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26,952 results

1. My paper has been rejected without review. What do I do now?

Author

Cleland, Jennifer, O'Sullivan, Patricia, Kuper, Ayelet, and Lee Kong Chian School of Medicine (LKCMedicine)

Subjects
General Medicine, Education [Social sciences], Article, Education
Abstract

This column is intended to address the kinds of knotty problems and dilemmas with which many scholars grapple in studying health professions education. In this article, the authors address the question of why papers may be desk rejected (rejected without going out for formal peer review) and describe simple steps for authors to optimize their work so it gets past the desk reject stage. Submitted/Accepted version

Published
2023

2. Novel Nanopigments with a Thiazole Moiety for Printing Paper, Carton, and Polyester Fabrics: Synthesis, Characterization, and Color Strength with Comparative Study

Author

Hala F. Rizk, Mohamed A. El-Borai, Osama M. Hemeda, Seham A. Ebrahim, and Mohamed E. Sadek

Subjects
Polymers and Plastics, General Chemical Engineering, General Chemistry
Abstract

A series of new coloring materials in nanoscale based on 5-(2-aminothiazol-5-yl) thiazol-2-amine and 5-(4-aminophenyl) thiazol-2-amine were synthesized. The nanoscale pigments were prepared using a grinding high˗energy ball-milling technique. X-ray diffraction and transmission electron microscopy were employed to determine the particle size of the nanoscale pigments (40–80 nm). The synthesized pigments in normal and nanoscale were applied in the printing of polyester fabrics. The fastness and colorimetric properties of the printed samples were carefully studied. Additionally, the synthesized pigments were applied as water-based flexographic ink for paper and carton. The hue of the color pigments L*, a*, b*, glossiness, and fastness to light were measured. The comparison of the new heterocyclic benzidine analogs in normal and nanoscale with commercial benzidine pigments demonstrated better results, particularly for the nanoscale pigments.

Published
2023

3. Position paper on CDK4/6 inhibitors in early breast cancer

Author

Michael Gnant, Christian F. Singer, Gabriel Rinnerthaler, Georg Pfeiler, Daniel Egle, Marija Balic, and Rupert Bartsch

Subjects
Oncology, Hematology
Abstract

SummaryInhibitors of the cyclin-dependent kinases 4/6 (CDK4/6i) have been practice-changing and are now considered the standard of care in combination with endocrine therapy for the first- or second-line treatment in advanced hormone-receptor-positive, human epidermal growth factor receptor 2‑negative breast cancer. Recently, CDK4/6i have also emerged as an appealing targeted cancer therapy in early breast cancer, however results of large clinical trials are controversial. This position paper summarizes the evidence, and provides guidance for clinical practice.

Published
2023

5. Post hip fracture orthogeriatric care—a Canadian position paper addressing challenges in care and strategies to meet quality indicators

Author

Aliya A. Khan, Hajar AbuAlrob, Hatim Al-alwani, Dalal S. Ali, Khulod Almonaei, Farah Alsarraf, Earl Bogoch, Karel Dandurand, Aaron Gazendam, Angela G. Juby, Wasim Mansoor, Sharon Marr, Emmett Morgante, Frank Myslik, Emil Schemitsch, Prism Schneider, Jenny Thain, Alexandra Papaioannou, and Paul Zalzal

Subjects
Endocrinology, Diabetes and Metabolism
Published
2023

8. Manufacturing heat-damaged papers as model materials for evaluating conservation methods

Author

Laura Völkel, Dmitrii Rusakov, Eero Kontturi, Marco Beaumont, Thomas Rosenau, Antje Potthast, University of Natural Resources and Life Sciences, Vienna, Department of Bioproducts and Biosystems, Aalto-yliopisto, and Aalto University

Subjects
Paper, Heat-damaged cellulose, Heating methods, Polymers and Plastics, Thermal aging, Chemical analysis, Surface structure, Thermal stress
Abstract

Publisher Copyright: © 2022, The Author(s). Direct fire, indirect heat, and extinguishing water cause great damage to cultural assets upon a fire disaster in a library or archive. Conservation and restoration of heat-damaged papers are particularly challenging due to the complexity and severity of the damage. Since valuable originals obviously cannot be used for the development of treatment methods and only to a limited extent for the analysis of the damage, it is necessary to produce model paper materials that have a high degree of similarity to fire-damaged papers, which was addressed in the present study. Three different heating methods were tested to produce model papers of different heating levels. Their altered optical, structural, and chemical properties were analyzed and compared with the results of original fire-damaged samples. The study points out pathways to enable the production of comparable sample materials. Heating between hot plates or in an oven produces papers that have properties quite similar to the originals in terms of surface area, paper structure, cellulose integrity, and interactions with water. Stack heating in the oven has proven to be a particularly effective manufacturing method for larger quantities of model papers.

Published
2022

9. Simplified fabrication of laminated paper-based analytical device (LPAD) with color-palette mobile app for analysis of salicylic acid in pharmaceutical products

Author

Kanchana Uraisin, Panwadee Wattanasin, Nakarin Noirahaeng, and Phoonthawee Saetear

Subjects
Paper, Engineering drawing, Fabrication, Chemistry, Mobile apps, Paper based, Mobile Applications, Analytical Chemistry, chemistry.chemical_compound, Palette (painting), Pharmaceutical Preparations, Smartphone, Salicylic Acid, Salicylic acid
Abstract

In this work, we present for the first time, a simplified fabrication of a laminated paper-based analytical device (LPAD) with a free-mobile app, Palette Cam, for image analysis. A filter paper is cut in a rectangular shape (9 × 3 cm) and placed between a top laminating sheet with punched holes and a bottom laminating sheet. The holes allow accessibility of liquid on the paper. Thermal lamination is then employed to complete the fabrication of LPAD. Our simplified design reduces a tedious alignment of small pieces of paper to the holes. We demonstrated the LPAD with an analysis of salicylic acid in pharmaceutical products. Each 4 μL of ferric reagent and sample was dispensed on the LPAD. Smartphone was used to capture images. The RGB (red green blue) color intensity from the Palette Cam was converted into a logarithm color ratio. Our LPAD is simplified, cost-effective and able to be a portable device.

Published
2022

10. Identification and characterization of sticky contaminants in multiple recycled paper grades

Author

Yun Wang, Cornellius Marcello, Neha Sawant, Abdus Salam, Said Abubakr, Dewei Qi, and Kecheng Li

Subjects
Polymers and Plastics
Abstract

Organic sticky contaminants represent one of the biggest technical challenges in the paper recycling process. These contaminants reduce paper strength, cause plugging of wires and felts, and stick to or deposit on machine parts affecting the runnability of the paper machine. The removal of these sticky contaminants is difficult to achieve along the process due to the heterogeneous nature of these organic contaminants. In this study, the nature of sticky contaminants in multiple wastepaper grades was analyzed and characterized using screening, solvent extraction with subsequent analysis such as FT-IR, GC-MS, and SEM. The content of stickies in wastepaper varies among different paper grades and their recovery methods. The majority of wastepaper grades collected from a recycled paper mill contains 3–5 wt% stickies, while a sample from a curb side collection from a residential area contains about 15 wt% stickies. Polyvinyl acetate (PVA) polymers, styrene butadiene rubber (SBR), paraffin waxes and polyamines are the major components in the extracted sticky contaminants. In addition, these stickies deposit heavily on fibers surface leading to high negative charge in fibers suspension ranging between 2 ~ 4.5 µeq/L. It is expected that these findings will assist addressing the knowledge gaps in understanding the nature of stickies and their behaviors, and to eventually develop highly efficient technologies for contamination removal in the paper recycling process.

Published
2022

11. ACPSEM position paper: the safety of magnetic resonance imaging linear accelerators

Author

Stephen Gibson

Subjects
Radiological and Ultrasound Technology, Biomedical Engineering, Biophysics, Radiology, Nuclear Medicine and imaging, Instrumentation, Biotechnology
Abstract

Magnetic Resonance Imaging linear-accelerator (MRI-linac) equipment has recently been introduced to multiple centres in Australia and New Zealand. MRI equipment creates hazards for staff, patients and others in the MR environment; these hazards must be well understood, and risks managed by a system of environmental controls, written procedures and a trained workforce. While MRI-linac hazards are similar to the diagnostic paradigm, the equipment, workforce and environment are sufficiently different that additional safety guidance is warranted. In 2019 the Australasian College of Physical Scientists and Engineers in Medicine (ACPSEM) formed the Magnetic Resonance Imaging Linear-Accelerator Working Group (MRILWG) to support the safe clinical introduction and optimal use of MR-guided radiation therapy treatment units. This Position Paper is intended to provide safety guidance and education for Medical Physicists and others planning for and working with MRI-linac technology. This document summarises MRI-linac hazards and describes particular effects which arise from the combination of strong magnetic fields with an external radiation treatment beam. This document also provides guidance on safety governance and training, and recommends a system of hazard management tailored to the MRI-linac environment, ancillary equipment, and workforce.

Published
2023

12. Roll stamped Ni/MWCNT composites for highly reliable cellulose paper-based strain sensor

Author

Xue Qi, Paolo Matteini, Byungil Hwang, and Sooman Lim

Subjects
Polymers and Plastics
Abstract

Printing technology for electronic devices has received significant attention owing to its fast and massive productivity under ambient conditions. In this study, a facile approach was proposed for manufacturing cellulose paper-based strain sensors with Ni/ multi-walled carbon nanotubes (MWCNT) composites using roll stamping technology. This process enables fabrication of stable sensing structures owing to the formation of stable Ni core enveloping structures in the MWCNT interlacing network. In particular, the rheological properties of the composites revealed shear thinning and thixotropic behaviors, which resulted in fine printing of the sensing electrodes. Furthermore, the shape of the printed patterns, impacted by the pattern morphology, significantly influenced the strain-sensing performance. In particular, the Ni/MWCNT composite-based strain sensor exhibited higher gauge factor of 13.9 with high sensing recovery of 90.4% and stability for 23,500 bending cycles test.

Published
2022

15. ACPSEM position paper: dosimetry for magnetic resonance imaging linear accelerators

Author

Jarrad Begg, Lois Holloway, and Urszula Jelen

Subjects
Radiological and Ultrasound Technology, Biomedical Engineering, Biophysics, Radiology, Nuclear Medicine and imaging, Instrumentation, Biotechnology
Abstract

Consistency and clear guidelines on dosimetry are essential for accurate and precise dosimetry, to ensure the best patient outcomes and to allow direct dose comparison across different centres. Magnetic Resonance Imaging Linac (MRI-linac) systems have recently been introduced to Australasian clinics. This report provides recommendations on reference dosimetry measurements for MRI-linacs on behalf of the Australiasian College of Physical Scientists and Engineers in Medicine (ACPSEM) MRI-linac working group. There are two configurations considered for MRI-linacs, perpendicular and parallel, referring to the relative direction of the magnetic field and radiation beam, with different impacts on dose deposition in a medium. These recommendations focus on ion chambers which are most commonly used in the clinic for reference dosimetry. Water phantoms must be MR safe or conditional and practical limitations on phantom set-up must be considered. Solid phantoms are not advised for reference dosimetry. For reference dosimetry, IAEA TRS-398 recommendations cannot be followed completely due to physical differences between conventional linac and MRI-linac systems. Manufacturers’ advice on reference conditions should be followed. Beam quality specification of TPR20,10 is recommended. The configuration of the central axis of the ion chamber relative to the magnetic field and radiation beam impacts the chamber response and must be considered carefully. Recommended corrections to delivered dose are $${k}_{{Q}_{msr}{Q}_{0}}^{{f}_{msr}{f}_{ref}}$$ k Q msr Q 0 f msr f ref , a correction for beam quality and $${k}_{\overrightarrow{B},{Q}_{msr}}^{{f}_{msr}}$$ k B → , Q msr f msr , for the impact of the magnetic field on dosimeter response in the magnetic field. Literature based values for $${k}_{\overrightarrow{B},{Q}_{msr}}^{{f}_{msr}}$$ k B → , Q msr f msr are given. It is important to note that this is a developing field and these recommendations should be used together with a review of current literature.

Published
2023

17. Soil geotechnical improvement by using waste from the paper industry

Author

Fabiano Alexandre Nienov, Gilberto Regalin Júnior, Lucas Quiocca Zampieri, Gislaine Luvizão, Denilson Lorenzatto, William Michelon, and Aline Viancelli

Subjects
General Physics and Astronomy, General Biochemistry, Genetics and Molecular Biology
Published
2023

19. A multidimensional approach to older patients during COVID-19 pandemic: a position paper of the Special Interest Group on Comprehensive Geriatric Assessment of the European Geriatric Medicine Society (EuGMS)

Author

Eva Topinkova, Tajana Pavic, and Carlo Custodero

Abstract

Purpose The COVID-19 pandemic has been a dramatic trigger that has challenged the intrinsic capacity of older adults and of society. Due to the consequences for the older population worldwide, the Special Interest Group on Comprehensive Geriatric Assessment (CGA) of the European Geriatric Medicine Society (EuGMS) took the initiative of collecting evidence on the usefulness of the CGA-based multidimensional approach to older people during the COVID-19 pandemic. Methods A narrative review of the most relevant articles published between January 2020 and November 2022 that focused on the multidimensional assessment of older adults during the COVID-19 pandemic. Results Current evidence supports the critical role of the multidimensional approach to identify older adults hospitalized with COVID-19 at higher risk of longer hospitalization, functional decline, and short-term mortality. This approach appears to also be pivotal for the adequate stratification and management of the post-COVID condition as well as for the adoption of preventive measures (e.g., vaccinations, healthy lifestyle) among non-infected individuals. Conclusion Collecting information on multiple health domains (e.g., functional, cognitive, nutritional, social status, mobility, comorbidities, and polypharmacy) provides a better understanding of the intrinsic capacities and resilience of older adults affected by SARS-CoV-2 infection. The EuGMS SIG on CGA endorses the adoption of the multidimensional approach to guide the clinical management of older adults during the COVID-19 pandemic.

Published
2023

21. An application study of membraneless-gas separation microfluidic paper-based analytical device for monitoring total ammonia in fish pond water using natural reagent

Author

Puspita Mufidah Sari, Adawiah Daud, Hermin Sulistyarti, Akhmad Sabarudin, and Duangjai Nacapricha

Subjects
Paper, Ammonia, Ammonium Compounds, Microfluidics, Water, Indicators and Reagents, Ponds, Analytical Chemistry
Abstract

The membraneless-gas separation microfluidic paper-based analytical device (ML-GS μPAD), consisting of donor, spacer, and acceptor layers, was developed to monitor total ammonia in fish pond water. The principle of the analysis involved the addition of sodium hydroxide solution to the sample zone in the donor layer containing ammonia/ammonium, and the produced ammonia gas diffuses through the spacer to the detection zone in the acceptor layer containing red rose extract to produce a color change from pink to blue corresponding to the ammonia/ammonium concentration. Under optimum conditions, the proposed method provided good linearity of ammonia in the range concentration of 0-100 mg L

Published
2022

22. Paper-based laser-induced graphene for sustainable and flexible microsupercapacitor applications

Author

Ricardo Correia, Ana Marques, João Coelho, Elvira Fortunato, Maria Rosário P. Correia, Sara Silvestre, Joana Vaz Pinto, Rodrigo Martins, Tomás Pinheiro, CENIMAT-i3N - Centro de Investigação de Materiais (Lab. Associado I3N), DCM - Departamento de Ciência dos Materiais, and UNINOVA-Instituto de Desenvolvimento de Novas Tecnologias

Subjects
Paper electronics, Laser-induced graphene, Lasers, Graphite, Flexible devices, Microsupercapacitors, Sustainable production methods, Electric Capacitance, Electrodes, Analytical Chemistry
Abstract

Funding Information: Open access funding provided by FCT|FCCN (b-on). This work was financed by national funds from Fundação para a Ciência e a Tecnologia (FCT), I.P., in the scope of the projects LA/P/0037/2020, UIDP/50025/2020, and UIDB/50025/2020 of the Associate Laboratory Institute of Nanostructures, Nanomodelling and Nanofabrication–i3N and by FEDER funds through the COMPETE 2020 Program and National Funds through Portuguese Foundation for Science and Technology under projects POCI-01–0145-FEDER-007688, UID/CTM/50025 and by ERC AdG grant from the project DIGISMART (ERC-AdG-2017, GA 787410). J.C. would like to acknowledge FCT/MCTES for his present research contract with reference CEECIND/00880/2018. R.C. acknowledges funding from i3N-FCT I.P. through the PhD Grant UI/BD/151295/2021. S. S. and T. P. also acknowledge the funding from National Foundation for Science and Technology, through the PhD Grants SFRH/BD/149751/2019 and 2020.08606.BD, respectively. Publisher Copyright: © 2022, The Author(s). Laser-induced graphene (LIG) is as a promising material for flexible microsupercapacitors (MSCs) due to its simple and cost-effective processing. However, LIG-MSC research and production has been centered on non-sustainable polymeric substrates, such as polyimide. In this work, it is presented a cost-effective, reproducible, and robust approach for the preparation of LIG structures via a one-step laser direct writing on chromatography paper. The developed strategy relies on soaking the paper in a 0.1 M sodium tetraborate solution (borax) prior to the laser processing. Borax acts as a fire-retardant agent, thus allowing the laser processing of sensitive substrates that other way would be easily destroyed under the high-energy beam. LIG on paper exhibiting low sheet resistance (30 Ω sq−1) and improved electrode/electrolyte interface was obtained by the proposed method. When used as microsupercapacitor electrodes, this laser-induced graphene resulted in specific capacitances of 4.6 mF cm−2 (0.015 mA cm−2). Furthermore, the devices exhibit excellent cycling stability (> 10,000 cycles at 0.5 mA cm−2) and good mechanical properties. By connecting the devices in series and parallel, it was also possible to control the voltage and energy delivered by the system. Thus, paper-based LIG-MSC can be used as energy storage devices for flexible, low-cost, and portable electronics. Additionally, due to their flexible design and architecture, they can be easily adapted to other circuits and applications with different power requirements. Graphical Abstract: [Figure not available: see fulltext.] publishersversion published

Published
2022

25. A Colorimetric Distinct Color Change Cu(II) 4-{[1-(2,5-dihydroxyphenyl)ethylidene]amino}-1,5-dimethyl-2-phenyl-1,2-dihydro-3H-pyrazol-3-one Chemosensor and its Application as a Paper Test Kit

Author

Nilima Patil, Rajesh Dhake, Raju Phalak, Umesh Fegade, Chennan Ramalingan, Vadivel Saravanan, null Inamuddin, and Tariq Altalhi

Subjects
Clinical Psychology, Sociology and Political Science, Clinical Biochemistry, Law, Biochemistry, Spectroscopy, Social Sciences (miscellaneous)
Abstract

A “4-{[1-(2,5-dihydroxyphenyl)ethylidene]amino}-1,5-dimethyl-2-phenyl-1,2-dihydro-3H-pyrazol-3-one” chemosensor (C1) synthesized by Condensation reaction using “4-amino-1,2-dihydro-1,5-dimethyl-2-phenylpyrazol-3-one” and “2,5-dihydroxy Actophenone”. It shows absorption peak at 326 nm due to the C=C bond (π-π* transition), while the absorption peak at 364 nm is caused by the C=O bond (n-π* transition). In the presence of copper C1 only demonstrated a change in absorption peak to higher wavelength (redshift) from 364 to 425 nm. The hue of both the C1+Cu(II) complex changed from bright yellow to dark brown colour with hypochromic shift appearance of a new peak at 425 nm. Even in the presence of other competing metal ions, the hypsochromic shift of the absorption band and the quenching of the fluorescence emission intensity were different for detecting Cu2+, in CH3OH-H2O (v/v = 6:4). Job's plot was used to compute the binding stoichiometry between C1 and Cu2+, and MASS and FTIR spectrophotometry were used to investigate the complexation process. The capacity of the C1 to bind Cu2+ was further proven using DFT simulations. The complex S1+Cu2+ has a HOMO-LUMO energy gap of 2.8002 eV, which is lesser than S1 (2.9991 eV). From these results, it can be seen that the specific binding of S1 to Cu2+ improves the stability of the S1+Cu2+ complex and effectively reduces the HOMO-LUMO energy gap. The C1 was successfully used in a real-world water sample analysis. Using the Benesi-Hildebrand and Scatchard plots, the Kb was calculated and found to be 47340M-1 and 48369M-1 respectively, showing the creation of stable complexation between Cu2+ and S1 with 1:1 Stoichiometry. The LOD of S1 for Cu2+ ion analysis was determined to be 649 nM. Strip sheets were also built and tested to detect varying amounts of Cu2+ aqueous solution, and their color change suggested that they might be used for on-site Cu2+ detection in polluted water.

Published
2022

26. Is impaired lung function related to spinal deformities in patients with adolescent idiopathic scoliosis? A systematic review and meta-analysis—SOSORT 2019 award paper

Author

Sabrina Donzelli, Mandy MP Kan, Jason Pui Yin Cheung, Fabio Zaina, Tsz Chun Cheung, Arnold YL WONG, Dino Samartzis, Francesca Di Felice, and Stefano Negrini

Subjects
Orthopedics and Sports Medicine, Surgery
Abstract

Purpose Some teenagers with adolescent idiopathic scoliosis (AIS) display compromised lung function. However, the evidence regarding the relations between pulmonary impairments and various spinal deformity parameters in these patients remains unclear, which affects clinical management. This systematic review and meta-analysis aimed to summarize the associations between various lung function parameters and radiographic features in teenagers with AIS. Methods A search of PubMed, Embase, PEDro, SPORTDiscus, CINAHL, Cochrane Library, and PsycINFO (from inception to March 14, 2022) without language restriction. Original studies reporting the associations between lung function and spinal deformity in patients with AIS were selected. Independent reviewers extracted data and evaluated the methodological quality of the included studies according to Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines. Pearson correlation and 95% confidence intervals were calculated using random-effects meta-analysis. Results Twenty-seven studies involving 3162 participants were included. Limited-quality evidence supported that several spinal parameters were significantly related to lung function parameters (e.g., absolute value and percent of the predicted forced vital capacity (FVC; %FVC), forced expiratory volume in one second (FEV1; %FEV1), and total lung capacity (TLC; %TLC)) in AIS patients. Specifically, meta-analyses showed that main thoracic Cobb angles in the coronal plane were significantly and negatively related to FVC (r = − 0.245), %FVC (r = − 0.302), FEV1 (r = − 0.232), %FEV1 (r = − 0.348), FEV1/FVC ratio (r = − 0.166), TLC (r = − 0.302), %TLC (r = − 0.183), and percent predicted vital capacity (r = − 0.272) (p r = − 0.215) and %TLC (r = − 0.126) (p r = 0.180) and %FEV1 (r = 0.193) (p Conclusion Larger thoracic Cobb angles, greater apical vertebral rotation angle, or hypokyphosis were significantly associated with greater pulmonary impairments in patients with AIS, although the evidence was limited. From a clinical perspective, the results highlight the importance of minimizing the three-dimensional spinal deformity in preserving lung function in these patients. More research is warranted to confirm these results.

Published
2022

27. A Distance-Based Microfluidic Paper-Based Biosensor for Glucose Measurements in Tear Range

Author

Mohsen Rabbani and Samira Allameh

Subjects
Paper, Materials science, business.industry, Microfluidics, Glucose Measurement, Bioengineering, Biosensing Techniques, General Medicine, Microfluidic Analytical Techniques, Applied Microbiology and Biotechnology, Biochemistry, Glucose Oxidase, Paper based biosensor, Glucose, Range (statistics), Optoelectronics, business, Molecular Biology, Horseradish Peroxidase, Distance based, Biotechnology
Abstract

The prevalence of diabetes has increased over the past years. Therefore, developing minimally invasive, user-friendly and cost-effective glucose biosensors is necessary especially in low-income and developing countries. Cellulose paper-based analytical devices have attracted the attention of many researchers due to affordability, not requiring trained personnel, and complex equipment. This paper describes a microfluidic paper-based analytical device for the detection of glucose in tear with the naked eye. The paper-based biosensor fabricated by laser CO2, and GOx/HRP enzymatic solution coupled with TMB was utilized as reagents. A sample volume of 10 µl was needed for the biosensor operation and the results were observable within 5 minutes. To evaluate the device performance, color intensity-based and distance-based results were analyzed by ImageJ and Tracker. Distance-based results showed a linear behavior in the range of 0.1–0.6 mM with an R2 = 0.967 and LOD of 0.2 mM. The results could be perceived by the naked eye without any need to further equipment or trained personnel in a relatively short time (3–5 minutes). Moreover, glucose concentration could be obtained non-invasively by tears collected by this µPAD.

Published
2022

28. Are models better read on paper or on screen? A comparative study

Author

El-Attar, Mohamed

Subjects
Controlled experiment, Modeling and Simulation, Screen-based reading use case diagrams, Regular Paper, Student-based experiments, Paper-based reading, Software, Feature diagrams, Model comprehension, Model representation
Abstract

Is it really better to print everything, including software models, or is it better to view them on screen? With the ever increasing complexity of software systems, software modeling is integral to software development. Software models facilitate and automate many activities during development, such as code and test case generation. However, a core goal of software modeling is to communicate and collaborate. Software models are presented to team members on many mediums and two of the most common mediums are paper and computer screens. Reading from paper or screen is ostensibly considered to have the same effect on model comprehension. However, the literature on text reading has indicated that the reading experiences can be very different which in turn effects various metrics related to reader performance. This paper reports on an experiment that was conducted to investigate the effect of reading software models on paper in comparison with reading them on a computer screen with respect to cognitive effectiveness. Cognitive effectiveness here refers to the ease by which a model reader can read a model. The experiment used a total of 74 software engineering students as subjects. The experiment results provide strong evidence that displaying diagrams on a screen allows subjects to read them quicker. There is also evidence that indicates that on screen viewing induces fewer reading errors.

Published
2022

29. Low delay flexible paper-based electrode for capacitive sensor filled through carbon-based materials

Author

Huan Liu, Jingran Quan, Junyao Wang, Qi Hou, Rui Wang, Bowen Cui, Tianhong Lang, Yansong Chen, Hongxu Pan, Jianxin Xu, Hanbo Yang, Lixiang Li, and Yahao Liu

Subjects
Polymers and Plastics
Abstract

Flexible electrodes are widely used in the manufacture of flexible sensors and wearable devices. However, with the development of science and technology and the large-scale utilization of metal resources, the question whether alternative materials can be found to ease the use of metal materials has been raised. Among them, paper-based electrodes have attracted special attention in the industry because of their degradability, low cost and high flexibility. Therefore, a low delay flexible paper-based electrode filled for capacitive sensors is proposed through carbon materials. Different from discussing the influence of single fiber, the paper-based electrode is manufactured by wet process. The effects of different fiber substrates on the physical properties and electrical signal properties of paper-based electrodes were discussed. The results show that the paper-based electrode has high conductivity, which is 18.52 S/cm. And there is a low delay in the process of electrical signal transmission. The phase frequency angle hardly changes at the signal frequency of 1 kHz, and the change of phase frequency angle is only 4.9 ° at the signal frequency of 300 kHz. The thickness of the guided electric paper is about 90 μm. Lower than common paper products. This study shows that the paper-based electrode has the advantages of high conductivity, low hysteresis, light and thin, which provides the possibility to be used as a flexible electrode.

Published
2022

30. Historical Roots and Seminal Papers of Quantum Technology 2.0

Author

Thomas Scheidsteger, Robin Haunschild, and Christoph Ettl

Subjects
Philosophy, History and Philosophy of Science, Sociology and Political Science, Management of Technology and Innovation, Social Sciences (miscellaneous)
Abstract

We present a historical study of Quantum Technology 2.0 using more than 66,000 papers from 1980 to 2020 that had been assigned to four subfields. We applied the method reference publication year spectroscopy to respective publication sets of the subfields in order to identify their historical roots and seminal papers. We found 126 of them in total, 43 in quantum metrology and sensing, 46 in quantum communication and cryptography, 42 in quantum computing, and 33 in quantum information science–with a significant overlap between subfields–which are all discussed in their relevance for the respective subfield. We compared the subfields regarding their interrelationship and distinctiveness in terms of their most influential papers and were able to deduce a common core set of five seminal publications in all four subfields.

Published
2022

31. Different approaches to test orientation of self in space: comparison of a 2D pen-and-paper test and a 3D real-world pointing task

Author

J. Gerb, T. Brandt, and M. Dieterich

Subjects
Neurology, Neurology (clinical)
Abstract

Spatial orientation is based on a complex cortical network with input from multiple sensory systems. It is affected by training, sex and age as well as cultural and psychological factors, resulting in different individual skill levels in healthy subjects. Various neurological disorders can lead to different patterns or specific deficits of spatial orientation and navigation. Accordingly, numerous tests have been proposed to assess these abilities. Here, we compare the results of (1) a validated questionnaire-based self-estimate of orientation/navigation ability (Santa Barbara Sense of Direction Scale, SBSODS) and (2) a validated pen-and-paper two-dimensional perspective test (Perspective Taking Spatial Orientation Test, SOT) with (3) a newly developed test of finger-arm pointing performance in a 3D real-world (3D-RWPT) paradigm using a recently established pointing device. A heterogeneous group of 121 participants (mean age 56.5 ± 17.7 years, 52 females), including 16 healthy volunteers and 105 patients with different vestibular, ocular motor and degenerative brain disorders, was included in this study. A high correlation was found between 2D perspective task and 3D pointing along the horizontal (azimuth) but not along the vertical (polar) plane. Self-estimated navigation ability (SBSODS) could not reliably predict actual performance in either 2D- or 3D-tests. Clinical assessment of spatial orientation and memory should therefore include measurements of actual performance, based on a 2D pen-and-paper test or a 3D pointing task, rather than memory-based questionnaires, since solely relying on the patient’s history of self-estimated navigation ability results in misjudgments. The 3D finger-arm pointing test (3D-RWPT) reveals additional information on vertical (polar) spatial performance which goes undetected in conventional 2D pen-and-paper tests. Diseases or age-specific changes of spatial orientation in the vertical plane should not be clinically neglected. The major aim of this pilot study was to compare the practicability and capability of the three tests but not yet to prove their use for differential diagnosis. The next step will be to establish a suitable clinical bedside test for spatial memory and orientation.

Published
2022

32. Surface Degradation of Oil-Immersed Nomex Paper Caused by Partial Discharge of High-Frequency Voltage

Author

Xiaonan Li, Wenxu Zhang, Hong Wang, Xiping Ma, Hongliang Zhang, Kangle Li, Tong Qin, Kai Liu, Yan Yang, and Guangning Wu

Subjects
Materials Chemistry, Electrical and Electronic Engineering, Condensed Matter Physics, Electronic, Optical and Magnetic Materials
Abstract

The oil-paper insulation of high-frequency (HF) transformers frequently withstands high-frequency over-voltages at frequencies of several kHz and above. This leads to the occurrence of partial discharge (PD), which causes premature insulation failure in HF transformers. In order to investigate the effect of PD under high-frequency stresses on oil-impregnated Nomex paper, this paper analyzes the surface morphology, bond-broken types of the molecular chain, and product types formed for oil paper after PD degradation. Then, the damage mechanism of oil-immersed Nomex paper between high-frequency and AC stress is explored. The experimental results show that the branches of creepage do not exist in the oil-paper insulation during the entire discharge process under high-frequency stresses, and that their damage degree is higher than that of AC stress. This is mainly because the benzene ring of oil-impregnated Nomex paper is destroyed and opened caused by high-energy particles, the heating effect in HF discharge, and the bulk effect. These results help to improve the design theory of insulation structures and to develop PD-resistant insulation materials in HF transformers.

Published
2022

33. Smart prototype for an electronic color sensor device for visual simultaneous detection of macrofuran based on a coated paper strip

Author

Sheta M, Sheta, Alaa S, Abdelelmoaty, Hassan M, Abu Hashish, Amira M, Kamel, Mohkles M, Abd-Elzaher, and Said M, El-Sheikh

Subjects
Nitrofurantoin, Pharmaceutical Preparations, Colorimetry, Electronics, Biochemistry, Analytical Chemistry
Abstract

Nowadays, in the clinical, pharmaceutical, and environmental sectors, the development of facile and sensitive analytical methods and/or innovative devices for the follow-up and detection of antibiotics and pharmaceutical formulations, in general, are urgently needed and still challenging. This work declared three vital applications for broad-spectrum nitrofurantoin (macrofuran) antibiotic detection and quantification: A colorimetric method, a coated paper strip-based nano-lanthanum complex prototype and fabrication of smart electronic color sensor device-based coated paper strips. The colorimetric method showed a significant response upon increasing the concentration of the nitrofurantoin in a range between (1.0–100.0 ng/mL) via a visual color change from orange-yellow to red colors degree with detection and quantification limits of 0.175 and 0.53 ng/mL, respectively, whereas the nano-lanthanum complex coated paper strip prototype showed qualitative on-site sensing for nitrofurantoin via naked eye color changes which can be detected anywhere. Moreover, a smart prototype for detecting macrofuran in the means of paper color change in the RGB color component extraction algorithm and the grayscale projection value processing algorithm was fabricated. The change in RGB color on the coated paper strip was detected using an electronic color sensor device. The developed colorimetric method, coated paper strip, and the electronic color sensor device prototype exhibited fast, simple, costless, and selective towards macrofuran over the competing analyzed. As well as, showed good applicability in the different real samples spiked with different concentrations of macrofuran. Graphical abstract

Published
2022

34. How to plan your astronomy research paper in ten steps

Author

Nushkia Chamba, Johan H. Knapen, and Diane Black

Subjects
Physics Education (physics.ed-ph), Physics - Physics Education, FOS: Physical sciences, Astronomy and Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM)
Abstract

Scientific writing is an important skill for a career as a professional astrophysicist. Very few researchers, however, receive any formal training in how to write scientific research papers of high quality in an efficient manner. This paper (Paper I) is the first of a two-part self-help guide in scientific writing to address this skills gap. Paper I focuses on planning your academic research paper in astronomy. We discuss how to crystallise the ideas that underlie a research project, analyse how the paper can be constructed considering the audience and the chosen journal, and give an overview of the publishing process. Paper II is a detailed description of the different sections that make up a research paper in astronomy and shares the best practice in how to write in English. Whether you are a student writing your first paper or an experienced author, you may find the ideas presented here useful., Comment: 15 pages; Paper I, submitted as a two-part series of Perspectives to Nature Astronomy. Kindly cite and/or acknowledge this work and Paper II (arXiv:2110.05503: 'How to write and develop your astronomy research paper' by Knapen, Chamba & Black) if you use them to plan and write your paper. Comments are very welcome! The Version of Record is available online at https://rdcu.be/cVdtK

Published
2022

35. Detecting anomalous referencing patterns in PubMed papers suggestive of author-centric reference list manipulation

Author

Jonathan D. Wren and Constantin Georgescu

Subjects
General Social Sciences, Library and Information Sciences, Computer Science Applications
Abstract

Although citations are used as a quantifiable, objective metric of academic influence, references could be added to a paper solely to inflate the perceived influence of a body of research. This reference list manipulation (RLM) could take place during the peer-review process, or prior to it. Surveys have estimated how many people may have been affected by coercive RLM at one time or another, but it is not known how many authors engage in RLM, nor to what degree. By examining a subset of active, highly published authors (n = 20,803) in PubMed, we find the frequency of non-self-citations (NSC) to one author coming from a single paper approximates Zipf’s law. Author-centric deviations from it are approximately normally distributed, permitting deviations to be quantified statistically. Framed as an anomaly detection problem, statistical confidence increases when an author is an outlier by multiple metrics. Anomalies are not proof of RLM, but authors engaged in RLM will almost unavoidably create anomalies. We find the NSC Gini Index correlates highly with anomalous patterns across multiple “red flags”, each suggestive of RLM. Between 81 (0.4%, FDR

Published
2022

36. Smartphone-coupled three-layered paper-based microfluidic chips demonstrating stereoscopic capillary-driven fluid transport towards colorimetric detection of pesticides

Author

Hongjiao, Wu, Jiaqi, Chen, Yi, Yang, Weitai, Yu, Ying, Chen, Pengcheng, Lin, and Ke, Liang

Subjects
Paper, Lab-On-A-Chip Devices, Colorimetry, Smartphone, Pesticides, Biochemistry, Analytical Chemistry
Abstract

The existence of pesticide residues in the hydrosphere, biosphere, and anthroposphere can cause acute or chronic diseases and deteriorate the environment. Therefore, efficient detection of pesticide residues is of great significance to prevent food poisoning, control food pollution, and protect human lives by recognizing their distribution and concentration. Herein, a novel smartphone-coupled three-layered paper-based microfluidic chip is proposed as a facile platform to detect the pesticides. The stereoscopic capillary-driven fluid transport is enabled by the three-layered microfluidic chip configuration. The detection mechanism is based on the enzyme inhibition reaction and the chromatic reaction. The detection results are obtained by a smartphone and figured out by colorimetric quantitative analysis. Taking advantages of the above merits, we demonstrate the utilization of this smartphone-coupled three-layered paper-based microfluidic chip for the effective analysis of typical pesticides (profenofo and methomyl). The linear ranges of profenofo and methomyl are 0.27-2.1 μmol L

Published
2022

37. Recent Advances and Applications in Paper-Based Devices for Point-of-Care Testing

Author

Yue, Hou, Cong-Cong, Lv, Yan-Li, Guo, Xiao-Hu, Ma, Wei, Liu, Yan, Jin, Bao-Xin, Li, Min, Yang, and Shi-Yin, Yao

Subjects
Point-of-care testing, Detection methods, Materials Chemistry, Electrochemistry, Environmental Chemistry, Review, Instrumentation, Spectroscopy, Paper-based analysis device, Analytical Chemistry
Abstract

Point-of-care testing (POCT), as a portable and user-friendly technology, can obtain accurate test results immediately at the sampling point. Nowadays, microfluidic paper-based analysis devices (μPads) have attracted the eye of the public and accelerated the development of POCT. A variety of detection methods are combined with μPads to realize precise, rapid and sensitive POCT. This article mainly introduced the development of electrochemistry and optical detection methods on μPads for POCT and their applications on disease analysis, environmental monitoring and food control in the past 5 years. Finally, the challenges and future development prospects of μPads for POCT were discussed.

Published
2022

38. 'I really liked the chance to talk about it': Students’ Reflections on the Process of Completing Paper Puzzles, a Novel Active Learning Activity

Author

Madison B. Bagley, Andrew G. Smith, David A. Morton, and Candace J. Chow

Subjects
Medicine (miscellaneous), Education
Abstract

Research shows active learning is an effective teaching method. However, few qualitative studies explore medical student perceptions of the active learning process. The present study explored what students thought about while completing paper puzzles, an active learning tool used at the University of Utah School of Medicine, to understand what and how medical students think while engaged in active learning.To investigate second-year medical students' attitudes toward these active learning exercises, three Zoom-based focused groups were held and recorded throughout the course. Recordings were transcribed and coded using thematic analysis.Students reported that peer interactions were of high value, and that while some interactions and thought processes were action-oriented, others were more metacognitive. Other benefits of the activity included promotion of learning, provision of structure, and designation of high-yield concepts. Challenges included feelings of confusion, problems with timing or difficulty of the tasks, and low utility without adequate preparation.These findings reflect student-acknowledged pros and cons of active learning described in education literature and add further insight into the thoughts and conversations students have during active learning activities. These include practicing metacognitive skills, triaging information, and learning from peers.These data further elucidate student perceptions of active learning activities in medical education. Though focused on a specific activity, the data can help medical educators understand what students appreciate about active learning and what they think about while engaged in such activities.The online version contains supplementary material available at 10.1007/s40670-022-01682-y.

Published
2022

39. Towards a Benchmark for Shared Databases [Vision Paper]

Author

Muhammad El-Hindi, Ashwin Arora, Simon Karrer, and Carsten Binnig

Subjects
Environmental Engineering
Abstract

Traditionally, data has been held in silos and was rarely shared with other organizations. However, recently data sharing across organizations is becoming more and more important as evidenced by governmental and industrial initiatives such as the EU data strategy. As a result, both academia and industry have been proposing new systems for shared databases, that allow multiple organizations to collaboratively insert and manage data in a common database. Yet, each new system seems to come with its own architectural choices and custom guarantees that make it hard for users to navigate the plethora of shared database systems. While standard benchmarks like the TPC‑C database benchmark have been a well-established tool to compare and analyze traditional database systems, they seem to be unsuited to evaluate shared database systems. This is because these systems are built with fundamentally different assumptions in mind, such as a different threat/trust model since multiple (untrusted) parties access and modify the same data. In this paper, we present a vision and initial ideas for a new benchmark to evaluate shared databases and capture their unique characteristics.

Published
2022

40. Color is necessary for face discrimination in the Northern paper wasp, Polistes fuscatus

Author

Christopher M. Jernigan, Jay A. Stafstrom, Natalie C. Zaba, Caleb C. Vogt, and Michael J. Sheehan

Subjects
Experimental and Cognitive Psychology, Article, Ecology, Evolution, Behavior and Systematics
Abstract

Visual individual recognition requires animals to distinguish among conspecifics based on appearance. Though visual individual recognition has been reported in a range of taxa including primates, birds, and insects, the features that animals require to discriminate between individuals are not well understood. Northern paper wasp females, Polistes fuscatus, possess individually distinctive color patterns on their faces, which mediate individual recognition. However, it is currently unclear what role color plays in the facial recognition system of this species. Thus, we sought to test two possible roles of color in wasp facial recognition. On one hand, color may be important simply because it creates a pattern. If this is the case, then wasps should perform similarly when discriminating color or grayscale images of the same faces. Alternatively, color itself may be important for recognition of an image as a "face", which would predict poorer performance on grayscale discrimination relative to color images. We found wasps performed significantly better when discriminating between color faces compared to grayscale versions of the same faces. In fact, wasps trained on grayscale faces did not perform better than chance, indicating that color is necessary for the recognition of an image as a face by the wasp visual system.

Published
2022

41. Precursors of reading text comprehension from paper and screen in first graders: a longitudinal study

Author

Elena Florit, Pietro De Carli, Antonio Rodà, Samantha Domenicale, Lucia Mason, Florit, E, De Carli, P, Roda, A, Domenicale, S, and Mason, L

Subjects
Linguistics and Language, Beginner readers, Digital reading, Longitudinal study, Precursors, Reading on paper, Text comprehension, Education, Speech and Hearing, Neuropsychology and Physiological Psychology, Beginner reader, Precursor, Text comprehension · Digital reading · Reading on paper · Longitudinal study · Precursors · Beginner readers
Abstract

Research on text comprehension in relation to the reading medium (paper or screen) has mainly involved undergraduate or high school students. To advance current knowledge on the effects of reading medium, this longitudinal study focused on beginner readers, specifically, the role of precursors in first graders’ comprehension of narrative and expository linear texts from reading on paper and computer screen. Working memory and inference skills as cognitive precursors and basic digital skills were measured at the end of preschool (T1); reading text comprehension and word reading, as a control variable, were measured at the end of the first grade (T2). Sixty-three children participated in total. The first graders read four texts, one narrative and one expository, on both paper and computer screen, in a counterbalanced order. Results showed no main effects of the reading medium or text genre, but the interactive effect of these variables was significant. At T2, the children had higher comprehension scores after reading narrative than descriptive texts from paper. In addition, reading from the screen was preferred at post-test, after all texts were presented. As precursors, working memory and inference skills predicted both printed and digital text comprehension. In contrast, basic digital skills predicted only digital text comprehension after controlling for medium, text genre, and word reading.

Published
2022

42. Joint Distributions of Local Pore Space Properties Quantitatively Explain Simulated Air Flow Variations in Paper

Author

Peter Leitl, Eduardo Machado Charry, Ekaterina Baikova, Matthias Neumann, Ulrich Hirn, Volker Schmidt, and Karin Zojer

Subjects
General Chemical Engineering, Catalysis
Abstract

The gas flow through sheet-like porous materials such as paper can show marked lateral variations due to a heterogeneous, locally varying microstructure. Hence, reliable predictions of such lateral flux variations require an appropriate consideration of local variations in the microstructure. The flow through such sheet-like materials is commonly described with Darcy’s law in which permeances are formulated in terms of microstructure properties, such as porosities, tortuosities, or hydraulic radii. This work proposes an extension of existing permeance models that directly considers the variation and the cross-dependence between local microstructure properties. The extended model is applied to local air fluxes through a paper sheet to exemplarily reveal the joint impact of local porosities and local tortuosities on the air flux. The key extension is to consider a joint distribution of porosity and tortuosity. The latter is constructed from the univariate property distributions using a copula approach and yields local tortuosities including their variation for any encountered local porosity. These values jointly enter any permeance model that qualitatively captures the dependence of the air flux on the porosity. To assess the merit of the model, variations in the air flux and in the pore space properties are independently determined from the same measured microstructure of paper. Air flux variations are provided by computational fluid dynamics simulations on multiple, nonoverlapping segments taken from the microstructure. A statistical analysis of the entire microstructure provides the distribution of local porosity, tortuosity, and thicknesses. Our model quantitatively explains that porosity-dependent variations in the tortuosity, in particular the ones associated with high-volume pathways, decisively determine air flux variations.

Published
2023

43. The 100 most cited papers on total anomalous pulmonary venous connection: a bibliometric analysis

Author

Chen Wen, Wei Liu, Chenhao Fang, Jin Shentu, Ruixiang Ma, Han Zhang, Hao Zhang, Zhongqun Zhu, and Huiwen Chen

Subjects
Pulmonary and Respiratory Medicine, Surgery, General Medicine, Cardiology and Cardiovascular Medicine
Abstract

Background The number of citations a paper receives reflects its impact on the scientific community. We aimed to identify and explore the characteristics of the most cited papers on total anomalous pulmonary venous connection (TAPVC). Methods Web of Science Core Collection Expanded Science Citation Index (1900 to present) was searched and papers on TAPVC were reviewed. Articles were ranked by the number of citations and the 100 most cited papers were analyzed. Results The 100 most cited papers were published between 1952 and 2018 with a mean number of citations of 52 (range 26 to 148). The 1990s was the most productive decade. All articles except one were written in English. The 100 most cited articles were published in 24 journals, led by Journal of Thoracic and Cardiovascular Surgery (21 articles), followed by Annals of Thoracic Surgery (20 articles), and Circulation (16 articles). The United States of America contributed most of the 100 most cited papers (60 articles). Hospital for Sick Children, Toronto led the list of citation classics with six papers. Christopher A. Caldarone, John W. Kirklin, and P. E. F. Daubeney were the most productive authors with 3 articles each. More than half of the papers were cohort studies (51 articles). Surgery, radiology and etiology were the main topics. Thirty-one articles were funded by public foundations, and none received support from commercial companies. Conclusions The bibliometric analysis gives a historical perspective on scientific progress in the field of TAPVC and lays the foundation for future research.

Published
2023

44. Paper Circuits vs. Breadboards: Materializing Learners’ Powerful Ideas Around Circuitry and Layout Design

Author

Kylie A. Peppler, R. Mishael Sedas, and Naomi Thompson

Subjects
General Engineering, Education
Abstract

This exploratory study compares how young people (ages 15–16) learn circuitry concepts and layout design principles important to electrical engineering using one of two educational circuitry toolkits: paper circuits and traditional solderless breadboards. Paper-based prototyping kits are representative of a trend that incorporates new materials and approaches to integrating arts into traditional STEM disciplines. Extending prior research on how non-traditional toolkits enhance learning of electrical engineering outcomes, including basic circuitry concepts (i.e., current flow, polarity, and connections), this study examines the material affordances and design choices of the kits that contribute to youth’s understanding of more advanced circuitry layout design principles, including space allocation, placement of electronic components, and routing. Results indicate that paper circuits better afford the learning of layout design principles for printed circuit boards (PCBs) with large effect sizes. This study illuminates how the materials of educational toolkits uniquely solicit body- and material-syntonic patterns of activity, and thus differentially engage learners’ powerful ideas around circuitry and design principles. This investigation encourages careful consideration of the material affordances of some toolkits over others for learning purposes.

Published
2023

45. Faculty members’ use of artificial intelligence to grade student papers: a case of implications

Author

Rahul Kumar

Subjects
Social Sciences (miscellaneous), Education
Abstract

This paper presents the case of an adjunct university professor to illustrate the dilemma of using artificial intelligence (AI) technology to grade student papers. The hypothetical case discusses the benefits of using a commercial AI service to grade student papers—including discretion, convenience, pedagogical merits of consistent feedback for students, and advances made in the field that yield high-quality work—all of which are achieved quickly. Arguments against using AI to grade student papers involve cost, privacy, legality, and ethics. The paper discusses career implications for faculty members in both situations and concludes with implications for researchers within the discourse on academic integrity.

Published
2023

46. R. Fürth’s 1933 paper 'On certain relations between classical statistics and quantum mechanics' ['Über einige Beziehungen zwischen klassischer Statistik und Quantenmechanik', Zeitschrift für Physik, 81 143–162]

Author

Luca Peliti, Paolo Muratore-Ginanneschi, Department of Mathematics and Statistics, and Mathematical physics

Subjects
Quantum Physics, Statistical Mechanics (cond-mat.stat-mech), Statistical Physics, Physics - History and Philosophy of Physics, History and Philosophy of Physics (physics.hist-ph), FOS: Physical sciences, General Physics and Astronomy, Quantum Physics (quant-ph), 114 Physical sciences, History of Physics, Condensed Matter - Statistical Mechanics
Abstract

We present a translation of the 1933 paper by R. F\"urth in which a profound analogy between quantum fluctuations and Brownian motion is pointed out. This paper opened in some sense the way to the stochastic methods of quantization developed almost 30 years later by Edward Nelson and others., Comment: 23 pages, 4 figures

Published
2023

47. Automated assessment of pen and paper tests using computer vision

Author

Vladimir Jocovic, Milan Marinkovic, Sasa Stojanovic, and Bosko Nikolic

Subjects
Computer Networks and Communications, Hardware and Architecture, Media Technology, Software
Abstract

Computer vision is one of the artificial intelligence’s most challenging fields, enabling computers to interpret, analyse and derive meaningful information from the visual world. There are various utilizations of computer vision algorithms, and most of them, from simpler to more complicated, have an object and shape recognition in common. Traditional pen and paper tests are designed in a pre-established format and consist of numerous basic shapes, which designate the important parts of the test itself. With that in mind, many computer vision applications regarding pen and paper tests arise as an opportunity. Massive courses and large schooling organizations mostly conduct their exams in paper format and assess them manually, which imposes a significant burden on the teaching staff. Any kind of automatization that will facilitate the grading process is highly desirable. Hence, an automated answer recognition system in assessment was developed to mitigate the problems above. The system uses images of scanned test pages obtained from the test scanning process and performs the necessary image manipulation steps to increase target recognition accuracy. Further, it manages to identify regions of interest containing multiple-choice questions and contours. Finally, the system verifies obtained results using the knowledge of the whereabouts of the test template regions of interest.

Published
2023

48. WeChat as a platform for blending problem/case-based learning and paper review methods in undergraduate paediatric orthopaedics internships: a feasibility and effectiveness study

Author

Junfei Chen, Bingjun Gao, Kunyao Wang, Yinghan Lei, Shengling Zhang, Shaobin Jin, Weiwei Yang, and Yan Zhuang

Subjects
General Medicine, Education
Abstract

Background Paediatric orthopaedics is a significant and difficult for undergraduate students to master. During the COVID-19 pandemic, we used the WeChat platform to combine the advantages offered by problem-based learning (PBL), case-based learning (CBL) and paper review teaching methods to establish a new blended online teaching model and demonstrated its feasibility and effectiveness. Objective This study aims to demonstrate the feasibility and effectiveness of a new blended pedagogical method that uses the WeChat platform and combines PBL, CBL and paper review. Methods We enrolled 22 students participating in the Department of Paediatric Orthopaedics. They participated in the WeChat blended pedagogy mode. Their departmental rotation examination scores were compared with those of 23 students who participated in the traditional teaching method. Moreover, an anonymous questionnaire was used to evaluate students’ perceptions and experiences. Results The total average scores of students who participated in the WeChat blended pedagogy mode and the traditional teaching method were 47.27 and 44.52, respectively. There were no statistically significant differences between the online teaching mode and the traditional teaching method in terms of possessing professional accomplishment, gaining knowledge and promoting interpersonal skills (P = 0.07, P = 0.12 and P = 0.65, respectively). In terms of independent clinical thinking, self-improving capability and improving clinical skills, the scores associated with the WeChat blended pedagogy mode were 8.00, 8.00 and 6.00, whereas those associated with the traditional teaching method were 6.70, 6.87 and 7.48. The overall satisfaction with the WeChat blended pedagogy mode reached 100%. A total of 64%, 86%, 68%, 64% and 59% of students chose very large or large in response to the items concerning professional accomplishment, knowledge absorption, independent clinical thinking skills, English reading and literature exploring capacity, as well as interpersonal skills, respectively. Fifteen participants claimed that the WeChat blended pedagogy mode was less helpful to them with regard to promoting the improvement of their clinical skills. Nine students claimed that the WeChat blended pedagogy mode was time-consuming. Conclusions Our study verified the feasibility and effectiveness of the WeChat blended pedagogy mode for undergraduate paediatric orthopaedics internships. Trial Registration Retrospectively registered.

Published
2023

49. Experimental Structural Model: From Manual Paper Garment to Fabrication as an Architectural Practice-Based Approach for Fashion Design Education

Author

Deena El-Mahdy

Subjects
Visual Arts and Performing Arts, General Mathematics, Architecture
Abstract

The study presents the integration of architectural design approaches in the fashion design process suggesting a new educational method based on structural model fabrication. The paper addresses the output of an experimental collaborative practice-based workshop titled ‘Fashion Clash’ that mixes both architects and fashion designers. The workshop focused on testing self-structural garments following a manual workflow which is divided into three main phases, (1) modeling and form-finding, (2) assembly, and (3) fabrication. Paper-based materials are used for transforming full-scale garments into textiles. The results presented seven garments displayed at a fashion show that show the effect of the folding techniques in reaching stability and highlighting the interdisciplinary integration of architects and fashion designers. The study concludes that implementing a parametric design logic based on architectural perspective in fashion would generate innovative ways of testing self-supporting geometry. Digitally computing the forces and structure before fabrication are left for further research.

Published
2023

50. Water-stable, biocompatible, and highly luminescent perovskite nanocrystals-embedded fiber-based paper for anti-counterfeiting applications

Author

Madhumita Patel, Rajkumar Patel, Chanho Park, Kanghee Cho, Pawan Kumar, Cheolmin Park, and Won-Gun Koh

Subjects
General Engineering, General Materials Science
Abstract

In this study, we present a promising and facile approach toward the fabrication of non-toxic, water-stable, and eco-friendly luminescent fiber paper composed of polycaprolactone (PCL) polymer and CsPbBr3@SiO2 core–shell perovskite nanocrystals. PCL-perovskite fiber paper was fabricated using a conventional electrospinning process. Transmission electron microscopy (TEM) clearly revealed incorporation of CsPbBr3@SiO2 nanocrystals in the fibers, while scanning electron microscopy (SEM) demonstrated that incorporation of CsPbBr3@SiO2 nanocrystals did not affect the surface and diameter of the PCL-perovskite fibers. In addition, thermogravimetric analysis (TGA) and contact angle measurements have demonstrated that the PCL-perovskite fibers exhibit excellent thermal and water stability. The fabricated PCL-perovskite fiber paper exhibited a bright green emission centered at 520 nm upon excitation by ultra-violet (UV) light (374 nm). We have demonstrated that fluorescent PCL-perovskite fiber paper is a promising candidate for anti-counterfeiting applications because various patterns can be printed on the paper, which only become visible after exposure to UV light at 365 nm. Cell proliferation tests revealed that the PCL-perovskite fibers are cytocompatibility. Consequently, they may be suitable for biocompatible anti-counterfeiting. The present study reveals that PCL-perovskite fibers may pave way toward next generation biomedical probe and anti-counterfeiting applications. Graphical Abstract

Published
2023