optimization of sensor-placement times to maximize the adaptive characteristic of the deployment plan. Several detailed experiments (in virtual and physical environments) of the proposed strategy for static-sensor network deployment in wilderness search and rescue applications are presented. Furthermore, a comparative study is included to highlight the advantages of our approach versus traditional methods that deploy sensors simultaneously for uniform coverage.
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    Topics: Electrical Engineering, Measurement and Control Technology
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  • 32
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    Multi-Objective Hierarchical Classification Using Wearable Sensors in a Health Application (2017)
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    Publication Date: 2017-02-11
    Description: This paper introduces a novel multi-classification technique, which improves two conflicting main objectives of classification problems, i.e., classification accuracy and worst case sensitivity. Global performance measures such as overall accuracy might not be enough to evaluate classifiers and alternative measurements are essentially required. This paper addresses a new model selection problem to construct a tree-based hierarchical classification model based on ensemble of six different classifiers. In our proposed approach, the model selection is tackled as a multi-objective optimization, which not only considers the accuracy of the classification, but also tries to maximize the worst case sensitivity of the multi-class problem. The proposed technique is applied on nine different classes corresponding to various breathing disorders for designing a wearable remote monitoring system. This model correctly classified the respiratory patterns of ten subjects with an accuracy of 99.25% and a sensitivity of 97.78% with detecting the changes in the anterior-posterior diameter of the chest wall during breathing function by means of two accelerometer sensors worn on subject’s rib cage and abdomen. The effects of the number of sensors, sensor placement, as well as feature selection on the classification performance are also discussed.
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  • 33
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    BLUESOUND: A New Resident Identification Sensor—Using Ultrasound Array and BLE Technology for Smart Home Platform (2017)
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    Publication Date: 2017-02-11
    Description: Activity recognition through ambient sensors in a smart home can efficiently monitor residents’ abnormal behaviors in daily life, while not adding extra burdens caused by wearable sensors. Monitoring and separating the activities of a specific individual in a multi-residential home is still, however, a significant challenge for these smart home applications. This paper proposes a new human identification sensor, which can efficiently differentiate multiple residents in a home environment to detect their height as a unique bio-feature. This sensor includes three sensing/communication modules: pyroelectric infrared (PIR) occupancy, ultrasound array, and bluetooth low energy (BLE) communication modules. The PIR occupancy module is used to detect the moving direction, while the ultrasound array module detects the moving residents’ height. The combination of these two sensing technologies can be used to then detect the moving velocity. The BLE advertising mode is then used to communicate these data to the data server. A new embedded algorithm increased the energy efficiency of this identification technology. A comprehensive modeling and experiments are done to assess the performance of this sensor and the results are provided.
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    A QoS-Oriented High-Efficiency Resource Allocation Scheme in Wireless Multimedia Sensor Networks (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-02-11
    Description: Deadline constrained packet scheduling and transmission are important in real-time multimedia applications. This is because packets missing their deadlines would become useless and are frequently dropped, which seriously degrade the quality of service (QoS). As the utilization of Internet of Things has become mature, multimedia data transmission is a key component to promote the QoS of citizens. To fulfill the QoS requirement in wireless sensor networks (WSNs) with multimedia content, the combination of multiple transmission methods is encouraged for packet forwarding, including conventional network coding, analog network coding, plain routing, and direct transmission (i.e., no-relaying, NR). The diversity of transmission method is helpful to lower packet dropping probability, while complicating the packet transmitting and scheduling process instead. Therefore, we first introduce an exhaustive search method to obtain the optimal scheduling sequence and corresponding transmission method for deadline constrained multimedia transmissions in WSNs. With the objective of promoting computing efficiency for the formulated problem, we then propose two heuristic methods based on the Markov chain approximation and the dynamic graph, respectively. Simulation results illustrate that our methods can effectively reduce packet dropping probability and simulation time, so that QoS of individuals can be promoted.
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    Determining the Main CSMA Parameters for Adequate Performance of WSN for Real-Time Volcano Monitoring System Applications (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-02-11
    Description: This paper presents a study in order to identify the value range of the main parameters within carrier sense multiple access (CSMA) defined in IEEE 802.15.4 that guarantees a satisfactory wireless sensor network (WSN) performance for a volcano monitoring application. Moreover, this study performs the comparison among several test-beds in outdoor scenarios with the purpose of distinguishing the optimal number of nodes for each gateway according the main constraints given by an existing sensor network for real-time (RT) volcano monitoring system such as sampling time, packet loss, and delay. We used a mathematical model that works with Markovian techniques and involves some parameters of CSMA mechanism within the model, such as the minimum value of the backoff exponent (BEmin), the contention window length (W), and the number of slots (L). We obtained the approximate values of these parameters by the interpolation of the normalized throughput curves from the deployment, and thus, we could obtain a mathematical model with the specifications required for the RT volcano monitoring. After validating the model with test-bed outdoor deployments we found that BEmin, W and L are key factors for determining the performance of a WSN, these parameters guarantee the range in which the WSN works according to the constraints imposed for this particular volcano monitoring application.
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    Virtualization of Wireless Sensor Networks Through MAC Layer Resource Scheduling (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-02-11
    Description: In this paper, we propose a joint throughput and time-resource allocation scheme for the virtualization of IEEE 802.15.4-based wireless sensor networks (WSNs). Virtualization is realized through utilization of the guaranteed time slot (GTS) mechanism of cluster-tree topology to schedule resources on a media access control (MAC) layer. We develop a scheduler that is located in the personal area network (PAN) coordinator and that virtualizes the network into an aggregate of independent profiles, assigning the available resources to each profile with end-to-end (ETE) delay guarantees. The scheduler solves the problem of managing resources available in the network in an optimization framework, taking into consideration the individual profile and sensor requirements. Moreover, it uses the proposed heuristic fair resource allocation (FRA) algorithm to derive the solution in polynomial time. We validate the scheduling performance via discrete event simulation (DES) and compare the proposed FRA algorithm with round robin (RR) and proportionally fair (PF) scheduling algorithms in several scenarios. The proposed scheme demonstrates efficient resource management while maintaining profile isolation in all cases, whereas other algorithms lead to increased latency and lower throughput in the network.
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    Optimized Thermal Compensation Method Using Clustering and Drifted Response Stability for Total Power Radiometer Calibration (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-02-11
    Description: Radiometer calibration using a compensation method based on temperature drift under a variety of environmental conditions can be used for airborne applications because of limitations on weight and power. Accordingly, the observation of the variation of the system states via analysis of the obtained response with temperature data is necessary to compensate the fluctuation of physical temperature for accurate calibration of the radiometer. However, the accuracy of the previous method (which uses one or more temperature probe) can rarely obtain an accurate estimated result; its accuracy is insufficient for high-precision measurement applications. Additionally, previous methods may cause unpredictable estimation errors when using regression methods with fewer measurable sensors. Therefore, more advanced compensation methods, which can compensate for the drift in radiometer output using temperature sensors (based on the analysis of the distinctive features of the temperature), are required to estimate the brightness temperature. In this paper, an optimized thermal compensation method using a selection of the optimal point for gain and offset probing to control the coefficients is analyzed using both the correlation-matrix-based hierarchical clustering and a comparison with the response stability for the training period. Then, the clustered temperature sensors of the radiometer system are used in the predictor variable to achieve optimum compensation of radiometer response variation. Next, the regression model of the multiple linear clustering method is compared the estimation accuracy for the selected training period and temperature sensors. Improved results relative to the reference method are achieved using the proposed model in experiments.
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    Image Fusion Incorporating Parameter Estimation Optimized Gaussian Mixture Model and Fuzzy Weighted Evaluation System: A Case Study in Time-Series Plantar Pressure Data Set (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-02-11
    Description: The key issue in image fusion is the process of defining evaluation indices for the output image and for multi-scale image data set. This paper attempted to develop a fusion model for plantar pressure distribution images, which is expected to contribute to feature points construction based on shoe-last surface generation and modification. First, the time series plantar pressure distribution image was preprocessed, including back removing and Laplacian of Gaussian (LoG) filter. Then, discrete wavelet transform and a multi-scale pixel conversion fusion operating using a parameter estimation optimized Gaussian mixture model (PEO-GMM) were performed. The output image was used in a fuzzy weighted evaluation system, that included the following evaluation indices: mean, standard deviation, entropy, average gradient, and spatial frequency; the difference with the reference image, including the root mean square error, signal to noise ratio (SNR), and the peak SNR; and the difference with source image including the cross entropy, joint entropy, mutual information, deviation index, correlation coefficient, and the degree of distortion. These parameters were used to evaluate the results of the comprehensive evaluation value for the synthesized image. The image reflected the fusion of plantar pressure distribution using the proposed method compared with other fusion methods, such as up-down, mean-mean, and max-min fusion. The experimental results showed that the proposed LoG filtering with PEO-GMM fusion operator outperformed other methods.
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    IEEE Sensors Journal cover/frontispiece competition (2017)
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    Publication Date: 2017-02-11
    Description: Presents the guidelines for the IEEE Sensors Journal Frontpiece competition.
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    Noninvasive Measurement and Analysis of Laboratory Rat’s Cardiorespiratory Movement (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-02-11
    Description: Monitoring physiological signs in animal testing is crucial for the development of new therapeutic strategies and better understanding of diseases. This paper exploits Doppler radar and nonlinear phase demodulation effect to achieve noncontact measurement of both displacements and frequencies of a laboratory rat’s cardiorespiratory activities. The implementation of displacement acquisition method relying on demodulation-generated harmonics is described, and this paper provides a guideline of implementing the acquisition method. Demodulation-generated harmonics are analyzed, and the effect of vibration-generated harmonics is studied. To demonstrate the effectiveness, a 60-GHz radar is used that shows good correlation with the instrument-recorded data. Average errors of respiration rate and heart rate (HR) are 0.057% and 0.33%, respectively, using three test subjects. In addition, two drug tests are performed to verify the monitoring function with controlled raised/dropped HR. By observing the time periods before, during, and after drug injection, results of rat’s physiological response to drugs reveal the drug efficacy and body reaction over time. The measured cardiorespiratory variations can provide useful information without using implant devices, and the implementation could be an improvement over current invasive methods. The result presented in this paper is believed to be the first reported simultaneous measurements of both frequencies and displacements of both respiration and heartbeat movements of a laboratory animal using microwave radar.
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    Radius Correction Technique for Doppler Radar Noncontact Periodic Displacement Measurement (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-02-11
    Description: Noncontact physiological monitoring using Doppler radar has been studied extensively. Most commonly, continuous-wave (CW) quadrature Doppler radar is used to measure cardiopulmonary rates. Accurate displacement measurement can provide physiological waveform recovery, which may enable tidal volume and pulse pressure estimation. In this paper, we propose a calibration technique that enables high-accuracy millimeter-order periodic displacement measurements using CW quadrature Doppler radar. Theoretical analysis of center estimation error and its propagation effect are presented. Simulations are performed to show how noise and limited arc length affect error and affect the accuracy of center estimation, as well as improvements after calibration. A high-precision linear stage was employed to create periodic motion for evaluating the performance of calibration technique. Experimental results demonstrate that the proposed calibration technique enables displacement measurement with accuracy within tens of micrometers.
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    Optimized MIMO-SAR Technique for Fast EM-Imaging of Chipless RFID System (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-02-11
    Description: Spatial diversity cross-polar approach to fast electromagnetic imaging of millimeter-wave chipless radio-frequency identification (RFID) tags is proposed. Slow imaging in the synthetic aperture radar (SAR) technique due to the moving reader antenna is replaced by a stationary multiple-input multiple-output (MIMO) array antenna. The proposed MIMO technique requires a large number of antenna elements, which impedes practical implementation of the reader. An optimized MIMO system through a genetic algorithm halves the number of antenna elements and successfully replaces the conventional SAR. The optimized antenna system combines with the original spatial diversity approach to provide a low-cost solution for chipless RFID tagging with enhanced content capacity. The system successfully decodes a 60-GHz 17-b chipless tag in an area that is one fifth of a credit card. The tag can be printed with a low-resolution printer and read on metal and liquid containers.
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    Laplacian Eigenmaps From Sparse, Noisy Similarity Measurements (2017)
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    Publication Date: 2017-02-11
    Description: Manifold learning and dimensionality reduction techniques are ubiquitous in science and engineering, but can be computationally expensive procedures when applied to large datasets or when similarities are expensive to compute. To date, little work has been done to investigate the tradeoff between computational resources and the quality of learned representations. We present both theoretical and experimental explorations of this question. In particular, we consider Laplacian eigenmaps embeddings based on a kernel matrix, and explore how the embeddings behave when this kernel matrix is corrupted by occlusion and noise. Our main theoretical result shows that under modest noise and occlusion assumptions, we can (with high probability) recover a good approximation to the Laplacian eigenmaps embedding based on the uncorrupted kernel matrix. Our results also show how regularization can aid this approximation. Experimentally, we explore the effects of noise and occlusion on Laplacian eigenmaps embeddings of two real-world datasets, one from speech processing and one from neuroscience, as well as a synthetic dataset.
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    Generation of Frequency-Multiplied and Phase-Coded Signal Using an Optical Polarization Division Multiplexing Modulator (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-02-11
    Description: A novel method to generate frequency-multiplied and phase-coded microwave signals based on a polarization division multiplexing (PDM) dual-arm Mach–Zehnder modulator (DMZM) or a PDM dual-parallel MZM (DPMZM) is proposed. In the proposed scheme, the PDM-DMZM or PDM-DPMZM is employed to produce two orthogonally polarized wavelengths with a wavelength spacing that is two, four, or eight times of the driving frequency. Then the signal is sent into a polarization modulator-based microwave photonic phase coder for phase coding. A theoretical analysis and an experiment are carried out. Phase-coded signals with frequency multiplication factors of two, four and eight are successfully generated. The bandwidth of the system is discussed, and the impact of the polarization extinction ratio is also analyzed.
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    High Dimensional Low Rank Plus Sparse Matrix Decomposition (2017)
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    Publication Date: 2017-02-11
    Description: This paper is concerned with the problem of low-rank plus sparse matrix decomposition for big data. Conventional algorithms for matrix decomposition use the entire data to extract the low-rank and sparse components, and are based on optimization problems with complexity that scales with the dimension of the data, which limits their scalability. Furthermore, existing randomized approaches mostly rely on uniform random sampling, which is quite inefficient for many real world data matrices that exhibit additional structures (e.g., clustering). In this paper, a scalable subspace-pursuit approach that transforms the decomposition problem to a subspace learning problem is proposed. The decomposition is carried out by using a small data sketch formed from sampled columns/rows. Even when the data are sampled uniformly at random, it is shown that the sufficient number of sampled columns/rows is roughly $mathcal {O}(r mu)$ , where $mu$ is the coherency parameter and $r$ is the rank of the low-rank component. In addition, adaptive sampling algorithms are proposed to address the problem of columns/rows sampling from structured data. We provide an analysis of the proposed method with adaptive sampling and show that adaptive sampling makes the required number of sampled columns/rows invariant to the distribution of the data. The proposed approach is amenable to online implementation and an online scheme is proposed.
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    An Exact and Fast Computation of Discrete Fourier Transform for Polar and Spherical Grid (2017)
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    Publication Date: 2017-02-11
    Description: Numerous applied problems of two-dimensional (2-D) and 3-D imaging are formulated in continuous domain. They place great emphasis on obtaining and manipulating the Fourier transform in polar and spherical coordinates. However, the translation of continuum ideas with the discrete sampled data on a Cartesian grid is problematic. There exists no exact and fast solution to the problem of obtaining discrete Fourier transform for polar and spherical grids in the literature. In this paper, we develop exact algorithms to the above problem for 2-D and 3-D, which involve only 1-D equispaced fast Fourier transform with no interpolation or approximation at any stage. The result of the proposed approach leads to a fast solution with very high accuracy. We describe the computational procedure to obtain the solution in both 2-D and 3-D, which includes fast forward and inverse transforms. We find the nested multilevel matrix structure of the inverse process, and we propose a hybrid grid and use a preconditioned conjugate gradient method that exhibits a drastic improvement in the condition number.
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    Recovery of Sparse Signals Using Multiple Orthogonal Least Squares (2017)
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    Publication Date: 2017-02-11
    Description: Sparse recovery aims to reconstruct sparse signals from compressed linear measurements. In this paper, we propose a sparse recovery algorithm called multiple orthogonal least squares (MOLS), which extends the well-known orthogonal least squares (OLS) algorithm by allowing multiple $L$ indices to be selected per iteration. Owing to its ability to catch multiple support indices in each selection, MOLS often converges in fewer iterations and hence improves the computational efficiency over the conventional OLS algorithm. Theoretical analysis shows that MOLS ( $L > 1$ ) performs exact recovery of $K$ -sparse signals ( $K > 1$ ) in at most $K$ iterations, provided that the sensing matrix obeys the restricted isometry property with isometry constant $delta _{LK} 〈 {sqrt{L}}/({sqrt{K} + 2 sqrt{L}}).$ When $L = 1,$ MOLS reduces to the conventional OLS algorithm and our analysis shows that exact recovery is guaranteed under $delta_{K +1} 〈 1 / (sqrt{K} + 2)$ . This condition is nearly optimal with respect to $delta _{K+1}$ in the sense that, even with a small relaxation (e.g., $delta_{K + 1} = 1 / sqrt{K}$ ), exact recovery with OLS may not be guaranteed. The recovery performance of MOLS in the noisy sce- ario is also studied. It is shown that stable recovery of sparse signals can be achieved with the MOLS algorithm when the signal-to-noise ratio scales linearly with the sparsity level of input signals.
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    Signal Processing on Graphs: Causal Modeling of Un structured Data (2017)
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    Publication Date: 2017-02-11
    Description: Many applications collect a large number of time series, for example, the financial data of companies quoted in a stock exchange, the health care data of all patients that visit the emergency room of a hospital, or the temperature sequences continuously measured by weather stations across the US. These data are often referred to as un structured. The first task in its analytics is to derive a low dimensional representation, a graph or discrete manifold, that describes well the inter relations among the time series and their intra relations across time. This paper presents a computationally tractable algorithm for estimating this graph that structures the data. The resulting graph is directed and weighted, possibly capturing causal relations, not just reciprocal correlations as in many existing approaches in the literature. A convergence analysis is carried out. The algorithm is demonstrated on random graph datasets and real network time series datasets, and its performance is compared to that of related methods. The adjacency matrices estimated with the new method are close to the true graph in the simulated data and consistent with prior physical knowledge in the real dataset tested.
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    On Demodulation, Ridge Detection, and Synchrosqueezing for Multicomponent Signals (2017)
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    Publication Date: 2017-02-11
    Description: In this paper, we present a novel technique for the retrieval of the modes of a multicomponent signal using a time-frequency (TF) representation of the signal. Our approach is based on a novel ridge extraction method that takes into account the fact that the TF representation is both discrete in time and frequency, followed by a demodulation procedure. Numerical results show the benefits of the proposed approach for mode reconstruction in comparison to similar techniques that do not make use of demodulation. Furthermore, numerical investigations show that the proposed approach sharpens the TF representation on which it is built.
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    Scalable Solvers of Random Quadratic Equations via Stochastic Truncated Amplitude Flow (2017)
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    Publication Date: 2017-02-11
    Description: A novel approach termed stochastic truncated amplitude flow (STAF) is developed to reconstruct an unknown $n$ -dimensional real-/complex-valued signal $boldsymbol {x}$ from $m$ “phaseless” quadratic equations of the form $psi _i=|langle boldsymbol {a}_i,boldsymbol {x}rangle |$ . This problem, also known as phase retrieval from magnitude-only information, is NP-hard in general. Adopting an amplitude-based nonconvex formulation, STAF leads to an iterative solver comprising two stages: s1) Orthogonality-promoting initialization through a stochastic variance reduced gradient algorithm; and, s2) a series of iterative refinements of the initialization using stochastic truncated gradient iterations. Both stages involve a single equation per iteration, thus rendering STAF a simple, scalable, and fast approach amenable to large-scale implementations that are useful when $n$ is large. When $lbrace boldsymbol {a}_irbrace _{i=1}^m$ are independent Gaussian, STAF provably recovers exactly any $boldsymbol {x}in mathbb{R}^n$ exponentially fast based on order of $n$ quadratic equations. STAF is also robust in the presence of additive noise of bounded support. Simulated tests involving real Gaussian $lbrace boldsymbol {a}_irbrace$ vectors demonstrate th- t STAF empirically reconstructs any $boldsymbol {x}in mathbb{R}^n$ exactly from about $2.3n$ magnitude-only measurements, outperforming state-of-the-art approaches and narrowing the gap from the information-theoretic number of equations $m=2n-1$ . Extensive experiments using synthetic data and real images corroborate markedly improved performance of STAF over existing alternatives.
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    On Rate Requirements for Achieving the Centralized Performance in Distributed Estimation (2017)
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    Publication Date: 2017-02-11
    Description: We consider a distributed parameter estimation problem, in which multiple terminals send messages related to their local observations using limited rates to a fusion center which obtains an estimate of a parameter related to the observations of all terminals. It is well known that if the transmission rates are in the Slepian–Wolf region, the fusion center can fully recover all observations and hence can construct an estimator having the same performance as that of the centralized case. One natural question is whether Slepian–Wolf rates are necessary to achieve the same estimation performance as that of the centralized case. In this paper, we show that the answer to this question is negative. We establish our result by explicitly constructing an asymptotically minimum variance unbiased estimator that has the same performance as that of the optimal estimator in the centralized case while using information rates less than the conditions required in the Slepian–Wolf rate region. The key idea is that, instead of aiming to recover the observations at the fusion center, we design universal schemes enabling the fusion center to compute a sufficient statistic using rates outside of the Selpian–Wolf region.
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    Low Complexity Residual Doppler Shift Estimation for Underwater Acoustic Multicarrier Communication (2017)
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    Publication Date: 2017-02-11
    Description: We propose two computationally efficient residual Doppler shift estimation methods for underwater acoustic multicarrier communication. The first method is based on computing the phase of the root of a low order polynomial. The second method is a closed-form least squares estimate given the unwrapped phases of the minimal eigenvector of a small data matrix. The complexities of both estimates are significantly lower compared to the methods commonly used in underwater acoustic multicarrier communication, which result in nonlinear least squares estimators and thus require a fine grid search in the frequency domain. Numerical simulations show that the mean square errors of the proposed methods have similar performance as the common estimation techniques, achieve the Cramer–Rao lower bounds at low noise levels, and agree with their theoretically derived variances. Pool experiments and sea trial results further demonstrate that the suggested estimates yield similar results as the common nonlinear least squares estimates but at a lower complexity.
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    A Study of Periodograms Standardized Using Training Datasets and Application to Exoplanet Detection (2017)
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    Publication Date: 2017-02-11
    Description: When the noise affecting time series is colored with unknown statistics, a difficulty for sinusoid detection is to control the true significance level of the test outcome. This paper investigates the possibility of using training datasets of the noise to improve this control. Specifically, we analyze the performances of various detectors applied to periodograms standardized using training datasets. Emphasis is put on sparse detection in the Fourier domain and on the limitation posed by the necessarily finite size of the training sets available in practice. We study the resulting false alarm and detection rates and show that standardization leads, in some cases, to powerful constant false alarm rate tests. The study is both analytical and numerical. Although analytical results are derived in an asymptotic regime, numerical results show that theory accurately describes the tests’ behavior for moderately large sample sizes. Throughout the paper, an application of the considered periodogram standardization is presented for exoplanet detection in radial velocity data.
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    Antenna Integrated THz Uni-Traveling Carrier Photodiodes (2017)
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    Publication Date: 2017-08-12
    Description: High-speed photodiodes are a key element of numerous photonic systems. With the development of potential applications in the THz range such as sensing, spectroscopy, and wireless transmission, devices with integrated antenna covering the frequency range from 0.1 to 3 THz will become essential. In this paper, we discuss the development of uni-traveling carrier photodiodes with integrated antennas to address that need. In particular we develop the key elements to present a simple design tool for the efficient integration of the device with an antenna. We also present fabricated device results that show the highest figure of merit to date for photonic THz emitters. When integrated with well-matched antennas the devices have achieved record level of power up to 1 THz compared to other published photomixers. We also show that these devices can be used as receivers at frequencies up to 560 GHz with conversion losses of the order of 30 dB.
    Print ISSN: 1077-260X
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    Table of Contents (2017)
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    Publication Date: 2017-08-12
    Description: Presents the table of contents for this issue of the publication.
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    Electronic ISSN: 1557-9581
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    Feast or Famine [From the Editor's Desk] (2017)
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    Publication Date: 2017-08-12
    Description: Presents the introductory editorial for this issue of the publication.
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    0.3 V 2.5 nW per Channel Current-Mode CMOS Perceptron for Biomedical Signal Processing in Amperometry (2017)
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    Publication Date: 2017-08-12
    Description: This paper describes an implementation of a preprocessor with a perceptron for applications in amperometry. The perceptron operates in the current mode, in the weak-inversion area and makes it possible to process analog current signals with values below 1 nA. This paper presents an axon structure consisting of six transistors and a programmable dendrite with a fully digital interface implementing weights with an accuracy of 0.13%. The perceptron implemented in the 65-nm CMOS technology is characterized by a power consumption of 2.5 nW per channel. The data processing frequency of the perceptron equals 1k samples/s. The structure of the preprocessor makes it possible to implement it using a standard digital CMOS technology. The operation of the preprocessor was discussed using an example of a current signal monitor recognizing specified events. This paper discusses the perceptron sensitivity to the dispersion of the supply voltage and operating temperature.
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    Ultrasonic Tomography System for Flow Monitoring: A Review (2017)
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    Description: Despite decades of research, the study into the application of ultrasonic sensors in process tomography continues to be a subject of significant scientific interest. In this paper, we present a contemporary review of ultrasonic tomography (UT) systems for the application of liquid–gas multiphase flow. The evolution of this topic over the years and an overview of the UT system, measurement strategies, data acquisition, and image reconstruction techniques are described.
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    Acetone Biosensor Based on Fluorometry of Reduced Nicotinamide Adenine Dinucleotide Consumption in Reversible Reaction by Secondary Alcohol Dehydrogenase (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-08-12
    Description: A concentration of acetone in blood and urine can be used as a potential biomarker for clinical diagnosis such as diabetes mellitus type 1. In this paper, a fiber-optic biosensor exploiting consumption of nicotinamide adenine dinucleotide (NADH) was developed for determination of acetone concentration in an aqueous solution. An optical system for the biosensor was constructed with an ultraviolet-light emitting diode excitation system, a photomultiplier tube and an optical fiber probe. The biosensor was fabricated by attaching a membrane, where NADH-dependent secondary alcohol dehydrogenase (S-ADH) was immobilized to the fiber probe. Measurement of the acetone concentration was carried out by immersing the sensor probe in phosphate buffer solution, which contained a coenzyme, NADH. NADH was consumed by the enzymatic reaction with S-ADH, and the consumption was proportional to the acetone concentration. Fluorescence light emitted from NADH was then guided to the photomultiplier tube. Effect of the buffer pH and NADH concentration to the sensor performance, and the selectivity to acetone were also evaluated. As a result, the fluorescence intensity decreased as the acetone concentration increased. A relation between the change of fluorescence intensity and the acetone concentration was found from 0.2 to $50~\mu $ mol/L using decrease phenomena of NADH fluorescence for determination of the acetone concentration. The highly sensitive and selective acetone biosensor is the potential tool for diagnosis of diabetes in near future.
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    Low-Cost Highly Sensitive Refractive Index Measurement Based on Deep Frequency Modulation Interferometry (2017)
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    Publication Date: 2017-08-12
    Description: A novel low-cost technique for refractive index (RI) measurement is proposed and experimentally demonstrated based on the concept of deep frequency modulation (DFM). By omitting electro-optic modulator from conventional DFM, the frequency modulation is realized by direct current modulation of a laser diode which leads to cost reduction. The flicker noise effect on the DFM performance, which is considered as a major obstacle of homodyne detection, has been considered in our numerical analysis; hence, a realistic analysis of the results is presented. Hereby, a modification in the DFM signal processing has been suggested to mitigate the flicker noise effect. Through proper selection of higher harmonics of the wideband detected DFM signal, the normalized error can be reduced more than 10 dB. We have implemented this method for a Michelson interferometer to measure RI of an aqueous solution. An interference signal is formed on the photodetector, which is then processed to measure RI by estimating the optical path length difference between the two interferometer arms. It is shown that this setup provides a resolution of better than $2.1 \times {10^{-5}}$ in RI unit. The proposed cost-effective measurement technique can be readily integrated in applications, where high precision real-time measurements over a wide measurement range are required.
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    Voltammetric Chloride Sensing Based on Trace-Level Mercury Impregnation Into Amine-Functionalized Carbon Nanoparticle Films (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-08-12
    Description: A voltammetric sensor for the determination of chloride ions is proposed. At trace level, Hg(II) ions (ca. $15 \times 10^{-12}$ mol or only approximately 3 Hg 2+ cations per carbon nanoparticle) are adsorbed at the surface of amine-functionalized carbon nanoparticles in a film supported on a glassy carbon electrode. With this redox-active film, voltammetric chloride determination is possible without loss of mercury/signal in repeatable measurements and over a very wide chloride concentration range. The sensor mechanism is based on the shift of the voltammetric peak potential for the Hg/Hg 2 Cl 2 redox transformation in the presence of chloride anions. Only trace-level mercury is employed, so that problems associated with traditional bulk mercury electrodes are not encountered. Differential pulse voltammograms were recorded over a wide range of chloride concentrations resulting in two regimes (from $5 \times 10^{-5}$ to 1 M and from 1 to 3 M) with linear peak potential shift with a chloride concentration of −63.2 ± 0.09 mV/pCl and −109.1 ± 0.4 mV/pCl, respectively (at 25 °C). The sensor performance is promising in real samples, such as lake water, sea water, and table salt.
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    Noise Cancelation? Explained!: The Role of Feedback in Noise-Canceling LNAs and Receivers (2017)
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    Publication Date: 2017-08-12
    Description: Inductorless wide-band low-noise amplifiers (LNAs) usually suffer from poor noise performance, mainly due to the high noise contribution of the matching device. Noise canceling (NC) is a technique used in wide-band LNAs [1]-[13] to nullify the noise contribution of the matching device at the output. NC techniques are often explained with the help of the block diagram shown in Figure 1(a), where the input signal from a source of internal impedance Rs is simultaneously fed to a matching amplifier and a voltage sensing amplifier.
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    Considering Backhaul [Book\Software Reviews] (2017)
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    Publication Date: 2017-08-12
    Description: This book offers a comprehensive guide to the subject of microwave backhaul. Design information on this subject is sparse, and it is not easy to collect and interpret. This fact was the driving force behind the creation of this book, which focuses on the electronics of backhaul and describes in detail all the subsystems responsible for transforming the information signal that comes from baseband processing into an electromagnetic wave traveling through the air. Electronics for Microwave Backhaul presents an overview of the evolution of the electronics for microwave radios, from their initial development to present implementations and future trends. The authors have stayed abreast of current real-world industry products and present many real-world solutions to the design issues.
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    The First IEEE MTT-S Latin America Microwave Conference [Conference Report] (2017)
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    Publication Date: 2017-08-12
    Description: Presents information on the First IEEE MTT-S Latin America Microwave Conference.
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    Investigating Applications in Health Care [Book\Software Reviews] (2017)
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    Publication Date: 2017-08-12
    Description: This book explains the multiple directions in which RF/microwave technologies are heading toward healthcare and biosensing applications, the achievements that have been made so far, and the challenges for researchers to solve in the near future. It consists of seven chapters by 15 authors, many of whom are active on the IEEE Microwave Theory and Techniques Society (MTT-S) Technical Coordinating Committee MTT-10, Biological Effects and Medical Applications. Apart from the first two chapters (which are tutorials on microwave technology and the dielectric properties of tissue), the book consists of five chapters that review different applications of RF/microwave energy to health care and biosensing. This book provides essential theories and solutions for the transmitter and receiver hardware block. The solutions offered are very practical for a circuit system designer. Whether the particular applications of RF/microwaves discussed in this volume will ever pass muster and enter the realm of evidence-based medicine remains to be seen. In their focus on the nuts and bolts of engineering, the authors of this otherwise meritorious volume are telling only a small part of the story about developing medical technology.
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    11th?IEEE UAE Student Day Hosted by Al Ain University [Around the Globe] (2017)
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    Publication Date: 2017-08-12
    Description: Presents information on the 11th IEEE UAE Student Day.
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    IEEE Technical Talk at Al Ain University [Around the Globe] (2017)
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    Description: On 1 June 2016, the College of Engineering at Al Ain University of Science and Technology (AAU), in conjunction with the Joint Chapter of the UAE IEEE Microwave Theory and Techniques Society and IEEE Instrumentation and Measurement Society along with the IEEE AAU student branch, organized a technical talk, "The Engineering of the Human Joint: Advances in Orthopedics Research and Computer Navigation" presented by Dr. Farid Amirouche of the University of Illinois at Chicago, United States.
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    RFIC 2018 Paper Submission (2017)
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    Description: Describes the above-named upcoming conference event. May include topics to be covered or calls for papers.
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    IMS 2018 Call for Papers (2017)
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    Description: Describes the above-named upcoming conference event. May include topics to be covered or calls for papers.
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    [MTT-S Ombuds Officer] (2017)
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    Description: Presents remarks from the MTTS Ombudsman.
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    RFIC 2018 (2017)
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    Description: Describes the above-named upcoming conference event. May include topics to be covered or calls for papers.
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    IEEE Administrative Meeting and Technical Talk in Abu Dhabi [Around the Globe] (2017)
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    Description: Presents information on the IEEE Administrative Meeting and Technical Talk in Abu Dhabi.
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    Analysis of Statistical Time-Domain Features Effectiveness in Identification of Bearing Faults From Vibration Signal (2017)
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    Publication Date: 2017-08-12
    Description: The frequency of rolling element failures in induction motor is high and may lead to losses due to sudden downtime of machine. Researchers are fervent to identify an effective fault diagnosing scheme with less computational burden using optimum number of good discriminating features. We attempted time domain features, namely, waveform length (WL), slope sign changes (SSC), simple sign integral and Wilson amplitude for the first time in addition to established mean absolute value and zero crossing (ZC) for identification of mechanical faults of induction motor. Ten data sets are derived from publicly available vibration database of Case Western Reserve University to identify the capability of features in identification of faults under various conditions. The results are compared with six conventional features for tenfold cross validation using linear discriminant analysis, naive Bayes, and support vector machine classifiers. The results have shown that WL, WAMP, ZC, and SSC outperform other features. Furthermore, area under receiver operator characteristics curve analyses showed an average of 0.9987 with the proposed statistical features and 0.97618 with six conventional features. We also attempted to study the effect of data length and percentage of overlap in classification and found accuracy improves with increase in length but not significant beyond the window length of 3000 with 50% overlap. The proposed statistical features are validated using the brute force method and Laplaician method of feature selection and shown an average accuracy rate of 0.9936 and 0.9894, respectively.
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    An SC Interface With Programmable-Gain Embedded $\Delta \Sigma $ ADC for Monolithic Three-Axis 3-D Stacked Capacitive MEMS Accelerometer (2017)
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    Description: This paper presents a switched capacitor interface circuit for a monolithic three-axis capacitive micro-electro-mechanical system (MEMS) accelerometer. The MEMS sensor and the interface circuit of our system-in-package-type MEMS accelerometer are 3-D stacked to optimize integration density with a small package footprint. The proposed fully integrated interface circuit includes a capacitance-to-voltage converter followed by a $\Delta \Sigma $ analog-to-digital converter (ADC). To optimize system power and area, the programmable-gain functionality is embedded to the second-order $\Delta \Sigma $ ADC without any stability degradation. The offset and 1/ $f$ noise of the fully differential interface circuit are mitigated by a correlated double sampling technique. The rest of the low-frequency error from system mismatch is also suppressed by calibration using fine metal-oxide–semiconductor capacitor array. The measurement results of our MEMS accelerometer show a 13.7-b maximum effective resolution with the 197- $\mu \text{g}$ / $\surd $ Hz noise floor in a conversion time of 1 ms with a maximum nonlinearity of 1.09%. Implemented in a standard 0.18- $\mu \text{m}$ CMOS technology, the fabricated chip consumes only 247- $\mu \text{A}$ current from a 3.3-V supply, and 37- $\mu \text{A}$ current from a 1.8-V supply.
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    Smart Sensory Furniture Based on WSN for Ambient Assisted Living (2017)
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    Description: Ubiquitous computing has been defined as “machines that fit the human environment instead of forcing humans to enter theirs.” An example of this type of approach is “Smart Sensory Furniture” (SSF) Project. SSF is an ambient assisted living system that allows inferring a potential dangerous action of an elderly person living alone at home. This inference is obtained by a specific sensory layer with sensor nodes fixed into furniture and a reasoning layer embedded in a PC that learns from the users’ behavioral patterns and advices when the system detects unusual patterns. This paper aims to explain the SSF sensory layer, which is a distributed signal processing system in a network of sensing objects massively distributed, physically coupled, wirelessly networked, and energy limited. A complete set of experimental test has been carried out. The results show the level of accuracy for each type of sensors and potential use. Finally, the power consumption was experimentally measured and the results show the low maintenance requirements of this solution. The complete system design is described and discussed, including the node mesh details, as well as the type of sensors and actuators and other aspects, such as integration issues and solutions.
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    Crack Evaluation Based on Novel Circle-Ferrite Induction Thermography (2017)
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    Publication Date: 2017-08-12
    Description: Nondestructive inspection of rolling contact and stress corrosion cracks is a critical important research area in both science and technology industry to evaluate the properties of a product. This paper proposes a novel system of circle-ferrite pulsed inductive thermography for cracks inspection. The new sensing structure consists of several promising characteristics. It significantly enhances the detectability of omnidirectional micro cracks, and provides larger detection area with non-geometry influence. In addition, unlike common inductor, the proposed structure imposes uniform toroidal electromagnetic thermal fields, so that both sensitivities of detection rate and the detectable area can be simultaneously improved. This overcomes the problem of in-homogenous heating, and increases the thermal contrast between directional defective and non-defective region. The theoretical derivation based on magnetic circuit principles has been developed for analysis and interpretation of the results. In addition, both simulation experiments and tests on artificial and nature cracks sample have been conducted to show the reliability and efficiency of the proposed system.
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    Simultaneously Capturing Electrocardiography and Impedance Plethysmogram Signals From Human Feet by Capacitive Coupled Electrode System (2017)
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    Description: A microprocessor measurement system is developed for simultaneously capturing electrocardiography (ECG) and impedance plethysmogram (IPG) signals. All the measurement electrodes are coupled with human skin in a non-contact capacitive way. A capacitive coupled pickup circuit is used for obtaining the original ECG and IPG signals. Three differences of electrode configurations are experimentally tested for picking up the ECG signals, i.e., from the plantar area of the feet, from the instep area of the feet, and from a single hand and a single foot. Two different configurations (i.e., two-electrode IPG and four-electrode IPG) are tested to get IPG signals. A singular spectrum analysis (SSA)-based algorithm is embedded in a microprocessor system for signal processing. It is found that the original signals, especially the IPG signals, are quite noisy and can only be used after SSA processing. When both the ECG and IPG signals are measured simultaneously, the ECG signal will be severely ruined by the interference from the excitation current signal of IPG measurement. Relatively satisfied signals can only be simultaneously obtained when one ECG electrode is placed in a hand. The time difference between the ECG R-peak and IPG C-peak (the peak point in IPG) is experimentally tested for its potential application in blood pressure measurement.
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    Pedestrian Detection Strategy in Urban Area: Capacitance Probes and Pedestrians’ Signature (2017)
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    Publication Date: 2017-08-12
    Description: Every year, lives of millions of people are cut short or considerably affected by road accidents. Most of them happen in urban areas where the speed limit is supposed to be below $50~km/h$ . Active protection devices (such as airbags) attached at the front of the vehicle can help reduce the severity of injuries inflicted in such circumstances. However, the effectiveness of such strategies depends greatly on how well we can anticipate the impact moment of the accident. The physical principle of capacitive coupling can be used to anticipate the impact by detecting the intrusion of the pedestrian in the detection volume of the probe. However, any intrusion into the sensing volume of probe can increase its capacitance like dust deposits on the surface of the capacitive probe, the variation of the air humidity, the air friction on the car’s body, which makes the common voltage float among others that influence the capacitance of the probe and make the voltage carried by the probe vary over time. To overcome this problem, we define the concept of “pedestrian signature.” This concept can help us distinguish the presence of a pedestrian in the sensing volume of the probe from any other perturbations. Thus, we can anticipate the moment of impact early enough to trigger protection systems. The analog electronic device, we present in this paper, along with the pedestrian signature can help trigger protection devices to react at the right moment. The same device can also be used as parking aid when the vehicle speed is less than $10~km/h$ .
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    A Stretchable Multimodal Sensor for Soft Robotic Applications (2017)
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    Description: This paper presents the design, fabrication, and characterization of a multimodal sensor with integrated stretchable meandered interconnects for uniaxial strain, pressure, and uniaxial shear stress measurements. It is designed based on a capacitive sensing principle for embedded deformable sensing applications. A photolithographic process is used along with laser machining and sheet metal forming technique to pattern sensor elements together with stretchable grid-based interconnects on a thin sheet of copper polyimide laminate as a base material in a single process. The structure is embedded in a soft stretchable Ecoflex and PDMS silicon rubber encapsulation. The strain, pressure, and shear stress sensors are characterized up to 9%, 25 kPa, and ±11 kPa of maximum loading, respectively. The strain sensor exhibits an almost linear response to stretching with an average sensitivity of −28.9 fF% −1 . The pressure sensor, however, shows a nonlinear and significant hysteresis characteristic due to nonlinear and viscoelastic property of the silicon rubber encapsulation. An average best-fit straight line sensitivity of 30.9 fFkPa −1 was recorded. The sensitivity of shear stress sensor is found to be 8.1 fFkPa −1 . The three sensing elements also demonstrate a good cross-sensitivity performance of 3.1% on average. This paper proves that a common flexible printed circuit board (PCB) base material could be transformed into stretchable circuits with integrated multimodal sensor using established PCB fabrication technique, laser machining, and sheet metal forming method.
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    Long-Range Battery-Free UHF RFID With a Single Wire Transmission Line (2017)
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    Description: We present a long-range passive (battery-free) radio frequency identification (RFID) and distributed sensing system using a single wire transmission line (SWTL) as the communication channel. A SWTL exploits guided surface wave propagation along a single conductor, which can be formed from existing infrastructure, such as power lines, pipes, or steel cables. Guided propagation along a SWTL has far lower losses than a comparable over-the-air (OTA) communication link; so much longer read distances can be achieved compared with the conventional OTA RFID system. In a laboratory-scale experiment with an ISO18000–6C (EPC Gen 2) passive tag, we demonstrate an RFID system using an 8 mm diameter, 5.2 m long SWTL. This SWTL has 30 dB lower propagation loss than a standard OTA RFID system at the same read range. We further demonstrate that the SWTL can tolerate extreme temperatures far beyond the capabilities of coaxial cable, by heating an operating SWTL conductor with a propane torch having a temperature of nearly 2000 °C. Extrapolation from the measured results suggest that a SWTL-based RFID system is capable of read ranges of over 70 m assuming a reader output power of +32.5 dBm and a tag power-up threshold of −7 dBm.
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    Unobtrusive Monitoring to Detect Depression for Elderly With Chronic Illnesses (2017)
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    Publication Date: 2017-08-12
    Description: Mental health related disorders are common diseases, especially among the elder. Among the various mental health diseases, one potential threat to ageing-in-place is the risk of depression. In this paper, we propose a simple unobtrusive sensing system using passive infra-red motion sensors to monitor the activities of daily living of elderly, who are living alone. A feature extraction module comprising of three layers-states, events, and activities, and the corresponding algorithms are proposed to extract features. Four popular classification models-neural network, C4.5 decision tree, Bayesian network, and support vector machine are then applied to detect the severity of depression. We implement and test the algorithms on sensor data collected over three months from 20 elderly, each in different daily living conditions. Our evaluation shows that the proposed algorithms are effective in detecting both normal condition and mild depression with up to 96% accuracy, using neural network as the classification algorithm. The sensing system is non-intrusive and cost-effective, with the potential of use for long-term depression monitoring and detection of early symptoms of mental related disorders. This enables caregivers to provide timely interventions to elderly, who are at risk of depression.
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    People Counting Based on an IR-UWB Radar Sensor (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-08-12
    Description: In this paper, we propose a people counting algorithm using an impulse radio ultra-wideband radar sensor. The proposed algorithm is based on a strategy of understanding the pattern of the received signal according to the number of people, not detecting each of a large number of people in the radar’s received signal. To understand the pattern of the signal, we detect the major clusters from the signal and find the amplitudes of main pulses having the maximum amplitude among the pulses constituting each cluster. We generate a probability density function of the amplitudes of the main pulses from the major clusters according to the number of people and distances. Then, we derive maximum likelihood (ML) equation for people counting. Using the derived ML equation, real-time people counting is possible with a small amount of computation. In addition, since the proposed algorithm does not detect individual clusters for each person but based on the overall cluster behavior of the signals according to the number of people, it enables people counting even in a dense multipath environment, such as a metal-rich environment. In order to prove that the proposed algorithm can be operated in real time in various environments, we performed experiments in an indoor environment and an elevator with a metal structure. Experimental results show that people counting is performed with an mean absolute error of less than one person on average.
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    A Novel Fluorometric Bio-Sensing-Based Arsenic Detection System for Groundwater (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-08-12
    Description: Arsenic that adversely affects human health is frequently reported in certain regions in India and other parts of the world. A low cost, portable, and eco-friendly field test system is required to monitor the levels of arsenic in drinking water procured from different tube wells and open wells. This paper presents the construction of biosensor strain by transforming E. coliDH $5\alpha $ with the plasmid pJSKV51 carrying in-frame promoter operator region as well as entire arsR gene, part of arsD gene and enhanced green fluorescent protein (EGFP) gene. This strain was able to induce EGFP in presence of arsenic III ion. This paper further presents a novel EGFP-based bio-electronic sensing methodology to develop a low-cost battery operated system to measure the fluorescence emitted by biosensor strain and display the numerical values of the concentrations of arsenic in water samples. In this method, a blue light of 480 nm excites the EGFP to produce a green fluorescence signal in proportion to arsenic concentration. The developed device includes a compact embedded system to measure the signal fluorescence using light sensor, programmable controllers and liquid crystal display to show the corresponding concentration of the arsenic in ppb. The experimental results show that the system can detect and display over a range from 5 to 100 ppb.
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    FPGA-Based Implementation of Kalman Filter for Real-Time Estimation of Tire Velocity and Acceleration (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-08-12
    Description: Antilock braking systems require accurate vehicle speed and acceleration estimations from wheel speed sensors. Adaptive Kalman filtering is used to estimate wheel speed and acceleration for each wheel. Single core or multicore processor-based embedded systems perform the required estimation using a two-stage extended Kalman filter in many clock cycles, which limits Kalman filter speed and accuracy. In the proposed system, purely arithmetic operations used in the process are simplified and implemented as embedded logic to reduce the overhead delays and increase the update rate by 48%. The proposed system is run sequentially using finite-state machines, while a large number of multiplication and division operations are removed through rewiring and logic reuse. The simplifications not only reduce the amount of logic required to perform the operations by 39.7% but also use simple logic, which can run faster than the replaced logic on field-programmable gate array. The results presented show comparable root-mean-square wheel speed error with a high update rate of 20 MHz when running on a 50-MHz board in all scenarios. The system also provides accurate wheel acceleration estimation, which is crucial for many systems, including the reference system.
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    Transmission-Rate-Adaption Assisted Energy-Efficient Resource Allocation With QoS Support in WBANs (2017)
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    Publication Date: 2017-08-12
    Description: With the advances in wearable sensors and wireless technologies, wireless body area network (WBAN) has become a promising network to provide health applications, such as ubiquitous e-Health services and real-time health monitoring. In these WBANs, quality of service (QoS) requirements, including packet loss rate, throughput, and delay, need to be guaranteed for providing reliable and real-time data transmission even under highly dynamic environment due to human mobility and postures. Meanwhile, energy efficiency is another key factor to consider for increasing the network lifetime in such a resource-constrained network. In this paper, a transmission-rate-adaption assisted and energy-efficient resource allocation scheme is proposed in which both constraints of QoS metrics and the characteristics of dynamic links are considered. Specifically, a QoS optimization problem is formulated to optimize the transmission power and time slots for each sensor, which minimizes energy consumption subjected to the QoS constraints. Due to the dynamic link characteristics, the link quality may become poor, and then the QoS requirements of normal packets and emergency packets cannot be satisfied. Besides, the emergency packets should receive more attentions with a high priority and high QoS requirements. To guarantee the QoS requirements when the link is very poor, a transmission rate adaption policy is proposed to carefully adjust the transmission rate at each sensor to assist the QoS optimization problem, and a priority-based retransmission strategy is designed to apply the retransmission strategy to further improve the performances of the emergency packets with a high priority. Numerical results demonstrate the effectiveness of the QoS optimization problem, the proposed transmission rate adaption policy, and the priority-based retransmission strategy.
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    IEEE Sensor Journal cover/frontispiece competition (2017)
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    Publication Date: 2017-08-12
    Description: Presents information on the IEEE Sensor Journal cover/frontispiece competition.
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    Multivariate Autoregressive Spectrogram Modeling for Noisy Speech Recognition (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-08-12
    Description: The performance of an automatic speech recognition (ASR) system is highly degraded in the presence of noise and reverberation. The autoregressive (AR) modeling approach, which preserves the high energy regions of the signal that are less susceptible to noise, first, presents a potential method for robust feature extraction. Second, there are strong correlations in the spectrotemporal domain of the speech signal, which are generally absent in noise. In this letter, we propose a novel method for speech feature extraction, which combines the advantages of AR approach and joint time–frequency processing using the multivariate AR modeling (MAR). Specifically, the subband discrete cosine transform coefficients obtained from multiple speech bands are used in the MAR framework to derive the Riesz temporal envelopes that provide features for ASR. We perform several speech recognition experiments in the Aurora-4 database with clean and multicondition training. In these experiments, the proposed features provide significant improvements over other noise robust feature extraction methods (relative improvements of 24% in clean training and 14% in multicondition training over mel features). Furthermore, the speech recognition experiments in REVERB challenge database illustrates the extension of the MAR modeling method for suppressing reverberant artifacts.
    Print ISSN: 1070-9908
    Electronic ISSN: 1558-2361
    Topics: Electrical Engineering, Measurement and Control Technology
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    Generalized High-Precision Simulation for TT&C Channels Using B-Spline Signal Processing (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-08-12
    Description: Tracking, telemetry, and command (TT&C) channel simulators need to accurately simulate the satellite motion parameters and dynamic transmission delays in TT&C channels. In this letter, a generalized high-precision simulation method using B-spline interpolation and differentiation is proposed. It regenerates the motion parameters with a high sampling rate using only the available distance data with a low sampling rate, and delays the arbitrary band-limited TT&C signals by the transmission delay resulting from the obtained distance. A modified recursive filter structure is constructed to implement simultaneous B-spline interpolation and differentiation with low implementation complexity. Compared with conventional methods, the proposed approach simulates the motion parameters with higher precision and preserves their continuity.
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    Efficient and Robust Corner Detectors Based on Second-Order Difference of Contour (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-08-12
    Description: As one of the most significant local features of image, corner is widely used in many computer vision tasks. Corner detection aims to achieve the highest possible detection accuracy while minimizing the computational complexity. In this letter, we first introduce a new measurement termed as second-order difference of contour (SODC), and then examine its regular distribution, which is found to provide useful information to distinguish corners from noncorners. Based on the SODC distribution characteristics, we propose two novel corner detectors to measure the response of contour points using Manhattan distance and Euclidean distance, respectively. Numerical experiments demonstrate that the Manhattan detector greatly decreases the computational complexity, while the Euclidean detector outperforms the state-of-the-art corner detectors in terms of repeatability and localization error.
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    Robust Welding Seam Tracking and Recognition (2017)
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    Publication Date: 2017-08-12
    Description: In the process of automatic welding based on structured light vision, the precise localization of the welding seam in an image has an important influence on the quality of the welding. However, in practice, there is much interference, such as spatter and arc, which introduces great challenges for accurate welding seam localization. In this paper, we considered welding seam localization problem as visual target tracking and based on that, we proposed a robust welding seam tracking algorithm. Prior to the start of welding, the seam is separated using a cumulative gray frequency, which is utilized to adaptively determine the initial position and size of the search window. During the welding process, large seam motion range may result in only a portion of the welding seam exists in the search window. To prevent that, a tracking-by-detection method is used to calculate the location of the search window. Usually, the intersection of seam and noise, e.g., spatter, has a severe influence on the accuracy of feature points localization. In order to solve this problem, a sequence gravity method (SGM) for extracting a smoother center line of welding seam is proposed, which is able to reduce the impact of interference. The double-threshold recursive least square method is used to fit the curve obtained by SGM with the aim of improving the real-time performance and accuracy of the system. Finally, the superiority of the proposed algorithm is well demonstrated by comparison with other solutions for seam tracking and recognition through extensive experiments.
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    Exploiting Antenna Motion for Faster Initialization of Centimeter-Accurate GNSS Positioning With Low-Cost Antennas (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-08-12
    Description: This paper investigates the effectiveness of multipath-decorrelating antenna motion in reducing the initialization time of global navigation satellite system (GNSS) receivers employing low-cost single-frequency antennas for carrier-phase differential GNSS (CDGNSS) positioning. Fast initialization times with low-cost antennas will encourage the expansion of CDGNSS into the mass market, bringing the benefits of globally referenced centimeter-accurate positioning to many consumer applications, such as augmented reality and autonomous vehicles, that have so far been hampered by the several-meter-level errors of traditional GNSS positioning. Poor multipath suppression common to low-cost antennas results in large and strongly time-correlated phase errors when a receiver is static. Such errors can result in the CDGNSS initialization time, the so-called time to ambiguity resolution (TAR), extending to hundreds of seconds—many times longer than for higher cost survey-grade antennas, which have substantially better multipath suppression. This paper demonstrates that TAR can be significantly reduced through antenna motion, particularly gentle wavelength-scale random antenna motion. Such motion acts to decrease the correlation time of the multipath-induced phase errors. A priori knowledge of the motion profile is shown to further reduce TAR, with the reduction shown to be more pronounced as the initialization scenario is more challenging.
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    Table of Contents (2017)
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    Publication Date: 2017-08-12
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    Topics: Electrical Engineering, Measurement and Control Technology , Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics
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    Spacecraft Recognition in Co-Located Satellites Cluster Through Optical Measures (2017)
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    Publication Date: 2017-08-12
    Description: The optical orbit determination is one of the most important ways for noncooperative object tracking. One of the main problems with noncooperative object tracking is its recognition through different nights. In this study, the conditions that ensure the recognition of a geostationary satellite inside a cluster were assessed through a hard real case study. This study was developed through a three-phase approach. The first phase was the observation campaign for the images acquisition. The second phase was the image's astrometric reduction for the data collection and the third phase was the orbit determination and data analyses. To evaluate the recognition ability, the residuals between the celestial coordinates obtained from the propagated orbit, which was carried out from the fitting between first night data and the environment gravity model through a least squares approach, and the measures collected during the second night were assessed. This approach, which is totally independent from the satellite cooperation actions, can be extended to the space debris recognition during different nights.
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    Target Localization in Multistatic Passive Radar Using SVD Approach for Eliminating the Nuisance Parameters (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-08-12
    Description: In this paper, a weighted least squares (WLS) method is presented to find the location of a single target by the use of bistatic range (BR) measurements in multistatic passive radar. The proposed method is based on the idea of eliminating the nuisance parameter. Then, the method employs several WLS minimizations to obtain the target location estimate. The weighting matrix producing a significant improvement in the performance of the method is derived in two different conditions—one of them results in the maximum likelihood estimator (MLE) and the other one leads to the best linear unbiased estimator (BLUE). The accuracy properties of the method are analyzed, and the Cramer-Rao lower bound (CRLB) for target localization accuracy is also derived. In addition, in a two-dimensional space and in the case of localizing with one transmitter and the minimal number of receivers, the different placements of receivers are analytically determined, in each of which the location solution is not unique. Furthermore, from different aspects, the BR-based localization is compared to the hyperbolic localization derived from range difference (RD) measurements.
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    IEEE Aerospace and Electronic Systems Society (2017)
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    Publication Date: 2017-08-12
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    Modeling and Control of a Powered Parafoil in Wind and Rain Environments (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-08-12
    Description: A novel modeling method, based on computational fluid dynamics (CFD) to simulate a parafoil flying in rain and wind environments, is proposed. Then, the dynamic model of the powered parafoil in the complex environment is established on the basis of revised aerodynamic equations. By introducing path-following controllers based on active disturbance rejection control (ADRC), horizontal and longitude trajectory tracking of the powered parafoil in realistic environments are simulated. Results verify the effectiveness of the model and control methods.
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    Space-Time Coding for Aeronautical Telemetry: Part II—Decoder and System Performance (2017)
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    Publication Date: 2017-08-12
    Description: This paper describes the use of Alamouti-encoded-shaped offset QPSK version TG (SOQPSK-TG) to solve the two-antenna problem in aeronautical telemetry. The Alamouti space-time block code is used to encode the phase states in the complex exponential representation of SOQPSK-TG. Because SOQPSK-TG possesses memory, the Alamouti decoder is a sequence estimator. Maximum likelihood and least squares sequence decoders are derived. To reduce the number of states, the eight-waveform cross-correlated trellis-coded quadrature modulation (XTCQM) approximate representation of SOQPSK-TG is used. A prototype decoder based on the least squares decoder and the estimators described in Part I and operating at a data rate of 10 Mb/s was tested in the laboratory in test flights at the Air Force Test Center, Edwards AFB. The test flights demonstrate that Alamouti-encoded SOQPSK-TG, as described in this paper, using the least squares decoder based on the estimators described in Part I solves the two antenna problem in aeronautical telemetry.
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    Device-Free Localization via Dictionary Learning With Difference of Convex Programming (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-08-12
    Description: In this paper, we consider a method to solve the device-free localization (DFL) problem that is able to detect spatial obstruction via wireless network. A dictionary learning approach with difference of convex (DC) programming and DC algorithm is proposed to indicate target location based on learning data. By measuring the variation in the received signal strength of the wireless links indicating the locations of the obstructions, the physical target in the monitoring area can be estimated through a learned dictionary. We show that the DFL problem can be efficiently formulated as a non-convex optimization problem. We adopt a penalty function called the minimax concave penalty, which possesses good properties in terms of seeking sparsity, and solve the non-convex optimization problem using DC programming. Furthermore, the localization accuracy achieved during the path-tracking task is further improved by the proposed tracking neighborhood rule. The rule provides a solution for increasing the localization accuracy under time-varying conditions generated by sampling channels of sensor networks under noisy conditions. The proposed approach is validated on a real-world dataset and has the potential to be adopted flexibly in DFL applications.
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    Influence of Microphone Housing on the Directional Response of Piezoelectric MEMS Microphones Inspired by Ormia Ochracea (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-08-12
    Description: The influence of custom microphone housings on the acoustic directionality and frequency response of a multi-band bio-inspired MEMS microphone is presented. The 3.2 mm by 1.7 mm piezoelectric MEMS microphone, fabricated by a cost-effective multi-user process, has four frequency bands of operation below 10 kHz, with a desired first-order directionality for all four bands. $7\times 7\times 2.5$ mm $^{3}~3$ -D-printed bespoke housings with varying acoustic access to the backside of the microphone membrane are investigated through simulation and experiment with respect to their influence on the directionality and frequency response to sound stimulus. Results show a clear link between directionality and acoustic access to the back cavity of the microphone. Furthermore, there was a change in direction of the first-order directionality with reduced height in this back cavity acoustic access. The required configuration for creating an identical directionality for all four frequency bands is investigated along with the influence of reducing the symmetry of the acoustic back cavity access. This paper highlights the overall requirement of considering housing geometries and their influence on acoustic behavior for bio-inspired directional microphones.
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    Wind Turbine Blade Radar Signatures in the Near Field: Modeling and Experimental Confirmation (2017)
    Institute of Electrical and Electronics Engineers (IEEE)
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    Publication Date: 2017-08-12
    Description: This paper presents methods and results in modeling wind turbine dynamic radar signatures in the near field. The theoretical analysis begins with the simpler case of modeling wind turbine blades as rectangular plates. The theoretical radar signature for the wind turbine in the near field is formulated and its main peculiarities are investigated. Subsequently, the complex shape of the blades is considered and the corresponding radar signatures are modeled. Theoretical modeling is confirmed for both cases via experimental testing in laboratory conditions. It is shown that the experimental results are in good accordance with the theoretically predicted signatures.
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