Applied Sciences

14 pages, 679 KB

Open AccessArticle

Effect of Vapor Treatment on the Caking Properties of Different Coal Types

by Andrii Koveria, Pavlo Saik, Alla Polyanska, Alina Ovcharenko, Andrii Usenko and Yuliya Pazynich

Appl. Sci. 2026, 16(8), 3835; https://doi.org/10.3390/app16083835 (registering DOI) - 15 Apr 2026

Abstract

Modification of the properties of caking coals through the methods of their treatment is of practical interest, especially in the context of deterioration of the raw material source for coke production and high requirements for the quality of coke. Considering the hydrophobicity of [...] Read more.

Modification of the properties of caking coals through the methods of their treatment is of practical interest, especially in the context of deterioration of the raw material source for coke production and high requirements for the quality of coke. Considering the hydrophobicity of coals and their relatively high porosity, vapor treatment can be an effective method of influencing coal properties. Research on the properties of coal treated with water vapor and crude benzene vapor was conducted using different caking ability methods. Coal moistened to 10%wt. was also investigated for comparison. Four coal samples with varying degrees of coalification, ranging from medium to high rank (R_o = 0.76–1.50%) and characterized by volatile matter (V^daf = 20.24–37.42%), were investigated. The mechanisms of interaction between coals and water in liquid and vapor form were determined. The results demonstrate that the treatment with water vapor and crude benzene significantly affects the properties of coal A. Specifically, under the influence of water vapor, there is a decrease in the period before the formation of plasticity and an increase in the caking properties of coal A. Coal B and C have good caking ability, so the effect of treatment is less noticeable. The treatment of the coal D leads to an increase in the viscosity of the plastic mass and a decrease in the caking properties. The approaches used in the study of the impact on coal properties can be effectively implemented in production conditions. Full article

(This article belongs to the Special Issue Innovative, Hybrid Energy Solutions and Technologies)

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14 pages, 1669 KB

Open AccessArticle

Three Degree of Freedom Wave Energy Converter Design for Resonant Motion

by Greg Ballen, David G. Wilson, Rush D. Robinett III, Shangyan Zou and Wayne W. Weaver

Appl. Sci. 2026, 16(8), 3834; https://doi.org/10.3390/app16083834 (registering DOI) - 15 Apr 2026

Abstract

As multiple-degree-of-freedom (3-DOF) wave energy converters (WECs) have demonstrated the ability to produce more power than single-degree-of-freedom devices, the challenge of designing buoys for efficient energy harvesting has increased in complexity. In this paper, a cylindrical WEC is designed to naturally resonate in [...] Read more.

As multiple-degree-of-freedom (3-DOF) wave energy converters (WECs) have demonstrated the ability to produce more power than single-degree-of-freedom devices, the challenge of designing buoys for efficient energy harvesting has increased in complexity. In this paper, a cylindrical WEC is designed to naturally resonate in surge, pitch, and heave modes at a specific target frequency of 0.2 Hz. By utilizing a penalty-based optimization method to balance buoyancy requirements with natural resonance, the design achieves minimal control force input, thereby reducing fluctuations in energy output and local energy storage requirements. The performance is evaluated under irregular sea states using a Bretschneider spectrum. Results indicate that a buoy optimized to naturally resonate at the modal frequency of a sea state provides consistent power with significantly reduced reactive power demand compared to non-optimized designs. Full article

(This article belongs to the Special Issue Dynamics and Control with Applications to Ocean Renewables)

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29 pages, 46316 KB

Open AccessArticle

Adaptive Traffic Signal Control Using Deep Reinforcement Learning with Noise Injection

by Raul Alejandro Velasquez Ortiz, María Elena Lárraga Ramírez, Luis Agustín Alvarez-Icaza and Héctor Alonso Guzmán Gutiérrez

Appl. Sci. 2026, 16(8), 3833; https://doi.org/10.3390/app16083833 - 15 Apr 2026

Abstract

Adaptive traffic signal control (ATSC) remains a critical challenge for urban mobility. In this direction, deep reinforcement learning (DRL) has been widely investigated for ATSC, showing promising improvements in simulated environments. However, a noticeable gap remains between simulation-based results and practical implementations, due [...] Read more.

Adaptive traffic signal control (ATSC) remains a critical challenge for urban mobility. In this direction, deep reinforcement learning (DRL) has been widely investigated for ATSC, showing promising improvements in simulated environments. However, a noticeable gap remains between simulation-based results and practical implementations, due to reward formulations that do not address phase instability. Stochastic variations may trigger premature phase changes (“flickers”), affecting signal behavior and potentially limiting deployment in real scenarios. Although several works have examined delay, queues, and decentralized coordination, stability-focused variables remain comparatively less explored, particularly in single yet complex intersections. This study proposes a decentralized DRL model for ATSC with noise injection (ATSC-DRLNI) applied to a single intersection, introducing a stability-oriented reward function that integrates flickers, queue length, and advantage actor-critic (A2C) learning feedback. The model is evaluated in the Simulation of Urban MObility (SUMO) platform and compared against seven baseline methods, using real traffic data from a Mexican city for calibration and validation. Results suggest that penalizing flickers may contribute to more stable phase transitions, while reductions of up to 40% in queue length were observed in heavy-traffic scenarios. These findings indicate that incorporating stability-related variables into reward functions may help in implementing DRL-based ATSC studies. Full article

(This article belongs to the Section Transportation and Future Mobility)

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10 pages, 1102 KB

Open AccessArticle

Influence of the Cause of File Fracture on the Successful Removal of Fragments from Root Canals: An In Vivo Study

by Ricardo Portigliatti, Eugenia Pilar Consoli Lizzi and Pablo Alejandro Rodríguez

Appl. Sci. 2026, 16(8), 3832; https://doi.org/10.3390/app16083832 - 15 Apr 2026

Abstract

The purpose of this investigation was to establish a clinical diagnosis of the cause of instrument fracture and to evaluate its impact on fragment removal success. One hundred cases of fractured endodontic instruments were analyzed to determine the relationship between fracture cause (flexion, [...] Read more.

The purpose of this investigation was to establish a clinical diagnosis of the cause of instrument fracture and to evaluate its impact on fragment removal success. One hundred cases of fractured endodontic instruments were analyzed to determine the relationship between fracture cause (flexion, torsion, or combined) and removal outcomes. A diagnostic protocol was developed to classify the fracture mechanism based on radiographic findings, clinical observations, and instrument-related parameters. Fragment length, intracanal location, and removal time were recorded. Torsion was the most frequent cause (54%), followed by combined fracture (33%) and flexion (13%). Flexion-related fragments were significantly longer, located in more accessible areas, and exhibited lower mechanical retention, resulting in shorter removal times (mean: 19.62 min). In contrast, torsion-related fragments were shorter, showed greater retention, and required longer removal times (mean: 32.98 min). Statistical analysis demonstrated a significant association between fracture cause, fragment location, and removal time. The fracture mechanism may serve as a predictive clinical factor for fragment removal difficulty. Early identification of this parameter can improve treatment planning and optimize clinical resource management. Full article

(This article belongs to the Special Issue Applied Endodontics and Oral Health: From Materials to Medicine)

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16 pages, 2758 KB

Open AccessArticle

Risk Prediction of Water Inrush in Diversion Tunnel Crossing Water-Rich Fault Based on NRBO-XGBoost Algorithm

by Yaxiong Peng, Shizhong Zhang, Lei Su and Zhen Yao

Appl. Sci. 2026, 16(8), 3831; https://doi.org/10.3390/app16083831 - 15 Apr 2026

Abstract

Water inrush can easily occur during the construction of diversion tunnels crossing water-rich faults, and large-scale water inrushes pose a great threat to construction personnel and machinery. For the construction safety of the diversion tunnel, it is very important to accurately predict the [...] Read more.

Water inrush can easily occur during the construction of diversion tunnels crossing water-rich faults, and large-scale water inrushes pose a great threat to construction personnel and machinery. For the construction safety of the diversion tunnel, it is very important to accurately predict the risk of water inrush. Therefore, to reduce the occurrence of water inrush disasters in tunnels, this paper establishes a diversion tunnel water inrush risk prediction model based on the NRBO-XGBoost algorithm on the basis of giving full play to the value of engineering data. Nine indicators were selected from engineering geological conditions, hydrogeological conditions, and tunnel construction conditions on the basis of fully mining engineering data, and the prediction indicator system of the water inrush risk of tunnels through water-rich faults was established. The model was trained and tested using 120 valid samples collected from the Longjinxi diversion tunnel, which realizes accurate and fast water inrush risk prediction in the construction process. Its predictive performance was compared with that of BPNN and the standard XGBoost model. The R² and MAE of the novel method are 0.9129 and 0.0667, respectively, which are both superior to those of other methods. It confirms the proposed model’s reliability and effectiveness. Full article

(This article belongs to the Section Civil Engineering)

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19 pages, 4239 KB

Open AccessArticle

Mechanical Performance of Reinforcement Measures for Corrugated Steel Pipe Arch Bridges Under Differential Settlement

by Tao Li, Lei Jiang, Lei Cui, Kaixuan Sun, Ke Li, Xiao Wang, Yi Shi and Yuqi Wang

Appl. Sci. 2026, 16(8), 3830; https://doi.org/10.3390/app16083830 - 14 Apr 2026

Abstract

This study evaluates the effectiveness of reinforcement measures for a corrugated steel pipe arch bridge subjected to differential settlement induced by underground mining. Using a ten-span continuous corrugated steel pipe arch bridge in Shandong Province as the engineering background, a refined finite element [...] Read more.

This study evaluates the effectiveness of reinforcement measures for a corrugated steel pipe arch bridge subjected to differential settlement induced by underground mining. Using a ten-span continuous corrugated steel pipe arch bridge in Shandong Province as the engineering background, a refined finite element model was developed based on 12 months of in situ settlement monitoring data. The mechanical performance of three reinforcement schemes–inner lining concrete, inner lining concrete with nested steel pipes, and laterally welded steel plates–was systematically compared. The results indicate that under differential settlement, the maximum stress of the unreinforced structure reaches 75.74 MPa, primarily concentrated at the arch foot. Reinforcement with an inner concrete lining significantly improves structural performance; in particular, the 200 mm-thick lining reduces the maximum steel pipe stress by 61.8%, achieves a maximum reduction of 22.1% in crown displacement and approximately 11.2% in sidewall displacement, and limits the circumferential displacement amplitude to 12–17 mm, representing a reduction of 11.7–15%. The nested steel pipe scheme delivers reinforcement effects comparable to the pure inner lining concrete scheme, with a maximum crown displacement reduction of approximately 17.3%, though its overall additional advantages remain limited. In contrast, the laterally welded steel plate scheme reduces the maximum structural stress by 28.3%. While it exhibits favorable control over local displacements, its overall reinforcement effectiveness is inferior to that of the inner lining concrete scheme. These findings provide a useful reference for the reinforcement design and engineering application of corrugated steel pipe arch bridges in mining-induced subsidence areas. Full article

(This article belongs to the Section Civil Engineering)

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23 pages, 2400 KB

Open AccessArticle

Variational Physics-Informed Neural Network for 3D Transient Melt Pool Thermal Modeling

by Zhenghao Xu, Xin Wang, Yuan Meng, Mingwei Wang and Xianglong Wang

Appl. Sci. 2026, 16(8), 3829; https://doi.org/10.3390/app16083829 - 14 Apr 2026

Abstract

Accurate prediction of transient melt pool thermal fields in Laser Powder Bed Fusion (LPBF) is essential for understanding melt pool geometry and defect formation mechanisms, yet conventional finite element methods (FEM) impose prohibitive computational costs for parametric process exploration. A variational physics-informed neural [...] Read more.

Accurate prediction of transient melt pool thermal fields in Laser Powder Bed Fusion (LPBF) is essential for understanding melt pool geometry and defect formation mechanisms, yet conventional finite element methods (FEM) impose prohibitive computational costs for parametric process exploration. A variational physics-informed neural network (VPINN) framework is presented for 3D transient thermal modeling of a GH3536 single-track LPBF scan. The framework incorporates a continuously differentiable Goldak double-ellipsoid moving heat source, temperature-dependent thermophysical property surrogates, and an effective heat-capacity treatment of latent heat associated with solid–liquid phase change and vaporization. These components are embedded in a weak-form residual-minimization scheme with octree-adaptive domain decomposition, hierarchical Legendre test functions, and sequential sliding-window time marching. Effective absorptivity is inferred jointly with the network parameters, using sparse experimental melt pool profiles as supervision. Within a parametric study covering laser powers from 100 to 140 W and scan speeds from 1000 to 1500 mm/s, the predicted melt pool width, depth, and aspect ratio agree closely with FEM benchmarks and cross-sectional optical micrograph measurements across both supervised and held-out interpolation conditions, with total relative L₂ nodal temperature errors ranging from 3.23% to 6.75%. Following a one-time offline training investment of 15,323 s that simultaneously resolves the full parametric space, surrogate inference reduces per-condition query time from 3000–4000 s (FEM) to merely 4–5 s, delivering a speedup of two to three orders of magnitude and making the framework increasingly cost-effective for high-throughput parametric studies and digital-twin integration as the number of queried conditions grows. Full article

23 pages, 529 KB

Open AccessArticle

Type Inference for Isabelle2Cpp

by Dongchen Jiang, Yongkang Mao and Chenxi Fu

Appl. Sci. 2026, 16(8), 3828; https://doi.org/10.3390/app16083828 - 14 Apr 2026

Abstract

Isabelle2Cpp is a code generation framework that supports the automatic generation of C++ code from Isabelle/HOL specifications. However, when type information in an Isabelle/HOL specification is incomplete, Isabelle2Cpp may not be able to complete code generation automatically. To address this issue, this paper [...] Read more.

Isabelle2Cpp is a code generation framework that supports the automatic generation of C++ code from Isabelle/HOL specifications. However, when type information in an Isabelle/HOL specification is incomplete, Isabelle2Cpp may not be able to complete code generation automatically. To address this issue, this paper presents a type system for Isabelle2Cpp that performs type inference and type unification for expressions in its intermediate representation. The system introduces new type inference rules and unification algorithms to enhance the Isabelle2Cpp framework. By incorporating this type system, Isabelle2Cpp provides more comprehensive type information for expressions, leading to more complete and accurate C++ code generation. Full article

(This article belongs to the Section Computing and Artificial Intelligence)

14 pages, 3927 KB

Open AccessArticle

Shaped Beam Synthesis of Origami Reflectarray Antennas with Crease Constraints

by Wenjing Zhang, Liwei Song, Zhenkun Zhang and Bingxiang Zhu

Appl. Sci. 2026, 16(8), 3827; https://doi.org/10.3390/app16083827 - 14 Apr 2026

Abstract

Creases in origami reflectarray antennas (ORAs) impose layout exclusion zones that invalidate conventional shaped beam synthesis, assuming continuous periodic apertures. A crease-compatible shaped beam synthesis approach is presented, in which crease-intersecting elements are treated as constrained reflectors by removing only their patches while [...] Read more.

Creases in origami reflectarray antennas (ORAs) impose layout exclusion zones that invalidate conventional shaped beam synthesis, assuming continuous periodic apertures. A crease-compatible shaped beam synthesis approach is presented, in which crease-intersecting elements are treated as constrained reflectors by removing only their patches while retaining a continuous ground plane, thereby translating geometric restrictions into explicit amplitude/phase constraints. These constraints are incorporated into a modified alternating projection method (MAPM) via an iteration-updated ternary state matrix and a revised inverse projector, where the amplitudes of internal elements are kept prescribed, and only their phases are iteratively optimized. A 15 GHz hexagonal twist ORA using triangular-ring unit cells is designed to generate a sector beam in the xoz plane and a pencil beam in the yoz plane. Full-wave simulations demonstrate a peak gain of 26.4 dBi with sidelobe levels below −16.1 dB, validating the proposed beam shaping synthesis with crease constraints for ORAs. Full article

(This article belongs to the Special Issue Recent Advances in Reflectarray and Transmitarray Antennas)

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21 pages, 3341 KB

Open AccessArticle

An Implicit-Explicit Diffusion Model for Industrial Data Imputation

by Yishun Liu, Changyong Zhu, Lingsong Liu and Wenfeng Deng

Appl. Sci. 2026, 16(8), 3826; https://doi.org/10.3390/app16083826 - 14 Apr 2026

Abstract

High-quality process data are essential for modern manufacturing processes to enable advanced control techniques, fault detection, and predictive maintenance. However, real-world industrial datasets often contain missing values due to sensor failures, power outages, and equipment maintenance. This paper proposes a novel implicit–explicit diffusion [...] Read more.

High-quality process data are essential for modern manufacturing processes to enable advanced control techniques, fault detection, and predictive maintenance. However, real-world industrial datasets often contain missing values due to sensor failures, power outages, and equipment maintenance. This paper proposes a novel implicit–explicit diffusion model that jointly utilizes both hidden and visible properties for industrial data imputation. The model employs a dual-branch architecture: one branch uses multi-scale dilated causal convolutions to capture hierarchical periodic patterns inherent in industrial time series, while the other branch leverages structured state space (S4) models to learn long-term dependencies. A gated fusion mechanism adaptively combines these complementary representations. Extensive experiments on Debutanizer and Sulfur Recovery Unit (SRU) datasets demonstrate that the proposed method achieves the best root mean squared error (RMSE) across all tested missing rates (20–80%) on both datasets, and exhibits particularly strong advantages in high-missingness scenarios (60–80%), where the proposed multi-scale and long-range modeling capabilities prove most beneficial. Full article

(This article belongs to the Special Issue AI Applications in Modern Industrial Systems)

22 pages, 7908 KB

Open AccessArticle

Comparative Study of Underwater Radiated Noise Generation Mechanisms Due to Tip-Vortices Cavitation for Gap-Type and Open-Type NACA Wings

by Sangheon Lee, Kwongi Lee and Cheolung Cheong

Appl. Sci. 2026, 16(8), 3825; https://doi.org/10.3390/app16083825 - 14 Apr 2026

Abstract

Underwater radiated noise (URN) has attracted increasing attention due to its environmental impact, with cavitation recognized as the dominant source. This study investigates cavitation-generation mechanisms and associated noise radiation for open-type and gap-type wings using high-fidelity numerical simulations. Cavitation noise was predicted using [...] Read more.

Underwater radiated noise (URN) has attracted increasing attention due to its environmental impact, with cavitation recognized as the dominant source. This study investigates cavitation-generation mechanisms and associated noise radiation for open-type and gap-type wings using high-fidelity numerical simulations. Cavitation noise was predicted using the Ffowcs Williams–Hawkings (FW–H) equation. The Fitzpatrick–Strasberg bubble noise model was independently employed for analysis to relate cavitation dynamics and cavity-volume variation to the resulting acoustic emissions. The results show that the gap-type configuration produces significantly stronger low-frequency noise, with the Tip Leakage Vortex Cavitation (TLVC) contributing up to 15 dB/Hz higher noise levels than the Tip Separation Vortex Cavitation (TSVC). This enhancement is attributed to the strong interaction between TLVC and TSVC, which amplifies cavitation dynamics and acoustic emissions. Analysis of three gap sizes reveals that, for small gaps, this interaction induces periodic cavitation behavior, generating a distinct harmonic component at St ≈ 2. As the gap size increases, the TLVC-TSVC interaction weakens, and the cavitation behavior transitions toward that of the open-type configuration, leading to the disappearance of the tonal component. These findings highlight the critical role of gap-induced vortex interaction in determining URN characteristics. Full article

(This article belongs to the Special Issue Recent Developments in Computational Fluid Dynamics and Turbulence Modeling)

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16 pages, 1331 KB

Open AccessArticle

Novel Spatiotemporally Dependent Diffusion Coefficient Models for PM Removal by Passive Air Purifiers: A Theoretical and Experimental Study

by Zhentao Li, Xinlei Pan, Bin Yang, Xiaochuan Li and Tao Wei

Appl. Sci. 2026, 16(8), 3824; https://doi.org/10.3390/app16083824 - 14 Apr 2026

Abstract

Fine particulate matter (PM)-induced pollution is one of the major causes of indoor air quality deterioration. Passive air purification technologies offer advantages of structural simplicity and low energy consumption, yet their spatiotemporal mass transfer characteristics remain poorly understood. This study presents a theoretical [...] Read more.

Fine particulate matter (PM)-induced pollution is one of the major causes of indoor air quality deterioration. Passive air purification technologies offer advantages of structural simplicity and low energy consumption, yet their spatiotemporal mass transfer characteristics remain poorly understood. This study presents a theoretical and experimental investigation of PM spatiotemporal mass transfer under the sink effect induced by an electro-convective passive air purifier. The apparent mass transfer coefficient (D_app) and PM concentration prediction models based on Fick’s second law were established, and then the space-and-time-dependent mass transfer coefficient (D_st) was determined by using the Boltzmann–Matano method. The results revealed that the absolute values of D_st quantified local migration intensity, while its sign provided directional information unattainable from conventional averaged parameters. The logarithmic values of D_app showed a consistent logarithmic relationship with distance at fixed time windows, and the validated prediction model maintained errors within ±15%, enabling accurate reconstruction of full-field concentration distributions from limited measurement points. The complementary nature of these two coefficients offers a comprehensive evaluation framework. This work advances both the theoretical understanding and practical application of passive air purification technology, offering new tools for indoor PM exposure control and purifier performance optimization. Full article

(This article belongs to the Special Issue Advanced Technologies for Air Quality Monitoring, Assessment and Control)

24 pages, 2747 KB

Open AccessArticle

Assessment of Heavy Metal Accumulation in Box Elder Acer negundo L. Leaves and Soil in Ecologically Transformed Urban Areas in Southern Poland

by Oimahmad Rahmonov, Sławomir Pytel, Anna Abramowicz, Zebiniso B. Islamova and Buston Islamov

Appl. Sci. 2026, 16(8), 3823; https://doi.org/10.3390/app16083823 - 14 Apr 2026

Abstract

Urban soils along transportation routes are subjected to intense anthropogenic pressure, altering their physicochemical properties and promoting the accumulation of potentially toxic metals (PTM). This study aimed to assess soil contamination levels and evaluate the bioindicative potential of Acer negundo L. growing in [...] Read more.

Urban soils along transportation routes are subjected to intense anthropogenic pressure, altering their physicochemical properties and promoting the accumulation of potentially toxic metals (PTM). This study aimed to assess soil contamination levels and evaluate the bioindicative potential of Acer negundo L. growing in urban green areas exposed to varying traffic intensities. Topsoil and leaf samples were collected from eight sites representing different levels of anthropogenic disturbance. Soil granulometric composition, pH, organic carbon content, selected nutrients, and concentrations of PTM (Cu, Pb, Zn, Ni, Co, Mn, Cd, Hg, Fe) were determined, and contamination was evaluated using pollution indices (Igeo, EF, CF, Er). The soils ranged from moderately acidic to slightly alkaline (pH_KCl 5.85–7.66). Elevated concentrations of Zn (1078 ± 3.07 mg kg⁻¹), Pb (401.4 ± 2.51 mg kg⁻¹), Mn (1816 ± 3.3 mg kg⁻¹), and Cd (10.8 ± 2.06 mg kg⁻¹) were recorded at most sites, frequently exceeding permissible limits for urban green areas (Zn: 500; Pb: 200; Mn: 240 and Cd: 2 mg kg⁻¹). Correlation analyses revealed that zinc and cadmium are the two predominantly traffic-related origins. Pollution indices indicated moderate to very high enrichment, particularly for Cu and, locally, for Cd and Zn, while cadmium posed the highest potential ecological risk. The differences in the order of element abundance between the soil and plant tissues indicated a selective enrichment in plant leaves, with a preference for Fe, Zn, Mn, Cu and Pb. A strong positive correlation between soil and leaf cadmium concentrations indicates its high bioavailability and efficient transfer to plant tissues. These results demonstrate that Acer negundo is a valuable bioindicator of urban soil contamination, particularly for cadmium and zinc, and highlight the significant impact of road traffic on urban soil quality. Full article

(This article belongs to the Section Environmental Sciences)

16 pages, 300 KB

Open AccessArticle

Self-Perceived vs. Clinically Assessed Malocclusion in Adolescents: A Cross-Sectional Study

by Lucia Giannini, Federica Macrì, Giovanni Cattaneo, Gianna Dipalma, Francesco Inchingolo and Cinzia Maspero

Appl. Sci. 2026, 16(8), 3822; https://doi.org/10.3390/app16083822 - 14 Apr 2026

Abstract

Background: Malocclusion can influence not only oral function, but also adolescents’ perception of dental appearance, psychosocial status, and oral health-related quality of life. The present cross-sectional study aimed to examine the association between the clinical severity of malocclusion and adolescents’ self-perception, as well [...] Read more.

Background: Malocclusion can influence not only oral function, but also adolescents’ perception of dental appearance, psychosocial status, and oral health-related quality of life. The present cross-sectional study aimed to examine the association between the clinical severity of malocclusion and adolescents’ self-perception, as well as to assess the level of agreement between clinician and patient ratings of aesthetic impairment. Methods: The study included 160 consecutive adolescents aged 12 to 17 years who were referred for orthodontic evaluation. Malocclusion severity was determined using the Index of Orthodontic Treatment Need (IOTN), considering both the Dental Health Component (DHC) and the Aesthetic Component (AC). Patients’ perceptions of malocclusion severity, aesthetic concerns, and functional limitations were collected through numeric rating scales, while psychosocial impact was measured using the Psychosocial Impact of Dental Aesthetics Questionnaire (PIDAQ). Correlations were examined with Spearman’s coefficients, agreement between clinician- and self-rated AC scores was evaluated with weighted kappa statistics, and multivariable regression analyses were used to identify independent predictors of patient-reported outcomes. Results: Moderate positive correlations emerged between IOTN-DHC and self-perceived malocclusion severity (rho = 0.42, p < 0.001), and between clinician-rated IOTN-AC and self-perceived severity (rho = 0.47, p < 0.001). Associations were stronger for aesthetic and psychosocial measures than for functional complaints, with the highest correlation observed between clinician-rated IOTN-AC and perceived aesthetic impact (rho = 0.58, p < 0.001). Greater clinical severity was also associated with increased psychosocial burden, as reflected by higher PIDAQ total scores. Agreement between clinician and patient evaluations of aesthetic impairment was fair to moderate (weighted kappa = 0.34) but improved when AC scores were grouped into broader categories (weighted kappa = 0.46). Overall, adolescents tended to perceive their dental aesthetic impairment as more severe than did clinicians. In the multivariable models, clinician-rated IOTN-AC remained an independent predictor of perceived severity, aesthetic impact, and psychosocial burden. Conclusions: Clinical measures of malocclusion severity and adolescents’ self-perception were significantly related, although they reflected partly different aspects of orthodontic treatment need. Combining normative clinical indices with patient-reported outcomes may allow a more complete and patient-centred evaluation of malocclusion. Full article

(This article belongs to the Special Issue Innovative Materials and Technologies in Orthodontics)

19 pages, 401 KB

Open AccessReview

Upper Airway Dysfunction as a Modifiable Determinant of Physical Function in Aquatic Athletes: Irritant Rhinitis and Decongestant Overuse

by Réka Fritz, Gusztáv Róbert Stubnya and Péter Fritz

Appl. Sci. 2026, 16(8), 3821; https://doi.org/10.3390/app16083821 - 14 Apr 2026

Abstract

Upper airway function has received limited attention as a potentially relevant component of respiratory physiology in aquatic athletes. Repeated exposure to chlorinated indoor environments, combined with high ventilatory demand during training, may contribute to the development of chronic irritant rhinitis characterized by nasal [...] Read more.

Upper airway function has received limited attention as a potentially relevant component of respiratory physiology in aquatic athletes. Repeated exposure to chlorinated indoor environments, combined with high ventilatory demand during training, may contribute to the development of chronic irritant rhinitis characterized by nasal obstruction and mucosal hyperreactivity. Although often perceived as a minor inconvenience, increased nasal resistance may influence breathing comfort, perceived exertion, and recovery stability in swimmers and other aquatic athletes. In addition to environmental exposure, the widespread use of topical nasal decongestants may result in rebound congestion and rhinitis medicamentosa, thereby contributing to a self-reinforcing cycle of airway dysfunction. Performance-related pressure and uncertainty related to anti-doping regulations may further shape medication behavior within athletic environments. This narrative review integrates environmental exposure mechanisms, mucosal pathophysiology, and behavioral medication patterns to provide a unified conceptual framework for understanding upper airway dysfunction in aquatic athletes. Particular emphasis is placed on nasal airflow stability as a potentially relevant factor in breathing comfort, sleep quality, and training consistency. Given that the available evidence is predominantly mechanistic and observational, the proposed relationships should be interpreted as hypothesis-generating and translational rather than as evidence of direct causal effects on athletic performance. Full article

(This article belongs to the Special Issue Physical Activity and Optimization of Physical Function)

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16 pages, 1274 KB

Open AccessArticle

Knee Joint Biomechanics and Performance Strategies According to Forward Lunge Direction in Female Badminton Enthusiasts

by Soyoung Joo, Soo-ji Han, Sabin Chun, Jusung Lee and Jongchul Park

Appl. Sci. 2026, 16(8), 3820; https://doi.org/10.3390/app16083820 - 14 Apr 2026

Abstract

The purpose of this study was to compare knee joint biomechanical characteristics and movement strategies according to the direction of the forward lunge in badminton and to provide practical insights for training and injury prevention. Eighteen female recreational badminton players performed forward lunges [...] Read more.

The purpose of this study was to compare knee joint biomechanical characteristics and movement strategies according to the direction of the forward lunge in badminton and to provide practical insights for training and injury prevention. Eighteen female recreational badminton players performed forward lunges in three directions: center (CFL), left (LFL), and right (RFL). Knee joint angles and moments, center of mass (COM) velocity, ground reaction forces (GRF), and knee extensor and flexor muscle forces were analyzed. In addition, continuous biomechanical variables were examined using statistical non-parametric mapping (SnPM). The results showed that LFL demonstrated the fastest approach COM velocity and greater knee flexion moments at initial contact, along with the greatest knee flexor muscle force, which may be indicative of enhanced joint stabilization demand. RFL exhibited a smaller knee flexion angle and lower vertical ground reaction force but showed the greatest posterior braking force and the fastest recovery COM velocity, which may be indicative of greater movement efficiency. CFL showed significantly greater knee adduction angles and internal rotation moments, suggesting elevated rotational loading at the knee that may be associated with increased injury risk. These findings highlight direction-specific knee joint biomechanical characteristics during badminton forward lunges and may provide useful information for developing targeted training and injury prevention approaches. Full article

21 pages, 1173 KB

Open AccessArticle

Novel Analysis of Game Performance in Badminton: A Hierarchical Comparative Framework Between BWF Top-Ranking Players and Regional University League Players

by Naoki Hayashi, Shota Suda, Jo Kato, Ryoichi Nagatomi and Yosuke Yamada

Appl. Sci. 2026, 16(8), 3819; https://doi.org/10.3390/app16083819 - 14 Apr 2026

Abstract

This study aimed to identify structural differences in shot characteristics between world-class badminton players and regional collegiate players using a hierarchical comparative framework. Match data were collected from top-ranking players in the Badminton World Federation (BWF) World Series and from regional university league [...] Read more.

This study aimed to identify structural differences in shot characteristics between world-class badminton players and regional collegiate players using a hierarchical comparative framework. Match data were collected from top-ranking players in the Badminton World Federation (BWF) World Series and from regional university league players. All shots were recorded using a custom VBA-based notational analysis system, including player identity, court position, shot type, and rally outcome. Statistical analyses were conducted using chi-square tests with residual analysis and logistic regression modeling incorporating competitive level and tactical patterns. The results revealed that BWF players exhibited significantly lower error rates and higher proportions of building shots, indicating superior rally stability and tactical consistency. In contrast, collegiate players demonstrated higher variability in performance, including both higher ace rates and error rates. These findings suggest that world-class performance is characterized by the ability to sustain rallies while minimizing errors, rather than relying solely on offensive success. Although effect sizes were relatively small and the predictive performance of the regression model was modest (AUC = 0.53), the analysis successfully captured structural differences in tactical patterns between competitive levels. This supports the value of the model as a tool for understanding game dynamics rather than prediction. From a theoretical perspective, the findings align with the view of sport performance as a dynamic, self-organizing system, where outcomes emerge from interactions between players. Practically, the results suggest that improving defensive stability, reducing errors, and maintaining rally continuity are critical for achieving higher competitive performance. This study demonstrates the usefulness of a hierarchical comparative approach for bridging the gap between domestic and international performance standards and provides a foundation for future data-driven research in badminton. Full article

24 pages, 5829 KB

Open AccessArticle

Analysis of Influencing Factors on the Severity of Ship Collision Accidents Based on an Improved TAN-BN

by Chenyu Wan and Xiongguan Bao

Appl. Sci. 2026, 16(8), 3818; https://doi.org/10.3390/app16083818 - 14 Apr 2026

Abstract

This study proposes an improved tree-augmented Bayesian network (TAN-BN) method for analyzing the severity of ship collision accidents by introducing the information contribution rate (ICR) for edge orientation and flexible filtering constraints for structure optimization. Based on 634 ship collision accident reports, a [...] Read more.

This study proposes an improved tree-augmented Bayesian network (TAN-BN) method for analyzing the severity of ship collision accidents by introducing the information contribution rate (ICR) for edge orientation and flexible filtering constraints for structure optimization. Based on 634 ship collision accident reports, a Bayesian network covering accident attributes and causal factors was constructed. The results show that the improved model achieved an overall AUC of 0.864, higher than that of the traditional TAN model (0.827). Mutual information analysis identified ship length as the factor most strongly associated with accident severity, with a mutual information value of 0.0868. Sensitivity analysis based on true risk impact (TRI) further showed that ship length, time, and ship type were the most influential factors, with average TRI values of 19.4%, 8.8%, and 7.2%, respectively. The proposed model effectively captures the dependency relationships between accident severity and multiple influencing factors and can provide quantitative support for risk warning and accident prevention in maritime traffic safety. Full article

(This article belongs to the Special Issue Risk and Safety of Maritime Transportation: 2nd Edition)

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Open AccessArticle

Design and Optimization of a Two-Tier Supply Chain Network Under Demand Uncertainty Using a Genetic Algorithm and Particle Swarm Optimization

by Sena Nur Durgunlu, Aytun Onay, Durdu Hakan Utku and Fatih Kasimoglu

Appl. Sci. 2026, 16(8), 3817; https://doi.org/10.3390/app16083817 - 14 Apr 2026

Abstract

Supply chain management (SCM) involves complex coordination among multiple actors under demand uncertainty. However, most existing studies focus on simplified network structures that fail to capture all relevant dimensions of real-world supply chains or assume deterministic demand. This study proposes a comprehensive stochastic [...] Read more.

Supply chain management (SCM) involves complex coordination among multiple actors under demand uncertainty. However, most existing studies focus on simplified network structures that fail to capture all relevant dimensions of real-world supply chains or assume deterministic demand. This study proposes a comprehensive stochastic bi-level optimization framework for a multi-factory, multi-retailer, multi-customer, and multi-product supply chain network. The model captures the hierarchical interaction between decision-makers, where the production facility owner acts as the leader and the retailer as the follower, and jointly optimizes profit across both levels. To efficiently solve the resulting bi-level problem, two tailored metaheuristic solution approaches—a two-tier genetic algorithm (TT-GA) and a two-tier particle swarm optimization (TT-PSO)—are developed. Computational experiments across multiple scenarios demonstrate that TT-PSO outperforms TT-GA in Scenarios 1 and 2, achieving overall profit improvements of 6.46% and 0.76%, respectively, while TT-GA yields superior performance in Scenario 3 with a 2.80% profit improvement. The proposed framework provides decision-makers with a robust and practical tool for improving profitability and operational efficiency in complex, uncertain supply chain environments. Full article

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