Showing total 170,440 results

51. Realization of Microfluidic Paper-Based Analytical Devices Using a 3-D Printer: Characterization and Optimization

Author

S B Puneeth, R Akshatha, Sanket Goel, and Mary Salve

Subjects

010302 applied physics, Materials science, Fabrication, Microchannel, business.industry, Capillary action, Microfluidics, Flow (psychology), 01 natural sciences, Electronic, Optical and Magnetic Materials, 0103 physical sciences, Turn (geometry), Fluid dynamics, Optoelectronics, Electrical and Electronic Engineering, Safety, Risk, Reliability and Quality, business, Realization (systems)

Abstract

Microfluidic paper-based analytical devices ( $\mu $ PADs) are a clean-room free, cost-effective, and self-pumping flow-based rapid prototyping technique, which is compatible with a varying range of fluids. Until now, $\mu $ PADs have been primarily fabricated using crayons, and plotting-machine and solid-ink printers. These devices can be easily employed for various detection schemes, such as electrical, electrochemical, and optical. The presence of a capillary effect in the chromatograph paper has made $\mu $ PADs independent of a passive device, such as pumps and valves. In this paper, an alternative and a novel method is proposed to achieve the $\mu $ PADs effortlessly using a 3-D printer (3DP), which has many advantages over the existing methods. For creating hydrophobic barriers for microchannel walls, polycaprolactone (PCL) filament was used with fused-deposition modeling (FDM) 3DP. PCL filaments were deposited on the chromatography paper followed by heating for determining the overall dimension and depth of the microchannel at which PCL melts and penetrates into this paper. The $\mu $ PADs are characterized and optimized for two parameters. First, fabrication parameters, such as heating temperature and time duration, were used for the creation of the hydrophobic barrier using a hot air oven. Second, the microchannel parameters, such as microchannel width, boundary thickness, chromatography paper grade, and microchannel source shape (rectangular, triangular, and circular) were used for the fluid-flow by measuring the time taken by fluid to travel a fixed length of the microchannel. After rigorous analysis, it was found that for the creation of the hydrophobic barrier, $\mu $ PADs heated between temperature 120°C to 150°C require 30 min. Under optimized conditions for the fluid flow, the chromatography paper grade 1441 with a triangular source microchannel was found to be best. This paper provides an alternate, simple, and optimized method toward the development of the application-specific $\mu $ PADs, such as the micro-viscometer, which, in turn, can be widely used to monitor various types of fluids including human bodily fluids.

Published

2019

52. Novel 3D Printed Microfluidic Paper-Based Analytical Device With Integrated Screen-Printed Electrodes for Automated Viscosity Measurements

Author

Sanket Goel and S B Puneeth

Subjects

010302 applied physics, Rapid prototyping, Materials science, Fabrication, Microchannel, business.industry, Relative viscosity, Microfluidics, Viscometer, 01 natural sciences, Electronic, Optical and Magnetic Materials, Microcontroller, Viscosity (programming), 0103 physical sciences, Optoelectronics, Electrical and Electronic Engineering, business

Abstract

Various miniaturized viscometers have been developed utilizing several fabrication methods. Among them, microfluidic paper-based analytical devices ( $\mu $ PADs) are becoming popular due to their fabrication ease, cost-effectiveness, and the fact that the flow can be carried out using the embedded capillaries themselves. Mostly, $\mu $ PADs are reported to be fabricated by a solid-ink printer, which has significantly high capital and operational cost. To overcome such drawbacks, a novel rapid prototyping method has been proposed, wherein the formation of the hydrophobic regions was created by polycaprolactone (PCL) filament using a 3-D printer. To leverage this, $\mu $ PAD as a viscometer, velocity, or time between two points with known distances was required, which was carried out by an amperometric approach, established by fabricating the integrated screen-printed electrodes intersecting the microchannel of the $\mu $ PAD. The time measurement was fully automated by a microcontroller, and the relative viscosity was calculated by comparing the time taken by the reference fluid with that of a test fluid to cover a known length. Such integrated, automated, and low-cost paper-based microviscometer was leveraged to measure and analyze the viscosities of various milk variants, which has an accuracy of >92%.

Published

2019

53. Low Cost Paper-Based LC Wireless Humidity Sensors and Distance-Insensitive Readout System

Author

Li-Feng Wang, Qing-An Huang, Dong Lei, Ming-Zhu Xie, and Wen-Jun Deng

Subjects

Materials science, HFSS, business.industry, 010401 analytical chemistry, Linearity, 01 natural sciences, Capacitance, Signal, 0104 chemical sciences, Parasitic capacitance, Electromagnetic coil, Optoelectronics, Relative humidity, Electrical and Electronic Engineering, business, Instrumentation, Sensitivity (electronics)

Abstract

Wireless, passive, and cost-efficient monitoring of moisture within packaged food and medicine is important to ensure their safety and freshness. This paper presents paper-based single spiral inductance–capacitance (LC) sensors and a distance-insensitive readout system. The parasitic capacitance of the single-spiral coil is used to form an LC resonant circuit with its inductance. The printing paper is utilized as a humidity sensing material. A model for the LC sensor is analyzed and compared with HFSS simulation, showing the relative error within 6.3%. Nano-silver paste for the single-spiral coil was screen printed on the printing paper. The LC sensors with 4, 6, and 8-turns coils were characterized at relative humidity levels of 15%-90%RH by a readout coil at a fixed position. Comparison shows that the 8-turn sensor has the best linearity with respect to humidity. The sensitivity and response time were measured to be 120 kHz/%RH and 60 minutes, respectively, with the hysteresis errors less than 0.9%. During the practical monitoring, the tested signal frequency will have a shift if the coil’s relative position alters. To weaken the influence of the coil’s position, a readout coil, working at the quasi-resonant with the LC sensor was utilized to enhance the readout, resulting in more stable signal. According to the experimental results, the improved readout system can restrain the frequency shift within 1.1% at a readout distance from 2–50 mm when the ambient humidity is 60%RH.

Published

2019

54. Biodegradable Materials for Organic Field-Effect Transistors on a Paper Substrate

Author

Yu-Chi Chang, Yeong-Her Wang, Li Wen Wang, and Cheng-Jung Lee

Subjects

Electron mobility, Materials science, business.industry, Transistor, Gate dielectric, Substrate (electronics), Dielectric, Electronic, Optical and Magnetic Materials, law.invention, Threshold voltage, Pentacene, chemistry.chemical_compound, chemistry, law, Optoelectronics, Field-effect transistor, Electrical and Electronic Engineering, business

Abstract

Paper-basedpentacene organic thin-film transistors (OTFTs) with spin-coated gelatin (G) stacked gate dielectric layers, the Au/pentacene/G/G matrix-embedded iron (FeG)/Al/paper structure, were fabricated. The proposed composite-stacked bio-dielectric layer can be implemented using solutions with the degradable biomaterials. These materials enable a large-area printing of use-and-throw devices. Control devices (Au/pentacene/G/Al and Au/pentacene/FeG/Al structure) were also fabricated for comparison. High-performance paper-based OTFT constructed from the stacked gate dielectric layer exhibited a carrier mobility of 8 cm2/Vs, an ON/OFF current ratio of approximately 103, a subthreshold swing of 0.6 V/decade, and a threshold voltage of −1.4 V. These results are compatible to those OTFTs fabricated on other substrates. Therefore, the emerging biomaterial-based transistors on paper substrates may help in developing low-cost, environment-friendly devices.

Published

2019

55. PbS Nanowires-on-Paper Sensors for Room-Temperature Gas Detection

Author

Jingting Luo, Baohui Zhang, Hao Kan, Guangzu Zhang, Jingyao Liu, Huan Liu, Shenglin Jiang, Min Li, and Zhixiang Hu

Subjects

Fabrication, Materials science, business.industry, 010401 analytical chemistry, Nanowire, Microstructure, 01 natural sciences, Flexible electronics, 0104 chemical sciences, Colloid, Adsorption, Nanocrystal, Electrode, Optoelectronics, Electrical and Electronic Engineering, business, Instrumentation

Abstract

Paper-based gas sensors represent an emerging important class of devices in flexible electronics. Colloidal nanocrystals unite large surface-to-volume ratio with excellent solution processability, offering avenues to high-performance paper-based gas sensors. One of the factors limiting the performance of paper-based gas sensors is the sphere-like morphology of semiconductor nanocrystals, making it difficult to construct a stable sensing network to ensure efficient carrier transport and mechanical robustness. Here we demonstrated sensitive and flexible gas sensor via the spray coating of PbS nanowires onto paper substrates at room temperature. The pencil-drawn graphite electrode was employed to simplify the sensor design and fabrication. Unlike the sphere-like PbS nanocrystals that usually assemble into compact thin-film solids, the PbS nanowires-on-paper sensor exhibits a porous network microstructure, which not only offers efficient pathway for gas adsorption and diffusion but also possesses inherent flexibility for superior mechanical bendability. The response of the PbS nanowires-on-paper sensor toward 50 ppm of NO2 at room temperature was 17.5, with the response and recovery time being 3 and 148 s, respectively. The sensor shows only a slight decrease in response (6% of the initial value) and identical temporal response when subject to 500 bending and unbending cycles. The competitive adsorption of NO2 with O2 on PbS surfaces is proposed as the sensing mechanism accounts for the high sensitivity and good reversibility at room temperature. Our results highlight the significance of the solution-processable nanowires as the ideal building blocks for the flexible paper-based gas sensors.

Published

2019

56. Flexible Low-Voltage IGZO Thin-Film Transistors With Polymer Electret Gate Dielectrics on Paper Substrates

Author

Zehua Liu, Jie Luo, Xiangyu Wang, Qing Wan, and Ya Gao

Subjects

010302 applied physics, Materials science, business.industry, Graphene, Transistor, Gate dielectric, 01 natural sciences, Capacitance, Electronic, Optical and Magnetic Materials, law.invention, Thin-film transistor, law, 0103 physical sciences, Optoelectronics, Electret, Electrical and Electronic Engineering, business, Low voltage, Layer (electronics)

Abstract

Polymer electret shows a good electrostatic polarization effect, resulting in very high-density charge accumulation in semiconducting channel layer at low gate voltage. In this letter, graphene oxide enhanced poly(vinyl alcohol) film was used as the gate dielectric for flexible low-voltage indium-gallium-zinc-oxide thin-film transistors (TFTs) on paper substrates. High performance with a high current ON/OFF ratio of $\sim 1.8\times 10^{\textsf {7}}$ , a large field-effect mobility of ~42 cm2 V−1 s−1, and a low subthreshold swing of 106 mV/decade was obtained. In addition, such flexible TFTs exhibit a good stability under bending condition due to the reinforcement effect of graphene oxide. Such flexible TFTs on paper substrates have potential application in next-generation low-cost flexible paper electronics.

Published

2019

57. Wireless IoT Motion-Recognition Rings and a Paper Keyboard

Author

Wen J. Li, Chao Lian, Guangyi Shi, Xiaopeng Sha, Yuliang Zhao, and Xueliang Zhang

Subjects

micro IMU, General Computer Science, Computer science, 02 engineering and technology, Keystroke logging, 01 natural sciences, Software portability, Acceleration, Inertial measurement unit, 0202 electrical engineering, electronic engineering, information engineering, Wireless, General Materials Science, Desk, business.industry, 010401 analytical chemistry, General Engineering, keystroke recognition, 0104 chemical sciences, wireless IoT ring, Key (cryptography), Wearable sensors, virtual keyboard, 020201 artificial intelligence & image processing, lcsh:Electrical engineering. Electronics. Nuclear engineering, business, lcsh:TK1-9971, Computer hardware, Gesture

Abstract

In this paper, we present a new scheme for implementing virtual keyboards, which uses only two to four motion-recognition rings per hand and a two-dimensional keyboard template (e.g., an A4 size paper with printed key positions). It has the benefit of portability, customizability, and low-cost when compared with existing approaches. Essentially, we have shown that wearing two wireless IoT rings on the middle phalanges of two fingers of each hand, users can input the alphabetic characters into a computing device by typing on a flat paper on a desk, and potentially in mid-air. We have demonstrated that two rings are sufficient in capturing the gestures and motions of all fingers in a typing hand for keystrokes recognition. A single wireless IoT ring, which weighs 7.8 grams, consists of a Bluetooth low energy (BLE) unit, a micro inertial measurement unit (mIMU), and a cell battery. The 3-axes attitude angles and the Z-axis acceleration of each ring are adopted as the features for keystroke recognition. The overall keystroke recognition accuracy rate can reach as high as 94.8% when two IoT rings are worn by a user on each hand; this accuracy rate increases to 98.6%, when four rings are worn on each typing hand.

Published

2019

58. Recognition of Aging Stage of Oil–Paper Insulation Based on Surface Enhanced Raman Scattering and Kernel Entropy Component Analysis

Author

Jingxin Zou, Dingkun Yang, Zhou Fan, Weiran Zhou, and Weigen Chen

Subjects

010302 applied physics, Materials science, General Computer Science, business.industry, Transformer oil, General Engineering, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Accelerated aging, Support vector machine, symbols.namesake, Electrical equipment, 0103 physical sciences, symbols, Optoelectronics, General Materials Science, Stage (hydrology), 0210 nano-technology, Spectral method, business, Raman spectroscopy, Raman scattering

Abstract

This study explores the method of applying surface enhanced Raman scattering (SERS) in diagnosing the aging stage of oil-paper insulation equipment in the power system, which provides access to the on-line mornitoring of electrical equipment. Oil-paper samples in different aging stages were obtained by accelerated aging experiments. Effective Raman signals of insulating oil were collected by using the self-made hexagonal sliver nano-plates SERS substrates and the self-assembled Raman detection platform. For the SERS data of oil-paper insulation samples, kernel entropy component analysis (KECA) was applied to extract the Raman spectral features and support vector machine (SVM) was used to recognize the the aging stage of oil-paper insulation. The results demonstrate that the KECA-SVM method exhibits a good diagnostic capacity and the recognition accuracy of the propsed method reached 81.43 % (57/70). In summary, a new spectral method is proposed to diagnose the aging stage of oil-paper insulation, which lays a foundation for the actual diagnosis of the aging condition in running oil-paper insulation equipment by Raman spectroscopy.

Published

2019

59. Replacing Legacy Motors: A Review of Medium-Voltage Equipment in the Paper Industry

Author

Chris Heron

Subjects

Engineering, Scrutiny, business.industry, Energy Engineering and Power Technology, Condition monitoring, Pulp and paper industry, Maintenance engineering, Industrial and Manufacturing Engineering, Reliability (semiconductor), Control and Systems Engineering, Position (finance), Electrical and Electronic Engineering, Installed base, business, Voltage, Pace

Abstract

Like some of us, the paper industry has been around a long time. Unfortunately, so has a lot of the installed equipment. There have been some upgrades and improvements to machine design over the years, particularly in the areas of insulation and condition monitoring. However, the installed base has not necessarily kept the pace, due in part to the reliability built into older machinery. Today's facilities are under deeper scrutiny as system efficiency, machine reliability, and equipment condition-monitoring improvements are becoming the norm as the industry tries to position itself for the next century.

Published

2015

60. Engineering Incident Energy Analysis and Remediation Project in a Midwestern Pulp and Paper Mill

Author

Greg W. Drewiske

Subjects

business.industry, Environmental remediation, Pulp (paper), Paper mill, System safety, engineering.material, Industrial and Manufacturing Engineering, Construction engineering, Control and Systems Engineering, Arc flash, engineering, Forensic engineering, Incident energy, Electrical and Electronic Engineering, business

Abstract

Many papers have been written about the phenomenon of arc flash, the causes of arc flash, how to mitigate specific arc flash problems, and how to design arc flash issues out from the beginning. This paper will discuss the overall process of completing an engineering incident energy analysis and remediation project in a pulp and paper mill. Most mills are not fortunate enough to receive sufficient funding to do the whole study and a remediation process all at once. This paper explores how a Midwestern pulp and paper mill worked over several years to get through the process of the study, remediation efforts, and the establishment of an overall electrical safety program.

Published

2014

61. Guest Editorial for Selected Papers from BIOKDD 2018 and DMBIH 2018

Author

Xin Gao, Jake Y. Chen, Samah Jamal Fodeh, and Da Yan

Subjects

Engineering, Knowledge extraction, GeneralLiterature_INTRODUCTORYANDSURVEY, business.industry, Applied Mathematics, 0206 medical engineering, Genetics, Library science, 02 engineering and technology, business, 020602 bioinformatics, Biotechnology, Conjunction (grammar)

Abstract

The papers in this special issue were presented at the 2018 17th International Workshop on Data Mining in Bioinformatics (BIOKDD), held in conjunction with the ACM SIGKDD International Conference on Knowledge Discovery and Data Mining. The Workshop was held on August 20, 2018 in London, UK.

Published

2020

62. Amperometric Automation and Optimization Paper Microfluidic Viscometer

Author

Puneeth S B and Sanket Goel

Subjects

010302 applied physics, Materials science, Microchannel, business.industry, Capillary action, Relative viscosity, 010401 analytical chemistry, Microfluidics, Viscometer, 01 natural sciences, 0104 chemical sciences, Viscosity, 0103 physical sciences, Optoelectronics, Electrical and Electronic Engineering, Current (fluid), business, Porous medium, Instrumentation

Abstract

Amongst the current techniques for rapid prototyping of microdevices, microfluidic paper-based analytical devices ( μ PADs) have become the foremost and most cost-effective. In this article, microchannel parameters have been optimized based on the fluids used in the testing. Imbibition dynamics were seen in μ PADs, which is due to the capillary effect. The velocity of the fluids in the porous medium microchannels was measured by the electrical response obtained during the flow from the electrodes integrated in the microchannel, connected to the microprocessor. Based on the measured time, relative viscosity was calculated. The relative viscosity has a wide range of applications in medical diagnostics and in adulterants detection. This results not only in developing a point-of-a-care device but also in a highly cost-effective device as well.

Published

2019

63. A Paper-Based Inkjet-Printed Graphene Sensor for Breathing-Flow Monitoring

Author

Yehia Massoud, J. I. D. Alexander, Mohammad Rafiqul Haider, Steven D. Gardner, and Ruikuan Lu

Subjects

0209 industrial biotechnology, Inkwell, business.industry, Computer science, Graphene, Continuous monitoring, 02 engineering and technology, Substrate (printing), 021001 nanoscience & nanotechnology, GeneralLiterature_MISCELLANEOUS, law.invention, 020901 industrial engineering & automation, Software, law, Electronic engineering, Breathing, Electrical and Electronic Engineering, 0210 nano-technology, business, Instrumentation, Electrical impedance, Electrical conductor

Abstract

Continuous monitoring of breathing flow is an essential but often poorly utilized predictor that is causing poor patient outcome. A low-cost, light-weight, easy-to-use, reliable, and disposable breathing sensor is required to bypass the limitations of existing conventional sensors, which are bulky, expensive, and often require experts to handle. In this article, a low-cost, inkjet-printed graphene sensor on a disposable glossy photo-paper substrate is presented for breathing-rate monitoring. The sensor architecture consists of a graphene nanoparticle based thin functional layer on top of a silver nanoparticle based interdigitated conductive pattern. A standard office inkjet-printer was configured with nanoparticle inks and a printed circuit board design software was utilized for the layouts. The sensor was tested in a laboratory environment, and its data were analyzed for different breathing patterns. An empirical model of the sensor was developed using the Cole–Cole impedance model. Test results showed successful detection of breathing rates for different breathing patterns. The prototype sensor provides a low-cost, disposable, and practical solution for frequent breathing pattern recognition.

Published

2019

64. High Precision Digitization of Paper-Based ECG Records: A Step Toward Machine Learning

Author

Ali El Hajj, Hassan Ghaziri, Ossama K. Abou Hassan, Lise Safatly, Mohammed Baydoun, and Hussain Isma'eel

Subjects

lcsh:Medical technology, 020205 medical informatics, Computer science, Biomedical Engineering, Image processing, 02 engineering and technology, 030204 cardiovascular system & hematology, lcsh:Computer applications to medicine. Medical informatics, Machine learning, computer.software_genre, QT interval, Article, Correlation, 03 medical and health sciences, QRS complex, 0302 clinical medicine, 0202 electrical engineering, electronic engineering, information engineering, medicine, cardiovascular diseases, PR interval, MATLAB, Digitization, computer.programming_language, medicine.diagnostic_test, business.industry, Matlab tool, General Medicine, Electrocardiogram, image processing, lcsh:R855-855.5, digitization, lcsh:R858-859.7, Artificial intelligence, business, Electrocardiography, computer

Abstract

Introduction: The electrocardiogram (ECG) plays an important role in the diagnosis of heart diseases. However, most patterns of diseases are based on old datasets and stepwise algorithms that provide limited accuracy. Improving diagnostic accuracy of the ECG can be done by applying machine learning algorithms. This requires taking existing scanned or printed ECGs of old cohorts and transforming the ECG signal to the raw digital (time (milliseconds), voltage (millivolts)) form. Objectives: We present a MATLAB-based tool and algorithm that converts a printed or scanned format of the ECG into a digitized ECG signal. Methods: 30 ECG scanned curves are utilized in our study. An image processing method is first implemented for detecting the ECG regions of interest and extracting the ECG signals. It is followed by serial steps that digitize and validate the results. Results: The validation demonstrates very high correlation values of several standard ECG parameters: PR interval 0.984 +/−0.021 (p-value < 0.001), QRS interval 1+/− SD (p-value < 0.001), QT interval 0.981 +/− 0.023 p-value < 0.001, and RR interval 1 +/− 0.001 p-value < 0.001. Conclusion: Digitized ECG signals from existing paper or scanned ECGs can be obtained with more than 95% of precision. This makes it possible to utilize historic ECG signals in machine learning algorithms to identify patterns of heart diseases and aid in the diagnostic and prognostic evaluation of patients with cardiovascular disease., We present a MATLAB-based tool and algorithm that converts a printed or scanned ECG into a digitized ECG signal. Validation on 30 ECG scanned curves more than 95% precision. This makes it possible to utilize historic ECG signals in machine learning algorithms to identify patterns of heart diseases and aid in the diagnosis and evaluation of patients with cardiovascular disease.

Published

2019

65. Paper Machine Dryer Section Tuning: A Novel Solution to Prevent System Instability

Author

Walter V. Jones and Darren Honaker

Subjects

Engineering, business.product_category, business.industry, Stability (learning theory), Energy Engineering and Power Technology, Drivetrain, Instability, Industrial and Manufacturing Engineering, Paper machine, Speed regulator, Control and Systems Engineering, Control theory, Section (archaeology), Torque, Electrical and Electronic Engineering, business, Backlash

Abstract

Paper machine dryer sect ions create challenges in tuning due to gear backlash. This problem is amplified when older paper machines are upgraded with newer, higher-performance drive systems. The newer drive systems can achieve a much higher degree of control, which can fatigue the mechanical drivetrain. Most often, backlash is experienced during the speed regulator tune-up [1]. The speed regulator response is modified in an effort to improve stability while in backlash. However, there are other tune-up considerations that must be considered. A dryer section can be pulled from a downstream section, which can cause its applied torque to be near zero, resulting in speed instability. This article investigates the cause of this instability and presents a novel solution for preventing it.

Published

2014

66. Editorial: Introduction to the Special Section on CVPR2019 Best Papers

Author

Derek Hoiem, Gang Hua, Abhinav Gupta, and Zhuowen Tu

Subjects

Engineering, Computational Theory and Mathematics, Artificial Intelligence, business.industry, Applied Mathematics, Special section, Library science, Computer Vision and Pattern Recognition, Artificial intelligence, business, Software

Abstract

The three papers in this special section were presented at the 2019 CVPR conference that was held in Long Beach CA, in June of 2019.

Published

2021

67. Effects of paper-aged state on space charge characteristics in oil-impregnated paper insulation

Author

Yasuhiro Tanaka, Da Wang, Min Lei, S. Suwarno, Hai-Bao Mu, Guan-Jun Zhang, Shi-Qiang Wang, and Tatsuo Takada

Subjects

Materials science, business.industry, Transformer oil, Electrical engineering, Residual oil, Dielectric, Space charge, Cathode, law.invention, Anode, law, Thermal, Electrical and Electronic Engineering, Composite material, business, Kraft paper

Abstract

Oil-paper compound insulation has been widely used in power transformers for quite a long time because of its good performance. The paper insulation degrades under the combined stresses of thermal, electrical and chemical stresses during routine operations, resulting in the reduction of its degree of polymerization (DP) and hence its mechanical and electrical strength. Space charges in a dielectric material have a close relation to its electrical performance. Therefore, in this work, the effect of paper-aged states (with different DP values) on the space charge behavior in oil-impregnated paper insulation is investigated, and the pulsed electro-acoustic (PEA) method is used for the space charge distribution measurement. In order to achieve this purpose, new oil-impregnated paper samples are thermally-accelerated aged for different time interval to obtain different DP values, and then the residual oil in each sample is removed, and the Kraft paper samples are dried in a vacuum dry oven. After that, all paper samples are impregnated with new oil, and PEA measurements are performed at room temperature. The experimental results show that, when the external dc voltage is applied on the oil-paper sample, homo-charge injection occurs for all samples. The samples with different aging states exhibit quite different space charge characteristics for both voltage-on and voltage-off conditions. When the aged states are worse, for voltage-on condition, more charges are induced at cathode and anode, as well as more space charges are accumulated in the bulk. For voltage-off condition, the space charge decay rate shows no obvious change for different aged samples.

Published

2012

68. Toward Wireless Control in Industrial Process Automation: A Case Study at a Paper Mill

Author

Steffi Knorn, Johan Akerberg, Henrik Sandberg, Karl Henrik Johansson, Thomas Lindh, Alf J. Isaksson, Anders Ahlén, Takuya Iwaki, and Markus Eriksson

Subjects

Flexibility (engineering), 0209 industrial biotechnology, Computer science, business.industry, Distributed computing, Cloud computing, 02 engineering and technology, Process automation system, Automation, 020901 industrial engineering & automation, Control and Systems Engineering, Modeling and Simulation, Wireless, Process control, Electrical and Electronic Engineering, Communications protocol, business, Wireless sensor network

Abstract

Wireless sensors and networks are used only occasionally in current control loops in the process industry. With rapid developments in embedded and highperformance computing, wireless communication, and cloud technology, drastic changes in the architecture and operation of industrial automation systems seem more likely than ever. These changes are driven by ever-growing demands on production quality and flexibility. However, as discussed in "Summary," there are several research obstacles to overcome. The radio communication environment in the process industry is often troublesome, as the environment is frequently cluttered with large metal objects, moving machines and vehicles, and processes emitting radio disturbances [1], [2]. The successful deployment of a wireless control system in such an environment requires careful design of communication links and network protocols as well as robust and reconfigurable control algorithms.

Published

2019

69. General Aviation Safety: Trained With Paper Maps, Flying With Digital Maps

Author

Elena Psyllou

Subjects

Heading (navigation), Engineering, Digital mapping, business.industry, Aviation, Airspeed, General Engineering, General Social Sciences, 02 engineering and technology, General aviation, law.invention, Calculator, Aeronautics, law, 020204 information systems, Compass, 0202 electrical engineering, electronic engineering, information engineering, Commercial aviation, business

Abstract

Aviation is often seen as an innovative sector eager to seek technological solutions. It is often assumed that aircraft cockpits have panels with electronic displays and many buttons, some labeled "auto." While this might be the case for commercial aviation (Figure 1), the vast majority of noncommercial civil aircraft cockpits look nothing like these modern cockpits. Non-commercial civil aircraft, known as general aviation (GA), typically have cockpits that mainly consist of analog instruments that show the heading of the aircraft, the altitude, and the air speed (Figure 2). While flying, the pilots make calculations using a compass and an aviation calculator. Due to the slow entry rate of new, glass-cockpit aircraft [1], the composition of the GA aircraft fleet is not going to change any time soon.

Published

2019

70. Hardware Engine for Supporting Gray-Tone Paintbrush Function on Electrophoretic Papers

Author

Ying-Hao Liu, Shu-Cheng Liou, Wen-Chung Kao, and Hsing-Yu Chen

Subjects

Signal processing, Pixel, business.industry, Computer science, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Paintbrush, Image processing, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, law.invention, Tone (musical instrument), law, Computer graphics (images), Computer vision, Electronic paper, Artificial intelligence, Electrical and Electronic Engineering, business, Image resolution, Interpolation

Abstract

The electrophoretic display (EPD) has been widely applied on electronic readers (E-Readers) for displaying image/text contents. With a touch panel, the user can put annotations on the contents at will. However, none of the available E-Readers support the function of paintbrush, which allows the user to plot gray tone figures. This is because the EPD is a bistable display whose driving method is quite complicated. In this paper, we first discuss the issues of realizing paintbrush function on the EPD display controller and then propose a new signal processing engine for the paintbrush function. The engine contains four stages: 1) screening the detected pixel coordinates; 2) interpolating pixels; 3) performing image halftoning to generate more visual gray levels; and 4) driving the pixels to the target states. The experimental results show that the engine meets the real-time requirement to complete the pixel interpolation as well as produce the gray-tone traces.

Published

2014

71. Things you need to know if you are writing a scientific paper, thesis or report in Engineering or Science

Author

Fernando Morgado-Dias, Diogo Freitas, and Adriana Ribeiro

Subjects

Structure (mathematical logic), business.industry, Computer science, media_common.quotation_subject, Publishing, Need to know, Reading (process), Mathematics education, Meaning (existential), Paragraph, business, Citation, IMRAD, media_common

Abstract

This paper focuses on the common mistakes made by students at the early stages of research when writing scientific papers, thesis and reports. It points out mistakes to be avoided and the basic rules that can be inferred by reading a few scientific documents but are not usually clearly written and that we, as professors, end up teaching over and over again. The outcome of this paper will be, hopefully, that we will not need to correct the same common mistakes again and you, as a student, will have a faster lane to publishing. Starting with the abstract: it is composed of a single paragraph, does not contain acronyms or references and describes in short the work, main highlights and points out the results or main conclusions obtained from the work being presented. The abstract is an independent part of the paper and commonly has a character or word limit that you need to respect. It can be read as a ``stand-alone'' and the paper starts in the introduction, meaning that the introduction is not the sequence of the abstract and it can have some text in common if needed.

Published

2020

72. Practical Papers, Articles and Application Notes

Author

Kye Yak See

Subjects

Engineering, Electromagnetics, Anechoic chamber, business.industry, Computer Networks and Communications, Electrical engineering, Absorption cross section, Electromagnetic compatibility, Field strength, Structural engineering, Electronic mail, Q factor, Signal Processing, Electrical and Electronic Engineering, business, Instrumentation, Software, Electromagnetic reverberation chamber

Abstract

I would like to introduce three wonderful papers to all our readers. Q. Xu and Y. Zhao from the Nanjing University of Aeronautics and Astronautics, China; X. Shen and K. Chen from the Nanjing Rongce Testing Technology Ltd, China; and Y. Huang from the University of Liverpool, U. K., authored the first paper "Absorption Cross Section Measurement of a Vehicle in Reverberation Chamber for Quick Estimation of Field Strength". For electromagnetic immunity testing of a vehicle, a reverberation chamber (RC) loaded with the vehicle-under-test has to be calibrated so that the necessary input power to generate the required field strength can be determined. In this paper, the average absorption cross section (ACS) of a vehicle in the frequency range of 80 MHz — 24 GHz is measured so that the required electric field strength in the RC loaded with a car can be estimated before the RC is constructed. Once the typical ACS of a car is known, one only needs to measure the Q factor of an unloaded RC and the Q factor of the RC loaded with a car can be predicted. This is very useful before the RC is constructed, as once the RC is built the unloaded Q factor cannot be increased.

Published

2022

73. Paper-Based ZnO Nanogenerator Using Contact Electrification and Piezoelectric Effects

Author

Quang Nguyen, Jae W. Kwon, and Baek Hyun Kim

Subjects

Materials science, Nanostructure, business.industry, Mechanical Engineering, Nanogenerator, Nanowire, Nanotechnology, Substrate (electronics), Paper based, Surface finish, Piezoelectricity, Optoelectronics, Electrical and Electronic Engineering, business, Contact electrification

Abstract

In this letter, we present a ZnO nanogenerator built on a paper substrate producing electricity using both contact electrification and piezoelectric effects. Paper is an environmentally friendly material and can help to improve the performance of the ZnO nanogenerator due to its natural roughness. The nanogenerator produced a maximum peak voltag of 38.4 V and a maximum peak current density of 3.2 $\mu \text{A}$ /cm $^{2}$ from both the inherent piezoelectric property of ZnO and contact electrification between poly(methyl methacrylate) and ZnO nanostructures. [2014-0388]

Published

2015

74. High Output Compound Triboelectric Nanogenerator Based on Paper for Self-Powered Height Sensing System

Author

Zhiyuan Zhu, Kequan Xia, Chaolin Du, Rongji Wang, Hongze Zhang, and Zhiwei Xu

Subjects

Fabrication, Materials science, Inkwell, business.industry, Nanogenerator, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Flexible electronics, 0104 chemical sciences, Computer Science Applications, law.invention, law, Conductive ink, Surface roughness, Optoelectronics, Electrical and Electronic Engineering, 0210 nano-technology, business, Triboelectric effect, Light-emitting diode

Abstract

Flexible electronics based on the paper have attracted significant attention. A paper-based triboelectric nanogenerator (TENG) consisting of commercial and low-cost materials, e.g., printer paper, polytetrafluoroethylene tape, and conductive ink, was proposed in this study. This TENG unit can directly illuminate 24 blue commercial LEDs. Furthermore, compound paper-based TENGs were developed and a considerable enhancement of the electrical output performance was thereby realized. These compound TENGs can also serve as a height sensor.

Published

2018

75. A Paper-Based Screen Printed HF RFID Reader Antenna System

Author

Thomas Schön, Xiaotian Li, Henrik Andersson, and Johan Sidén

Subjects

Inkwell, business.industry, Computer science, Loop antenna, Organic Chemistry, Electrical engineering, Substrate (printing), Biochemistry, Multiplexer, Multiplexing, Hardware_GENERAL, Screen printing, Radio-frequency identification, Antenna (radio), business

Abstract

Screen printing is a stencil process where conductive inks are patterned onto substrates through a fine mesh of threads. Nowadays, screen printing can be used to print radio frequency identification (RFID) antenna structures onto flexible and ultra-low-cost substrates such as paper. In this paper, we present a high frequency RFID (HF RFID) reader antenna system, operating at 13.56 MHz, using screen printed Ag particle ink as conductor and using HP photo paper as substrate. The proposed antenna system comprises four loop antenna elements, matched to $50~ \Omega $ , and one I2C addressed SP4T multiplexer circuitry, controlled through an exterior embedded system. The geometries, designs and characterizations of the antenna system are described in the manuscript in details. Measurement results show that the antenna system has low power reflections and a suitable ${Q}$ factor. It has a maximum 11.1 cm RFID tag read range at an antenna system input power of 33 dBm. 2-D RFID tag positioning can be enabled by utilizing the RFID tag interrogation zones formed by the four loop antenna elements. In addition, a parametrical study is carried out to investigate the effect of loop antenna element dc resistance on the antenna element performance. It can be concluded that the proposed method can be used to create low-cost and large-area HF RFID reader antenna systems.

Published

2018

76. Robust Tuning of Cross-Directional Model Predictive Controllers for Paper-Making Processes

Author

Ning He, Xiaotao Liu, Tongwen Chen, Johan U. Backstrom, and Michael G. Forbes

Subjects

0209 industrial biotechnology, Engineering, Settling time, business.industry, 02 engineering and technology, Weighting, System model, Model predictive control, 020901 industrial engineering & automation, 020401 chemical engineering, Control and Systems Engineering, Control theory, Robustness (computer science), Process control, 0204 chemical engineering, Electrical and Electronic Engineering, Actuator, business, Parametric statistics

Abstract

This paper studies automated tuning of cross-directional model predictive control for industrial paper-making processes under user-specified model parameter uncertainties. Automated parameter tuning algorithms are developed to reduce the variability of the actuator and measurement profiles in the spatial domain and to achieve satisfactory performance in terms of worst case settling times and worst case control signal overshoots in the temporal domain for given parametric uncertainties. Due to decoupling properties of the spatial and temporal frequency components, the controller design and parameter tuning can be realized separately. For the spatial design and parameter tuning in the presence of parametric uncertainties, the undesirable high-frequency components in the actuator profile are suppressed via an appropriate design of the weighting matrix $S_{b}$ using the real-valued Fourier matrix approach. For the temporal design, a temporal filter is adopted to smooth the reference trajectory, where the parameter in the temporal filter is carefully tuned to achieve a tradeoff between the worst case settling time and the worst case control signal overshoot. Finally, the effectiveness of the proposed tuning algorithms is verified using a system model extracted from the pulp and paper industry.

Published

2018

77. Recommending authors and papers based on ACTTM community and bilayer citation network

Author

Qin Zhen, Zhihe Qu, Wang Mengxing, and Lu Meilian

Subjects

Topic model, Information retrieval, Computer Networks and Communications, business.industry, Computer science, media_common.quotation_subject, 05 social sciences, 050905 science studies, Network topology, Set (abstract data type), Statistical classification, The Internet, Quality (business), 0509 other social sciences, Electrical and Electronic Engineering, Layer (object-oriented design), 050904 information & library sciences, business, Time complexity, media_common

Abstract

Citation network is often used for academic recommendation. However, it is difficult to achieve high recommendation accuracy and low time complexity because it is often very large and sparse and different citations have different purposes. What's more, some citations include unreasonable information, such as in case of intentional self-citation. To improve the accuracy of citation network-based academic recommendation and reduce the time complexity, we propose an academic recommendation method for recommending authors and papers. In which, an author-paper bilayer citation network is built, then an enhanced topic model, Author Community Topic Time Model (ACTTM) is proposed to detect high quality author communities in the author layer, and a set of attributes are proposed to comprehensively depict the author/paper nodes in the bilayer citation network. Experimental results prove that the proposed ACTTM can detect high quality author communities and facilitate low time complexity, and the proposed academic recommendation method can effectively improve the recommendation accuracy.

Published

2018

78. Flexible IZO Homojunction TFTs With Graphene Oxide/Chitosan Composite Gate Dielectrics on Paper Substrates

Author

Sha Nie, Yongli He, Yi Yang, Qing Wan, and Yi Shi

Subjects

010302 applied physics, Materials science, business.industry, Graphene, Transistor, Oxide, 02 engineering and technology, Dielectric, 021001 nanoscience & nanotechnology, 01 natural sciences, Capacitance, Flexible electronics, Electronic, Optical and Magnetic Materials, law.invention, chemistry.chemical_compound, chemistry, Thin-film transistor, law, 0103 physical sciences, Optoelectronics, Electrical and Electronic Engineering, Homojunction, 0210 nano-technology, business

Abstract

Solution-processed graphene oxide/chitosan composite electrolyte film showed a large specific gate electric-double-layer capacitance of $\sim 3.16~\mu \text{F}$ /cm $^{{\mathsf {2}}}$ at 1 Hz. Indium–zinc-oxide (IZO) homojunction thin-film transistors (TFTs) on paper substrates using such composite electrolytes as gate dielectrics showed a good electrical performance and a high stability. Flexible IZO-based homojunction TFTs showed a high drain current ON/OFF ratio of $\sim \textsf {1.8}\times \textsf {10}^{{\textsf {7}}}$ , a large field-effect mobility of >30 cm $^{{\textsf {2}}}\text{V}^{{-\textsf {1}}}\text{s}^{{-\textsf {1}}}$ , and a low subthreshold swing of 90 mV/decade. At last, a resistor-loaded inverter with a maximal conversion factor of 6.7, and a dual in-plane gate NAND logic operation were also demonstrated on such flexible IZO-based TFTs. Such oxide-based homojunction TFTs on paper substrates have potential applications in next-generation low-cost and portable new-concept electronics.

Published

2018

79. Quasi-Z-Source Indirect Matrix Converter Fed Induction Motor Drive for Flow Control of Dye in Paper Mill

Author

D. Sri Vidhya and T. Venkatesan

Subjects

Flow control (data), Engineering, Vector control, business.industry, 020209 energy, 020208 electrical & electronic engineering, 02 engineering and technology, Duty cycle, Control theory, Voltage sag, 0202 electrical engineering, electronic engineering, information engineering, Adjustable-speed drive, Voltage source, Electrical and Electronic Engineering, business, Space vector modulation, Induction motor

Abstract

This paper describes a flow control of the dye in the paper mill with the quasi-Z-source indirect matrix converter (QZSIMC) fed induction motor drive. More than a decade the voltage-source inverter (VSI) and current-source inverter (CSI) have been used to control the speed of the induction motor, which in turns controls the flow of dye. Recently, the matrix converter (MC) has been an excellent competitor for the VSI or CSI for its compactness. The voltage transfer ratio of the VSI, CSI, and MC has been limited to 0.866. Thus, the efficiency of these converters is less. To improve the voltage transfer ratio the quasi-Z-source network (QZSN) is to be used between voltage source and indirect MC (IMC). The modification in the shoot-through duty ratio of the QZSN varies the voltage transfer ratio greater than 0.866. Different voltage transfer ratios are needed for different voltage sag conditions. For a variation of the duty ratio of the QZSN, the fuzzy logic controller has been presented. To control the IMC vector control with space vector modulation has been presented. This paper proposes the implementation of QZSIMC adjustable speed drive for the flow control of dye in paper mill during different voltage sag conditions. A 4-kW prototype has been built and the effectiveness of the proposed system is verified with simulation results and experimental setup. Simulation is done in MATLAB, Simulink platform. Experimental setup is done with the aid of a TMS320F2812 (Texas Instrument) processor. The experimental results validate the maintenance of the speed of an induction motor at the set condition, thus controlling the perfect flow of dye in paper manufacturing technology.

Published

2018

80. Dirty Paper Coding for Gaussian Cognitive Z-Interference Channel: Performance Results

Author

Dinesh Rajan and Zouhair Al-qudah

Subjects

Channel code, Computer science, business.industry, Applied Mathematics, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Transmitter, Radio receiver, Co-channel interference, Data_CODINGANDINFORMATIONTHEORY, Interference (wave propagation), Computer Science Applications, law.invention, Cognitive radio, Interference (communication), Single antenna interference cancellation, law, Electronic engineering, Dirty paper coding, Adjacent-channel interference, Electrical and Electronic Engineering, Radio resource management, Telecommunications, business, Communication channel

Abstract

In this paper, we present a practical application of dirty paper coding (DPC) for the Gaussian cognitive Z-interference channel. A two stage transmission scheme is proposed in which the cognitive transmitter first obtains the interference signal from the primary transmitter and then uses DPC to improve the performance of the cognitive link. Numerical results show that causal knowledge of the interference provides more than 3 dB improvement in performance in certain scenarios over a scheme that does not use interference cancellation. Results are also shown when the cognitive transmitter operates in both half-duplex and full-duplex modes.

Published

2013

81. A Flexible Paper-Based Microdischarge Array Device: A Novel Route to Cost-Effective and Simple Setup Microplasma Generation Devices

Author

Cheng-Che Hsu and Yao-Jhen Yang

Subjects

Nuclear and High Energy Physics, Materials science, business.industry, Simple (abstract algebra), Microplasma, Electrical engineering, Paper based, Condensed Matter Physics, business

Published

2014

82. Influence of temperature, moisture content and ageing on oil impregnated paper bushings insulation

Author

Zeljko Stih and Antun Mikulecky

Subjects

Materials science, Moisture, business.industry, insulators, paper insulation, oil insulation, capacitance, dielectric losses, temperature, humidity, aging, power transformer, Electrical engineering, Humidity, Dielectric, Capacitance, law.invention, law, Bushing, Dissipation factor, Dielectric loss, Electrical and Electronic Engineering, Composite material, business, Transformer

Abstract

Insulators or bushings are one of the most common cause of transformer failures especially those with fire and collateral damage. This can be prevented by application of off-line and on-line monitoring, especially by measuring of capacitance C and dielectric dissipation factor tanδ, but current physical understanding of these parameters should be improved. A complex research of temperature dependence of C and tanδ, which is based on measurements on a specially designed oil impregnated paper bushing models with different moisture contents in the insulation and during artificial ageing, is presented in the paper. Useful relationships, which enable calculation of tanδ as a function of observed influencing parameters, are also presented.

Published

2013

83. Best Paper from the Twelfth ITU Kaleidoscope Academic Conference

Author

Kai Jakobs, Mostafa Hashem Sherif, Christoph Dosch, Alessia Magliarditi, and Yoshitoshi Murata

Subjects

Engineering, Network architecture, Computer Networks and Communications, business.industry, Kaleidoscope, Management of Technology and Innovation, Special section, International telecommunication, Safety, Risk, Reliability and Quality, business, Telecommunications, Law, computer, computer.programming_language

Abstract

This special section presents an updated version of the paper that won the first prize award in the ITU (International Telecommunication Union) Kaleidoscope conference (K-2020).

Published

2021

84. Mechanisms for QoE optimisation of Video Traffic: A review paper

Author

Alexander A. Kist, Zhongwei Zhang, and Qahhar Muhammad Qadir

Subjects

Networking and Internet Architecture (cs.NI), FOS: Computer and information sciences, Multimedia, business.industry, Computer science, media_common.quotation_subject, computer.software_genre, Computer Science - Networking and Internet Architecture, Transmission (telecommunications), Quality (business), The Internet, Quality of experience, business, computer, media_common, Sign (mathematics)

Abstract

Transmission of video traffic over the Internet has grown exponentially in the past few years with no sign of waning. This increasing demand for video services has changed user expectation of quality. Various mechanisms have been proposed to optimise the Quality of Experience (QoE) of end users video. Studying these approaches are necessary for new methods to be proposed or combination of existing ones to be tailored. We discuss challenges facing the optimisation of QoE for video traffic in this paper. It surveys and classifies these mechanisms based on their functions. The limitation of each of them is identified and future directions are highlighted., 18 pages, 7 figures

Published

2020

85. MEMS-Controlled Paper-Like Transmissive Flexible Display

Author

Hiroshi Toshiyoshi, Johanna Hiitola-Keinänen, Olli-Heikki Huttunen, Jarno Petäjä, Cheng-Yao Lo, and Hiroyuki Fujita

Subjects

Materials science, interferometer, Roll-to-roll processing, Display device, law.invention, law, Flexography, Electronic engineering, Electronic paper, Electrical and Electronic Engineering, Microelectromechanical systems, Fabry-Perot, business.industry, Mechanical Engineering, Flexible electronics, MEMS, Flexible display, visual_art, microelectromechanical systems, visual_art.visual_art_medium, Electrowetting, Optoelectronics, roll-to-roll, electronic paper, business

Abstract

A novel microelectromechanical-systems (MEMS)-controlled paper-like transmissive flexible display device was modeled by a combination of a cantilever with a flat plate and was realized by roll-to-roll printing process for the first time. This model provides predictions as well as improvement suggestions to both mechanical and electrical designs. A newly developed roll-to-roll printing process which was composed of flexography, gravure, lift-off, and lamination techniques used to manufacture this device was proved applicable on flexible electronics with high-volume, low-cost, and large-area solutions. This 20 V-driven device provided distinguishable three primary colors with averaged transmittance of 50% in visible region for full color flexible display applications and showed commercialization compatibility. Its electrical, mechanical, and optical characteristics excelled previous similar works. The proved major advantages of mechanical reliability, low operation voltage, and process simplicity done by this work made the MEMS flexible display an important alternative to electrophoretic, electrowetting, and electrochromic systems.

Published

2010

86. Dirty-Paper Coding for the Gaussian Multiaccess Channel With Conferencing

Author

Shraga I. Bross, Michele Wigger, and Amos Lapidoth

Subjects

business.industry, Computer science, Gaussian, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, Co-channel interference, Data_CODINGANDINFORMATIONTHEORY, Library and Information Sciences, Interference (wave propagation), Topology, Noise (electronics), Computer Science Applications, symbols.namesake, Transmission (telecommunications), Interference (communication), Gaussian noise, symbols, Dirty paper coding, Telecommunications, business, Computer Science::Databases, Computer Science::Information Theory, Information Systems, Communication channel

Abstract

We derive the capacity region of the two-user dirty-paper Gaussian multiaccess channel (MAC) with conferencing encoders. In this MAC, prior to each transmission block, the transmitters can hold a conference in which they can communicate with each other over error-free bit pipes of given capacities. The received signal suffers not only from additive Gaussian noise but also from additive interference, which is known noncausally to the transmitters but not to the receiver. The additive interference is modeled as Gaussian or uniform over a sphere. We show that the interference can be perfectly mitigated, i.e., that the capacity region without interference can also be achieved in its presence. This holds irrespective of whether the transmitters learn the interference before or after the conference. It follows as a corollary that also for the MAC with degraded message sets, the interference can be perfectly mitigated if it is known noncausally to the transmitters. To derive our results, we generalize Costa's single-user writing-on-dirty-paper achievability result to channels with dependent interference and not-necessarily Gaussian noise.

Published

2012

87. Keynote Paper: From EDA to IoT eHealth: Promises, Challenges, and Solutions

Author

Krishnendu Chakrabarty, Mohamed Ibrahim, Farshad Firouzi, and Bahar Farahani

Subjects

business.industry, Computer science, Big data, Interoperability, Wearable computer, 020206 networking & telecommunications, 02 engineering and technology, Computer Graphics and Computer-Aided Design, Data science, 020202 computer hardware & architecture, Software, Health care, 0202 electrical engineering, electronic engineering, information engineering, eHealth, Electrical and Electronic Engineering, business, Internet of Things, mHealth

Abstract

The interaction between technology and healthcare has a long history. However, recent years have witnessed the rapid growth and adoption of the Internet of Things (IoT) paradigm, the advent of miniature wearable biosensors, and research advances in big data techniques for effective manipulation of large, multiscale, multimodal, distributed, and heterogeneous data sets. These advances have generated new opportunities for personalized precision eHealth and mHealth services. IoT heralds a paradigm shift in the healthcare horizon by providing many advantages, including availability and accessibility, ability to personalize and tailor content, and cost-effective delivery. Although IoT eHealth has vastly expanded the possibilities to fulfill a number of existing healthcare needs, many challenges must still be addressed in order to develop consistent, suitable, safe, flexible, and power-efficient systems that are suitable fit for medical needs. To enable this transformation, it is necessary for a large number of significant technological advancements in the hardware and software communities to come together. This keynote paper addresses all these important aspects of novel IoT technologies for smart healthcare-wearable sensors, body area sensors, advanced pervasive healthcare systems, and big data analytics. It identifies new perspectives and highlights compelling research issues and challenges, such as scalability, interoperability, device-network-human interfaces, and security, with various case studies. In addition, with the help of examples, we show how knowledge from CAD areas, such as large scale analysis and optimization techniques can be applied to the important problems of eHealth.

Published

2018

88. Streamlining the Inclusion of Computer Experiments In a Research Paper

Author

Mewena Awesso, Raphaël Khoury, and Sylvain Hallé

Subjects

General Computer Science, Java, business.industry, Computer science, 020207 software engineering, 02 engineering and technology, Computer experiment, Toolchain, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, Task analysis, The Internet, User interface, business, Software engineering, computer, Inclusion (education), computer.programming_language

Abstract

Designing clean, reusable, and repeatable experiments for a research paper does not have to be difficult. We report on our efforts to create an integrated toolchain for running, processing, and including the results of computer experiments in scientific publications.

Published

2018

89. Impact of wavefront time of microsecond impulse on the breakdown voltage of oil impregnated paper: Mechanism analysis

Author

Wenxia Sima, Qiulin Chen, Xiongwei Jiang, Jiaqi Chen, Potao Sun, and Dingfei Zhang

Subjects

010302 applied physics, Wavefront, Materials science, business.industry, 02 engineering and technology, Dielectric, Impulse (physics), 021001 nanoscience & nanotechnology, 01 natural sciences, Space charge, Microsecond, Electric field, 0103 physical sciences, Breakdown voltage, Optoelectronics, Electrical and Electronic Engineering, 0210 nano-technology, business, Voltage

Abstract

Breakdown in dielectrics, the mechanism of which is still not yet fully revealed, exhibits very complicated test phenomena and characteristics. The breakdown voltage of a dielectric is believed to be related not only to the dielectric properties but also to the waveform of the applied voltage. For most dielectrics, the impulse breakdown voltage decreases with increasing wavefront time. However, we found for oil-impregnated paper (OIP) used in power transformers, increasing wavefront time in lightning impulses (at microsecond timescales) may lead to a significant increase in breakdown voltage. In contrast, the variation in the wavetail time produces very little effect on breakdown voltage. Combined with our previous test results on the space charge distributions in OIP, we tried to provide two explanations regarding this interesting phenomenon: First, the wavefront time of the applied impulse voltage affects the movement process of the positive particles in the oil-filled micro cavities in OIP, which is strongly related to the local electric field in the oil filled micro cavities and the breakdown voltage of the OIP. Moreover, the wavefront time is closely related to the trapping and detrapping process of the dielectrics. Therefore the effects of the traps in dielectric on the breakdown characteristics are different when the wavefront time varies.

Published

2018

90. A Reconfigurable Inkjet-Printed Antenna on Paper Substrate for Wireless Applications

Author

Hattan F. Abutarboush and Atif Shamim

Subjects

Materials science, Gain measurement, Antenna radiation patterns, business.industry, Bandwidth (signal processing), 020206 networking & telecommunications, 02 engineering and technology, 021001 nanoscience & nanotechnology, Radiation pattern, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Wireless, Electrical and Electronic Engineering, 0210 nano-technology, business, Diode, Parametric statistics

Abstract

An inkjet-printed reconfigurable multiband antenna printed on a low-cost commercial photo paper substrate using two p-i-n diodes is proposed for the first time. A main radiator is designed to operate at 3.4 GHz band, whereas L-shaped and U-shaped radiating elements are designed to operate at 1.9 and 2.4 GHz, respectively. The antenna has a size of 30 × 40 × 0.44 mm3 and can cover most of the mobile and wireless bands between 1.5 and 4 GHz. A prototype of the proposed antenna is fabricated and measured. Measured and simulated results of S 11, radiation pattern, gain, and efficiency are in good agreement. Measured results show that the antenna has a gain and efficiency of 2 dBi and 50%, respectively. A parametric study is proposed as a guidance to design the antenna for operating in other bands between 1.5 and 4 GHz.

Published

2018

91. Preface: Message from the VIS Paper Chairs and Guest Editors

Author

Tobias Schreck, Shixia Liu, Tim Dwyer, Xiaoru Yuan, Niklas Elmqvist, Ingrid Hotz, Robert M. Mike Kirby, Steve Franconeri, and Brian Fisher

Subjects

Visual analytics, biology, GeneralLiterature_INTRODUCTORYANDSURVEY, Computer science, business.industry, Scientific visualization, biology.organism_classification, Computer Graphics and Computer-Aided Design, Visualization, World Wide Web, Computer graphics, Information visualization, Signal Processing, Computer Vision and Pattern Recognition, Phoenix, business, ComputingMilieux_MISCELLANEOUS, Software

Abstract

EditorsThis January 2018 issue of the IEEE Transactions on Visualization and Computer Graphics contains the proceedings of IEEE VIS 2017, held during 1-6 October 2017. In 2017, IEEE VIS returns to the city of Phoenix, AZ, USA, for the conference's 28th year. The conference will be held at the Hyatt Regency Phoenix hotel. VIS consists of three conferences, held concurrently: the IEEE Visual Analytics Science and Technology Conference (VAST 2017), the IEEE Information Visualization Conference (InfoVis 2017), and the IEEE Scientific Visualization Conference (SciVis 2017). Information on the paper review process is provided along with an overview of each conference.

Published

2018

92. Guest Editorial: Special Issue on Selected Papers From IEEE ISCAS 2019

Author

Ming-Dou Ker, Maurizio Valle, and Matthew L. Johnston

Subjects

business.industry, Computer science, Biomedical Engineering, Electrical engineering, Special section, Electrical and Electronic Engineering, business

Abstract

The papers in this special section were presented at the 2019 IEEE International Symposium on Circuits and Systems (ISCAS 2019), that was held in Sapporo, Hokkaido, Japan from May 26 to 29, 2019.

Published

2019

93. Guest Editorial Selected Papers From the 2019 IEEE International Solid-State Circuits Conference

Author

Roman Genov, Maysam Ghovanloo, Pedram Mohseni, and Alison Burdett

Subjects

Thesaurus (information retrieval), Engineering, business.industry, Biomedical Engineering, Solid-state, Special section, Library science, Electrical and Electronic Engineering, business

Abstract

The six papers in this special section were presented at the IEEE International Solid-State Circuits Conference (ISSCC 2019) that was held in San Francisco, California, from February 17 to February 21, 2019.

Published

2019

94. Foreword Special Section on Flexible Electronics From the Selected Extended Papers Presented at 2018 IFETC

Author

Ye Tao, Ta-Ya Chu, Arokia Nathan, Gaozhi Xiao, and Samar K. Saha

Subjects

Engineering, Electron device, business.industry, Flexible electronics, Field (computer science), Electronic, Optical and Magnetic Materials, Engineering management, Industrial technology, Research council, Special section, lcsh:Electrical engineering. Electronics. Nuclear engineering, Instrumentation (computer programming), Electrical and Electronic Engineering, business, lcsh:TK1-9971, Biotechnology

Abstract

This Special Section is devoted to the research and development activities of all areas of flexible electronics science and technology. We have a selected number of high impact technical papers presented at the first IEEE International Flexible Electronics Technology Conference (IFETC) in 2018 for publication in J-EDS. The first IFETC was held in Ottawa, Ontario, Canada from the 7th to 9th August, 2018. The conference was financially sponsored by the IEEE Council on RFID, and technically sponsored by the National Research Council Canada, IEEE Electron Device Society, and the IEEE Instrumentation and Measurement Society. The conference was dedicated to the advances in flexible electronics in all areas of science and technology, and provided an opportunity for scientists, researchers, engineers, developers, and users in the field to share, discuss, and witness new concepts and ideas. A wide spectrum of academic research results was presented, with potential applications in current industrial technology and new application driven domains.

Published

2019

95. Paper-Based Flexible Taxel Device Using Electrical Contact Resistance Variation for Elasticity Measurement on Biological Objects

Author

Ying-Chih Liao, Yu-Chia Yeh, Chao-Cheng Shiau, Yen-Wen Lu, and Zhen-Kai Kao

Subjects

Conductive polymer, Materials science, business.industry, Biological objects, Nanotechnology, Paper based, Imaging phantom, Electrical contacts, Compressibility, Surface roughness, Optoelectronics, Electrical and Electronic Engineering, Elasticity (economics), business, Instrumentation

Abstract

A taxel device on flexible substrates based on the electrical contact resistance (ECR) variation mechanism is developed. The proposed taxel device consists of one top and one bottom substrates, which are coated with conductive polymer then face-to-face assembled. The device is tested with different substrate materials to show the viability of the ECR variation mechanism. It is found that when paper is used as the substrate material, because of its exclusive features of surface roughness and material compressibility, the ECR variation mechanism is greatly enhanced and the device exhibits higher sensitivity and larger working pressure range. Practical applications are investigated in elasticity measurement on phantom samples and biological tissues. The results are promising with our taxel device made on flexible substrates being capable of integration onto surgical tools and the potential to realize the psychical property of biological tissues.

Published

2013

96. Apply or Die: On the Role and Assessment of Application Papers in Visualization

Author

Ben Shneiderman, Anders Ynnerman, Brian Fisher, Hans Hagen, Gunther H. Weber, Sheelagh Carpendale, and David S. Ebert

Subjects

Artificial Intelligence and Image Processing, Operations research, business.industry, Computer science, Software Engineering, 020207 software engineering, 02 engineering and technology, Computer Graphics and Computer-Aided Design, Data science, Field (computer science), Visualization, Computer graphics, Data visualization, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, Cognitive Sciences, Electrical and Electronic Engineering, business, Software

Abstract

Application-oriented papers provide an important way to invigorate and cross-pollinate the visualization field, but the exact criteria for judging an application paper's merit remain an open question. This article builds on a panel at the 2016 IEEE Visualization Conference entitled "Application Papers: What Are They, and How Should They Be Evaluated?" that sought to gain a better understanding of prevalent views in the visualization community. This article surveys current trends that favor application papers, reviews the benefits and contributions of this paper type, and discusses their assessment in the review process. It concludes with recommendations to ensure that the visualization community is more inclusive to application papers.

Published

2017

97. Influence of paper insulation on the prebreakdown phenomena in mineral oil under lightning impulse

Author

Pawel Rozga

Subjects

Materials science, business.industry, Electrical engineering, Mechanics, Impulse (physics), Space charge, Crêpe paper, Insulation system, Shadowgraph, Light emission, Surface charge, Electrical and Electronic Engineering, business, Voltage

Abstract

This paper presents the results of experimental studies about the prebreakdown phenomena in mineral oil under lightning impulse. Experiments were carried out in a non-uniform field setup with HV electrode covered by crepe paper. The results of the experiments were compared with the results of research performed for bare HV electrodes. The onset voltage, propagation velocity, time to initiation, shadowgraph photos of discharges and light emission were respectively measured or recorded during the experiments. Analysis of the research outcomes indicates that the fundamental role of paper insulation is to raise the onset voltage by shoving away the onset sites out of the region of high field stress. The insulation wrapping does not have an influence on the shape of discharge patterns and on the propagation velocity. Some of the results connected with the times to initiation points that the mechanism of discharge initiation at the HV electrode surface does not depend on the fact it is insulated. The source of "weak points" of the paper-oil insulation system is the oil, not the surface of insulation wrapping or metal of electrode. Observation of the oscillograms of light emitted by discharge channels indicates the difference in the mechanism of discharge propagation. The surface and space charge carriers left in the interelectrode space after discharge flash play an important role. In the case of insulated electrodes, the surface charge remains longer on the surface of electrode, reducing the electric field stress which is responsible for reignition. Simultaneously, the space charge reduces the degree of channel ramification. Both the observations are clearly visible on the oscillograms of light as differences in the frequency of light impulses and their peak values.

Published

2011

98. Uniting the Paper and Digital Worlds

Author

K. Schreiner

Subjects

Paper, Handwriting, Ubiquitous computing, Multimedia, business.industry, Computer science, Internet privacy, Mobile computing, Information Storage and Retrieval, Signal Processing, Computer-Assisted, Equipment Design, computer.software_genre, Computer Graphics and Computer-Aided Design, User-Computer Interface, Health care, Mobile telephony, Computer Peripherals, business, computer, Software, Digital paper

Abstract

Digital pen and paper technologies are proving increasingly popular in vertical markets such as health care and manufacturing, which make heavy use of standardized forms that can easily be produced on specialized paper. But the still-untapped frontier is the horizontal zone of everyday consumers. Within this vast and tempting territory resides the commercial digital pen's most-often targeted subgroup: notetakers - whether they're journalists, lawyers, or the many students who sit daily with their heads bobbing between their paper or computer notebooks and the lecturer at the podium. In the past year, several new digital pens have targeted this group in the hope of uniting the broader market's paper and digital worlds. And one digital pen - Livescribe's Pulse smartpen - is working out its grand vision of a paper-based mobile computing platform that it hopes will radically alter how we view pens and their possibilities.

Published

2008

99. Soliton Mode-Locked Erbium-Doped Fiber Laser Using Non-Conductive Graphene Oxide Paper

Author

Harith Ahmad, Sulaiman Wadi Harun, and M. A. Ismail

Subjects

Materials science, business.industry, Graphene, Physics::Optics, chemistry.chemical_element, Saturable absorption, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, law.invention, Erbium, Optics, chemistry, law, Fiber laser, Femtosecond, Optoelectronics, Electrical and Electronic Engineering, Photonics, business, Ultrashort pulse, Graphene oxide paper

Abstract

A femtosecond mode-locked soliton erbium-doped fiber laser (EDFL) is demonstrated using a commercially available nonconductive graphene oxide paper as a saturable absorber. The paper that is sandwiched between two fiber ferrules acts as a mode-locker. The EDFL generates a soliton mode-locked pulse train with a repetition rate of 15.62 MHz and pulsewidth of 680 fs. It is observed that the fiber laser has a low pulsing threshold as well as low damage threshold. The pulse energy and peak power are 0.0085 nJ and 11.85 W, respectively. The easy fabrication of graphene oxide paper should promote its potential application in ultrafast photonics.

Published

2014

100. Guest Editorial Best Paper Finalists from the IEEE RFID 2021

Author

Stewart J. Thomas and Francesco Amato

Subjects

Engineering, business.industry, Organic Chemistry, business, Telecommunications, Biochemistry, Energy harvesting, Bridge (interpersonal)

Abstract

The need to bridge the digital world to the physical one is growing quickly and the RFID technology is mature enough to meet this need. Moreover, the versatility of RFIDs inspires researchers from all over the world to find new techniques that further improve the technology for new cross-disciplinary applications involving localization, healthcare, energy harvesting, computer science and so on.

Published

2021