Your search keyword '"impulse"' showing total 2,884 results

1. New global exponential synchronization conditions for impulsive chaotic neural networks with multiple time-varying leakage and transmission delays: Applications for secure communications

Author

Chen, Guangxun, Wang, Yantao, and Zhang, Xian

Published

2025

2. Study on explosion characteristics of blended fuel with different proportions under different initial environmental pressures

Author

Liu, Quan, Chen, Jiu, Zhang, Dan, Li, Bin, Xie, Lifeng, Song, Xianzhao, and Yao, Jian

Published

2025

3. Responses and mechanisms of perfluoroalkyl acid release to the cumulative effects of propeller jet force over time

Author

Ma, Yixin, Hua, Zulin, Wang, Peng, and Yang, Yundong

Published

2024

4. Blast mitigation using low-density EPS concrete: An experimental study

Author

Ousji, H., Miled, K., Siala, A., Belkassem, B., and Lecompte, D.

Published

2024

5. Impulse synchronization strategy for supply chains considering combined effects and demand saturation

Author

Peng, Yang and Wu, Jiang

Published

2024

6. Small-scale BLEVE: Near-field aerial shock overpressure and impulse

Author

Laamarti, E.M., Birk, A.M., and Heymes, F.

Published

2024

7. Kinetic analysis of change of direction simulating a defensive action in soccer players with and without acute fatigue

Author

Pablo, Matías de, Torres, Carol, Ulloa-Díaz, David, and Fábrica, Gabriel

Published

2024

8. Whole-body linear momentum control in two-foot running jumps in male basketball players

Author

Liu, Jun Ming and Zaferiou, Antonia

Published

2024

9. Kinetic Analysis, Potentiation, and Fatigue During Vertical and Horizontal Plyometric Training: An In-Depth Investigation Into Session Volume.

Author

Watkins, Casey M., Gill, Nicholas D., McGuigan, Michael R., Maunder, Ed, Spence, Alyssa-Joy, Downes, Paul, Neville, Jono, and Storey, Adam G.

Subjects

ISOMETRIC exercise, MATHEMATICAL statistics, PARAMETERS (Statistics), PHYSICAL training & conditioning, EXERCISE physiology, DYNAMICS, RUGBY football, INFORMED consent (Medical law), EXERCISE, DESCRIPTIVE statistics, FATIGUE (Physiology), PLYOMETRICS, ATHLETIC ability, JUMPING, PHYSIOLOGY

Abstract

Despite previous support for plyometric training, optimal dosing strategies remain unclear. Purpose: To investigate vertical and horizontal jump kinetic performance following a low-volume plyometric stimulus with progressively increased session jump volume. Methods: Sixteen academy rugby players (20.0 [2.0] y; 103.0 [17.6] kg; 184.3 [5.5] cm) volunteered for this study. Vertical and horizontal jump sessions were conducted 1 week apart and consisted of a 40-jump low-volume plyometric stimulus using 4 exercises, after which volume was progressively increased to 200 jumps, using countermovement jump (CMJ) for vertical sessions and horizontal broad jump (HBJ) for horizontal sessions. Jump performance was assessed via force-plate analysis at baseline (PRE-0), following the low-volume plyometric stimulus (P-40), and every subsequent 10 jumps until the end of the session (P-50, P-60, P-70,... P-200). Results: The low-volume stimulus was effective in potentiating HBJ (2% to 5%) but not CMJ (0% to −7%) performance (P <.001). The HBJ performance enhancements were maintained throughout the entire high-volume session, while CMJ realized small but significant decrements (−5% to −7%) in jump height P-50 to P-80 before recovering to presession values. Moreover, increases in eccentric impulse (5% to 24%; P <.001) in both sessions were associated with decreased or maintained concentric impulse, indicating a breakdown in performance-augmenting mechanisms and less effective power transfer concentrically after moderate volumes. Conclusion: Practitioners should consider kinetic differences between HBJ and CMJ with increasing volume to better inform and understand session dosing strategies. [ABSTRACT FROM AUTHOR]

Published

2024

10. A Comparison of the Braking and Propulsion Phase Characteristics of Traditional and Accentuated Eccentric Loaded Back Squats in Resistance-Trained Women.

Author

Campbell, Brookelyn A., Cantwell, Conor J., Marshall-Ciochon, Lauren K., Schroeder, Zachary S., Sundh, Adam E., Chard, Jack B., Taber, Christopher B., and Suchomel, Timothy J.

Subjects

SQUAT (Weight lifting), STRENGTH training, BARBELLS, BRAKE systems, VELOCITY, ECCENTRIC loads

Abstract

The aim of this study was to compare the braking and propulsion force–time and barbell velocity characteristics between back squat sets performed using traditional (TRAD) or accentuated eccentric loading (AEL) in resistance-trained women. In total, 14 participants completed four separate testing sessions that included a one repetition maximum (1RM) back squat and three squat testing sessions that used either TRAD or AEL. During the squat testing sessions, participants performed sets of three back squat repetitions using TRAD loads with 50, 60, 70, and 80% 1RM or performed the same loads with the addition of weight releasers that equated the total load to 100% (AEL-MAX) or 110% (AEL-SUPRA) 1RM during the eccentric phase of the first repetition of each set. Braking and propulsion mean force, duration, and impulse as well as mean and peak barbell velocity were examined across each back squat set. Significantly greater braking impulses were produced during the AEL conditions across all loads (p < 0.02), while greater braking mean force during AEL-SUPRA was produced compared to TRAD during with 50 and 60% 1RM (p < 0.02). There were no other significant differences in braking, propulsion, or barbell velocity that existed between different conditions (p > 0.05). AEL-MAX and AEL-SUPRA provide a greater braking stimulus compared to TRAD squats, while the propulsion phase may not be significantly impacted. Rapid and maximal force production may be favored by larger and smaller load spreads, respectively. [ABSTRACT FROM AUTHOR]

Published

2025

11. Development of a Comprehensive Comparison Software for Automated Decision-Making in Impulse Testing of Power Transformers, Including a Review of Practices from Analog to Digital.

Author

Bassi, Welson

Subjects

*ARTIFICIAL intelligence, *POWER transformers, *FREQUENCY-domain analysis, *ELECTRIC power distribution grids, *MACHINE learning

Abstract

Power transformers are fundamental components in electrical grids, requiring robust insulation to operate reliably under various abnormal conditions, including overvoltages caused by lightning or switching. As defined by existing standards, the Basic Insulation Level (BIL) or Switching Insulation Level (SIL) of a transformer validates its reliability through impulse testing. These tests presume linearity in the overall system and equipment being tested. They compare waveforms at reduced and full impulse levels to detect or enhance insulation failures. Traditionally, this relies on visual inspection due to subjective acceptance criteria. This article presents a historical background review of the practices involving the use of analogue instruments evolved into digital oscilloscopes and digitizers, and the ways in which they enhance waveform acquisition and analysis capabilities. Despite advances in digital processing, including analyses on the frequency domain rather than only on time, such as transfer function analysis and coherence functions, and other signal transformations, such as wavelet calculation, interpreting differences in waveform records remains subjective. This article presents the development of a tool designed to emulate traditional photographic methods for waveform comparison. Moreover, the TRIMP software used enables multiple comparisons using various similarity and dissimilarity metrics in both the time and frequency domains, providing a robust system for identifying significant differences. The developed methodology and implemented metrics can form the basis for future machine learning or artificial intelligence (AI) applications. While digital tools offer significant advantages in impulse testing, improve reliability, reduce subjectivity, and provide robust decision-making metrics, their test approval remains based on visual comparisons due to consolidated engineering practices. Regardless of the metrics or indications obtained, the developed tool is a powerful graphic visualizer. [ABSTRACT FROM AUTHOR]

Published

2025

12. Study of Surface Preparation with a Highly Concentrated Energy Flow for the Application of Protective Coatings.

Author

Kartsev, S. V. and Svityashchuk, N. N.

Abstract

The results of this study are presented, aimed at justifying, including through experimental methods, the feasibility and prospects of using a high-concentration energy flow (ultrashort pulse laser) for the preparation of surfaces of worn parts for subsequent application of protective coatings by plasma methods. The relevance of solving the tasks related to improving the quality of surfaces processed with high-concentration energy flow has been demonstrated. The results of tests on samples made from traditional materials used in the manufacturing of technological equipment are provided. The influence of the angle of inclination and the power of the ultrashort pulse laser on the roughness of the processed surface is shown. The main research directions, supported by positive results from preliminary experimental data, are formulated. Practical recommendations for using the ultrashort pulse laser for the preparation of surfaces of worn parts are given. [ABSTRACT FROM AUTHOR]

Published

2024

13. A Novel Lyapunov Asymptotic Eventual Stability Approach for Nonlinear Impulsive Caputo Fractional Differential Equations.

Author

Ante, Jackson E., Ineh, Michael P., Achuobi, Jonas O., Akai, Uwem P., Atsu, Jeremiah U., and Offiong, Nnanake-Abasi O.

Subjects

FRACTIONAL differential equations, DERIVATIVES (Mathematics), LYAPUNOV functions, VECTOR valued functions, BIOLOGICAL systems

Abstract

This paper investigates the asymptotic eventual stability (AE-S) for nonlinear impulsive Caputo fractional differential equations (ICFDEs) with fixed impulse moments, employing auxiliary Lyapunov functions (ALF) which are specifically constructed as analogues of vector Lyapunov functions (VLF). A novel derivative tailored for VLF is introduced, offering a more robust framework than existing approaches based on scalar Lyapunov functions (SLF). Adequate conditions for AE-S involving ICFDEs are provided. We also used the predictor corrector method to implement a numerical solution for a given impulsive Caputo fractional differential equation. These findings extend and improve upon existing results, providing significant advancements in the stability analysis of systems with memory effects and impulsive dynamics. The study holds practical relevance for modeling and analyzing real-world systems, including control processes, biological systems, and economic dynamics where fractional-order behavior and impulses play a crucial role. [ABSTRACT FROM AUTHOR]

Published

2024

14. Features of Generation, Propagation and Application of Special Ultrasonic Impulses in Viscous Liquids.

Author

Gradov, Oleg M.

Subjects

TECHNOLOGICAL innovations, PRESSURE drop (Fluid dynamics), SOLVENT extraction, RADIATION sources, ULTRASONIC imaging

Abstract

An exact numerical and approximate analytical description of solitary acoustic pulses with a large difference in spatial gradients of parameters in different directions has been obtained in viscous liquids using this small parameter. The method of special initial-boundary conditions obtained during analyzing the hydrodynamic equations has been applied to describe the peculiarities of this nonlinear phenomenon. Waves of this type exist in the presence of two- or three-dimensional inhomogeneity of the initial disturbances and retain a spatial structure along the direction of propagation when traveling long distances. At the same time, it is possible to regulate the pressure drop and the speed of the acoustic signal, which creates unique conditions for a special force effect or information transmission. The efficiency of their use in such processes as metal dissolution, solvent extraction and mass transfer under the conditions of resonance exposure of ultrasound was evaluated. Fine details of exciting the nonlinear impulse with the necessary properties have been analyzed to demonstrate a possible way to a new technology of successfully treating any different specimens, materials and constructions for a long distance between the source of radiation and the position of the treatment. The use of such pulses opens up new opportunities for remote acoustic force impact on various objects, as well as for the transmission of information. [ABSTRACT FROM AUTHOR]

Published

2024

15. Quantification of Ground Reaction Forces During the Follow Through in Trained Male Cricket Fast Bowlers: A Laboratory-Based Study.

Author

Fleming, Jeffrey, Perrett, Corey, Melchi, Onesim, McClelland, Jodie, and Middleton, Kane

Subjects

GROUND reaction forces (Biomechanics), CRICKET bowling, BOWLERS, ACQUISITION of data, FOOT

Abstract

Ground reaction forces (GRFs) are known to be high during front foot contact of fast bowling deliveries in cricket. There is a lack of published data on the GRFs during follow through foot contacts. The aim of this study was to quantify and compare peak GRFs and impulse of the delivery stride and the follow through of fast bowling deliveries. Ten trained male fast bowlers (ball release speed mean ± SD; 32.6 ± 2.3 m/s) competing in the Men's Victorian Premier League participated in the study. Peak GRF and impulse data were collected using in-ground force plates in a laboratory setting. Linear mixed modelling of GRFs and impulse showed a significant effect of foot strike (p < 0.001). Front foot contact had the greatest magnitude of peak vertical GRF (5.569 ± 0.334 BW) but was not significantly greater than back foot recontact (4.471 ± 0.285 BW) (p = 0.07). Front foot impact had the greatest vertical impulse (0.408 ± 0.018 BW·s) but was similar to back foot (0.377 ± 0.012 BW·s) and front foot (0.368 ± 0.006 BW·s) recontacts (p = 0.070 to 0.928). The high GRF and impulse during the follow through highlights the need for further kinetic and kinematic research on this phase of the fast bowling delivery. [ABSTRACT FROM AUTHOR]

Published

2024

16. Experimental Study on the Propulsion Performance of Laser Ablation Induced Pulsed Plasma.

Author

Song, Hang, Ye, Jifei, Wen, Ming, Cui, Haichao, and Zhao, Wentao

Subjects

PULSED plasma thrusters, ELECTROMAGNETIC fields, LORENTZ force, LASER ablation, ELECTROMAGNETIC coupling

Abstract

This study investigates the influence of electromagnetic fields on the propulsion performance of laser plasma propulsion. Based on the principle of pulsed plasma thrusters, an electromagnetic field is utilized to accelerate laser plasma, achieving enhanced propulsion performance. This approach represents a novel method for the electromagnetic enhancement of laser propulsion performance. In this paper, pulsed plasma thrusters induced by laser ablation are employed. The generated plasma is subjected to the Lorentz force under the influence of an electromagnetic field to obtain higher speed, thus increasing impulse and specific impulse. An experimental platform for laser-ablation plasma electromagnetic acceleration was constructed to explore the enhancement effect of discharge characteristics and propulsion performance. The results demonstrate that increased laser energy has little effect on discharge characteristics, while the trend of propulsion performance parameters initially rises and then declines. After coupling the electromagnetic field, the propulsion performance is significantly enhanced, with stronger electromagnetic fields yielding more pronounced effects. [ABSTRACT FROM AUTHOR]

Published

2024

17. A Novel Lyapunov Asymptotic Eventual Stability Approach for Nonlinear Impulsive Caputo Fractional Differential Equations

Author

Jackson E. Ante, Michael P. Ineh, Jonas O. Achuobi, Uwem P. Akai, Jeremiah U. Atsu, and Nnanake-Abasi O. Offiong

Subjects

asymptotic eventual stability, Caputo derivative, impulse, Lyapunov function, Mathematics, QA1-939

Abstract

This paper investigates the asymptotic eventual stability (AE-S) for nonlinear impulsive Caputo fractional differential equations (ICFDEs) with fixed impulse moments, employing auxiliary Lyapunov functions (ALF) which are specifically constructed as analogues of vector Lyapunov functions (VLF). A novel derivative tailored for VLF is introduced, offering a more robust framework than existing approaches based on scalar Lyapunov functions (SLF). Adequate conditions for AE-S involving ICFDEs are provided. We also used the predictor corrector method to implement a numerical solution for a given impulsive Caputo fractional differential equation. These findings extend and improve upon existing results, providing significant advancements in the stability analysis of systems with memory effects and impulsive dynamics. The study holds practical relevance for modeling and analyzing real-world systems, including control processes, biological systems, and economic dynamics where fractional-order behavior and impulses play a crucial role.

Published

2024

18. Analysis of Injury Metrics From Experimental Cardiac Injuries From Behind Armor Blunt Trauma Using Live Swine Tests: A Pilot Study.

Author

Yoganandan, Narayan, Shah, Alok, Koser, Jared, Somberg, Lewis, Stemper, Brian D, Chancey, Valeta Carol, and McEntire, Joseph Barney

Subjects

*BLUNT trauma, *HEART injuries, *WOUNDS & injuries, *BODY armor, *LUNG injuries

Abstract

Introduction Warfighters are issued hard body armor designed to defeat ballistic projectiles. The resulting backface deformation can injure different thoracoabdominal organs. Developed over decades ago, the behind armor blunt impact criterion of maximum 44 mm depth in clay continues to be used independent of armor type or impact location on the thoracoabdominal region covered by the armor. Because thoracoabdominal components have different energy absorption capabilities, their mode of failures and mechanical properties are different. These considerations underscore the lack of effectiveness of using the single standard to cover all thoracoabdominal components to represent the same level of injury risk. The objective of this pilot study is to conduct cardiac impact tests with a live animal model and analyze biomechanical injury candidate metrics for behind armor blunt trauma applications. Materials and Methods Live swine tests were conducted after obtaining approvals from the U.S. DoD. Trachea tubes. An intravenous line were introduced into the swine before administering anesthesia. Pressure transducers were inserted into lungs and aorta. An indenter simulating backface deformation profiles produced by body armor from military-relevant ballistics to human cadavers delivered impact to the heart region. The approved test protocol included 6-hour monitoring and necropsies. Indenter accelerometer signals were processed to compute the velocity and deflection, and their peak magnitudes were obtained. The deflection-time signal was normalized with respect to chest depth along the impact axis. The peak magnitude of the viscous criterion, kinetic energy, force, momentum and stiffness were obtained. Results Out of the 8 specimens, 2 were sham controls. The mean total body mass and soft tissue thickness at the impact site were 81.1 ± 4.1 kg and 3.8 ± 1.1 cm. The peak velocities ranged from 30 to 59 m/s, normalized deflections ranged from 15 to 21%, and energies ranged from 105 to 407 J. The range in momentum and stiffness were 7.0 to 13.9 kg-m/s and 22.3 to 79.9 N/m. The maximum forces and impulse data ranged from 2.9 to 11.7 kN and 1.9 to 5.8 N-s. The peak viscous criterion ranged from 2.0 to 5.3 m/s. One animal did not sustain any injuries, 2 had cardiac injuries, and others had lung and skeletal injuries. Conclusions The present study applied blunt impact loads to the live swine cardiac region and determined potential candidate injury metrics for characterization. The sample size of 6 swine produced injuries ranging from none to pure skeletal to pure organ trauma. The viscous criterion metric associated with the response of the animal demonstrated a differing pattern than other variables with increasing velocity. These findings demonstrate that our live animal experimental design can be effectively used with testing additional samples to develop behind armor blunt injury criteria for cardiac trauma in the form of risk curves. Injury criteria obtained for cardiac trauma can be used to enhance the effectiveness of the body armor, reduce morbidity and mortality, and improve warfighter readiness in combat operations. [ABSTRACT FROM AUTHOR]

Published

2024

19. Comparative study of the effects of custom-made insole and ordinary insole in adults with flexible flatfoot on different slopes.

Author

Jiang, Yangzheng, Yang, Jiantao, Tian, Hui, Jiang, Chuan, and Wang, Hongzhu

Subjects

*SLOPES (Soil mechanics), *FOOT injuries, *GENETICS, *SYMPTOMS, *EVERYDAY life

Abstract

BACKGROUND: Flatfoot (pes planus) is a common foot deformity, and its causes are mainly related to age, gender, weight, and genetics. Previous studies have shown that custom-made insoles could have a positive effect in improving plantar pressure and symptoms in individuals with flexible flatfeet, but it remains to be explored whether they can still show benefits in daily walking on different slopes. OBJECTIVE: This study aims to investigate a custom-made insole based on plantar pressure redistribution and to verify its effectiveness by gait analysis on different slopes. METHODS: We recruited 10 subjects and compared the peak pressure and impulse in each area between custom-made insole (CI) and ordinary insole (OI) groups. RESULTS: The results illustrate that CI raises the pressure in T area, improves the ability of the subjects to move forward in the slope walking, which was beneficial to gait stability. CONCLUSION: The redistribution of pressure in MF and MH area is promoted to provide active protection for subjects. Meanwhile, CI could decrease the impulse in MF area during uphill and level walking, which effectively reduces the accumulation of fatigue during gait. Moreover, avoiding downhill walking could be able to protect foot from injury in daily life. [ABSTRACT FROM AUTHOR]

Published

2024

20. Mild behavioural impairment in Parkinson's disease: a systematic review.

Author

Yu, Ruan-Ching, Chan, Lung, Chou, Szu-Yi, Lin, Li-Fong, Hu, Chaur-Jong, and Hong, Chien-Tai

Subjects

*BEHAVIOR disorders, *RISK assessment, *MEDICAL information storage & retrieval systems, *MILD cognitive impairment, *RESEARCH funding, *PARKINSON'S disease, *AFFECTIVE disorders, *SEVERITY of illness index, *IMPULSE control disorders, *SYSTEMATIC reviews, *MEDLINE, *MEDICAL databases, *ONLINE information services, *DISEASE progression, *DISEASE complications, *SYMPTOMS, *OLD age

Abstract

Behavioural symptoms are common manifestations of Parkinson's disease (PD). Early behavioural symptoms characterise mild behavioural impairment (MBI). The prevalence and intensity of MBI in people with PD (PwP) have been studied across various cohorts. However, methodological differences have obscured our understanding of MBI in these individuals. This systematic review examines and synthesises findings from relevant studies, enhancing understanding of the symptoms and implications of MBI in PD. Nine studies from five separate research institutions were identified. The conceptualisation of MBI varied considerably, affecting the reported prevalence rates of MBI in individuals with early-stage PD. Among PwP, MBI was associated higher education and impaired cognition. Affective dysregulation and impulse control disorders were primary contributors to MBI; abnormal perception was least contributor. This systematic review underscores the specific characteristics and incidence of MBI in early-stage PD. Mood and impulse control disorders are primary concerns associated with MBI. Future longitudinal studies are required to clarify the progression of these symptoms and evaluate MBI's potential as an indicator for PD-related dementia or increased dependency. [ABSTRACT FROM AUTHOR]

Published

2024

21. Research on the Tensile and Impact Mechanical Properties of Millet Ear Petals.

Author

Qiu, Shujin, Pan, Ben, Wang, Zeze, Fang, Shige, Hu, Jiangfan, Yang, Shubo, Wang, Wei, Cui, Qingliang, and Yuan, Xiangyang

Subjects

FRACTURE strength, IMPACT (Mechanics), TENSILE strength, MILLETS, EAR

Abstract

In response to the low threshing efficiency of millet ear petals, this study investigated the tensile and impact mechanical properties of millet petals during the millet threshing process. Jingu 21, Zhangza 16, and Changza 466 were used as experimental subjects to study the effects of tensile angle and growth part on fracture strength, and to determine the influence of impulse and growth part on drop and breakage rates. The results indicated that both growth part and tensile angle have a highly significant impact on the tensile fracture strength of the millet petals. The tensile fracture strength decreases with the increase in the tensile angle, and increases with the growth part from top to bottom. The variety, growth part, and impulse significantly affect the impact drop and breakage rates of the millet petals, with the main factors affecting the drop rate being impulse, variety, and growth part, in that order. When the impulse is 2.296 N·s, the threshing effect for Jingu 21 is optimal, with a drop rate of 65.091% and a breakage rate of 13.487%. This research provides theoretical insights into the simulation of the millet ear threshing process and the optimization of the performance of millet threshing equipment. [ABSTRACT FROM AUTHOR]

Published

2024

22. A systematic review of resistance training methodologies for the development of lower body concentric mean power, peak power, and mean propulsive power in team-sport athletes.

Author

Cormier, Patrick, Freitas, Tomás T., and Seaman, Kenneth

Subjects

*LEG physiology, *BIOMECHANICS, *EXERCISE physiology, *DYNAMICS, *TEAM sports, *RESISTANCE training, *STRENGTH training, *SYSTEMATIC reviews, *MEDLINE, *ATHLETES, *ATHLETIC ability, *ONLINE information services

Abstract

This study aimed to systematically review training methods prescribed to develop lower-body power, determine their effectiveness for the development of lower-body mechanical power and their implementation in an annual training cycle amongst team-sport athletes. The absolute and relative outcome values of concentric mean power, peak power and mean propulsive power were extracted from 19 studies. Outcomes were assessed using baseline to post intervention percent change, effect sizes, and the level of evidence concerning the method's effectiveness. A thorough analysis of the literature indicated that, based on the high level of evidence, traditional (e.g., strength training alone) and combination training (e.g., complex and contrast) methods should be considered. Further, optimal load and velocity-based training can be implemented if coaches have access to the appropriate equipment to monitor movement velocity and mechanical power in every session. This is of particular importance in periods of the season where high volumes of technical-tactical training and congested fixture periods are present. Also, flywheel, eccentric overload and weightlifting methods have been shown to be effective although the level of evidence is low. Future research should expand on current training practices whilst adequately reporting actual training loads from sport-specific training and games alongside strength-power training protocols. [ABSTRACT FROM AUTHOR]

Published

2024

23. The Relationship Between Loading Frequency and Truck Speed on Asphalt Pavements.

Author

Primusz, Péter and Tóth, Csaba

Subjects

*ASPHALT pavements, *ROAD construction, *STRAINS & stresses (Mechanics), *FATIGUE testing machines, *LIVE loads

Abstract

The mechanistic-empirical road pavement design methods necessitate knowledge of the dynamic modulus master curve of asphalt mixtures. This requires the designer to accurately define both the load frequency and the temperature of the pavement structure. The parameter of load frequency is of great importance in laboratory fatigue tests. However, it presents a challenge since road structures are loaded in the time domain, not the frequency domain. This complexity has prompted researchers to develop timefrequency conversion methods to estimate the corresponding frequency from the duration of traffic-induced stress or deformation pulses. Recent findings indicate that the time-frequency equivalence factor is considerably lower than previously assumed. In this study, we introduce a new four-parameter empirical RAMBO material model, derived from the Ramberg-Osgood equation, which offers parameters to determine the time-frequency equivalence factor for asphalt mixtures. The relationship between the moving wheel load velocity and the load impulse time is analysed, primarily based on experimental data and computational methods from existing literature. A method for determining the wavelength of the load impulse is proposed. The theoretical correlation indicates that a wheel load travelling at 100 km/h results in a dynamic deformation frequency of 10 Hz. However, for a strain impulse, the same speed corresponds to a much lower frequency of 3-4 Hz. This study offers a refined understanding of the time-frequency equivalence factor, which is of crucial importance for more accurate road pavement design and fatigue testing. [ABSTRACT FROM AUTHOR]

Published

2024

24. Fretting Wear of Titanium Alloys during the Passage of Current Pulses.

Author

Albagachiev, A. Yu., Mikheev, A. V., and Tananov, M. A.

Abstract

The influence of electric current pulses passing between parts during fretting wear of titanium alloys is examined. A description of the test bench and a description of the test methodology are given. [ABSTRACT FROM AUTHOR]

Published

2024

25. 3‐D impulse‐based level‐set method for granular flow modeling.

Author

Tan, Peng, Wijesuriya, Hasitha S., and Sitar, Nicholas

Subjects

ROCKSLIDES, ROCKFALL, TIME integration scheme, GRANULAR flow, RIGID bodies

Abstract

We explore the viability of modeling dynamic problems with a new formulation of an impulse‐based Level‐Set DEM (LS‐DEM). The new formulation is stable, fast, and energy conservative. However, it can be numerically stiff when the assembly has substantial mass differences between particles. We also demonstrate the feasibility of modeling deformable structures in a rigid body framework and propose several enhancements to improve the convergence of collision resolution, including a hybrid time integration scheme to separately handle at rest contacts and dynamic collisions. Finally, we extend the impulse‐based LS‐DEM to include arbitrarily shaped topographic surfaces and exploit its algorithmic advantages to demonstrate the feasibility of modeling realistic behavior of granular flows. The new formulation significantly improves the performance of dynamic simulations by allowing larger time steps, which is advantageous for observing the full development of physical phenomena such as rock avalanches, which we present as an illustrative example. [ABSTRACT FROM AUTHOR]

Published

2024

26. Relationships between sprint skating performance and insole plantar forces in national-level hockey athletes.

Author

Secomb, Josh L., Davidson, Doug W., and Compton, Heidi R.

Subjects

*ATHLETES, *HIP joint, *RANGE of motion of joints, *DORSIFLEXION, *VELOCITY

Abstract

Sprint skating is essential for competitive success in hockey. Previous studies have highlighted various measures of lower-body strength and power as key factors influencing sprint performance. However, while these studies have indicated a significant association between the ability to exert greater force and impulse into the ice surface, and the capacity to achieve faster sprint skating speeds, the direct relationship between these factors remains largely inferred. What are the relationships between insole plantar force variables, sprint skating performance, and their association with physical capacity measures, in national-level male hockey athletes? Athletes (n=13) performed 25 m sprint skating trials with insole force sensors and completed: ankle dorsiflexion and hip abduction range-of-motion (ROM), countermovement jump (CMJ), seated single-leg jump, and 10–5 repeated-hop test (RHT) assessments. Relationships were assessed using Kendall's Tau rank correlations (τ), with significant relationships identified between mean relative weight acceptance impulse [WAI] and 0–5 m (τ=0.47) and total distance (τ=0.46) times. Additionally, significant associations were observed between mean relative WAI and: CMJ relative eccentric deceleration impulse (τ=0.44), CMJ eccentric peak velocity (τ=-0.46) and RHT concentric impulse (τ=-0.56). Finally, significant relationships were identified between mean relative PI for all strides and the 10–20 m split, with peak velocity (PV) (τ=-0.58 to −0.73); and between ankle dorsiflexion ROM and PV (τ=-0.57). Athletes with faster initial acceleration and overall sprint performance times demonstrated lower relative WAI during their strides and employed a jump strategy that optimized concentric impulse with a rapid eccentric phase. To attain a high PV the athletes appeared to require a stride that maximized glide and minimized vertical force, with greater ankle dorsiflexion ROM potentially facilitating this. • Insole force variables were significantly related to sprint skating performance. • Lower relative WAI was associated with faster 25 m time and initial acceleration. • Performance in the RHT and CMJ were associated with sprint performance. • Greater ankle dorsiflexion may facilitate a stride with more glide and less drag. [ABSTRACT FROM AUTHOR]

Published

2024

27. Behind Armor Blunt Trauma: Liver Injuries Using a Live Animal Model.

Author

Yoganandan, Narayan, Shah, Alok, Koser, Jared, Stemper, Brian D, Somberg, Lewis, Chancey, Valeta Carol, and McEntire, Joseph

Subjects

*BLUNT trauma, *HUMAN body, *LIVER injuries, *BODY armor, *PRESSURE transducers

Abstract

Introduction While the 44-mm clay penetration criterion was developed in the 1970s for soft body armor applications, and the researchers acknowledged the need to conduct additional tests, the same behind the armor blunt trauma displacement limit is used for both soft and hard body armor evaluations and design considerations. Because the human thoraco-abdominal contents are heterogeneous, have different skeletal coverage, and have different functional requirements, the same level of penetration limit does not imply the same level of protection. It is important to determine the regional responses of different thoraco-abdominal organs to better describe human tolerance and improve the current behind armor blunt trauma standard. The purpose of this study was to report on the methods, procedures, and data collected from swine. Materials and Methods Live swine tests were conducted after obtaining approvals from the local institution and the Army Care and Use Review Office of the U.S. Department of Defense. Trachea tubes and an intravenous line were introduced before administering anesthesia. Pressure transducers were inserted into the lungs and aorta. An indenter simulating the backface deformation profiles produced by body armor from military-relevant ballistics to human cadavers was used to deliver impact loading to the liver region. A triaxial accelerometer was included in the indenter design. The animals were monitored for 6 hours, necropsies were performed, and injuries were identified. Biomechanical data of the energy, velocity, deflection, viscous criterion, force, and impulse variables were obtained for each test. Results Peak accelerations, velocities, deflections, forces, impulse, and energies ranged from 897 to 5,808 g, 21 to 59 m/s, 1.96 to 8.87 cm, 2.3 to 13.1 kN, 1.1 to 7.1 Ns, and 58 to 387 J, respectively. The peak viscous criterion ranged from 0.8 to 5.8 m/s. All animals survived the 6-hour survival period. Three animals responded with liver lacerations while the remaining 4 did not have any injuries. Conclusion The experimental design based on parallel tests with whole body human cadavers and cadaver swine was found to be successful in delivering controlled impacts to the liver region of live swine and reproducing liver injuries. Previously used biomechanical measures as potential candidates for injury criteria development were obtained. Using this proven model, tests with additional samples are needed to develop injury risk curves for liver impacts and obtain regional (liver) injury criteria. [ABSTRACT FROM AUTHOR]

Published

2024

28. Cumulative Blast Impulse Is Predictive for Changes in Chronic Neurobehavioral Symptoms Following Low Level Blast Exposure during Military Training.

Author

McEvoy, Cory, Crabtree, Adam, Case, John, Means, Gary E, Muench, Peter, Thomas, Ronald G, Ivory, Rebecca A, Mihalik, Jason, and Meabon, James S

Subjects

*SYMPTOM burden, *OCCUPATIONAL exposure, *OCCUPATIONAL hazards, *REGRESSION analysis, *BAYESIAN analysis, *BLAST injuries

Abstract

Introduction Cumulative low-level blast exposure during military training may be a significant occupational hazard, increasing the risk of poor long-term outcomes in brain function. US Public Law 116-92 section 717 mandates that US Department of Defense agencies document the blast exposure of each Service member to help inform later disability and health care decisions. However, which empirical measures of training blast exposure, such as the number of incidents, peak overpressure, or impulse, best inform changes in the neurobehavioral symptoms reflecting brain health have not been established. Materials and Methods This study was approved by the US Army Special Operations Command, the University of North Carolina at Chapel Hill, and the VA Puget Sound Health Care System. Using methods easily deployable across different organizational structures, this study sought to identify and measure candidate risk factors related to career occupational blast exposure predictive of changes in neurobehavioral symptom burden. Blast dosimetry-symptom relationships were first evaluated in mice and then tested in a military training environment. In mice, the righting time neurobehavioral response was measured after exposure to a repetitive low-level blast paradigm modeled after Special Operations training. In the military training environment, 23 trainees enrolled in a 6-week explosive breaching training course, 13 instructors, and 10 Service member controls without blast exposure participated in the study (46 total). All participants provided weekly Neurobehavioral Symptom Inventory (NSI) surveys. Peak blast overpressure, impulse, total number of blasts, Time in Low-Level Blast Occupation, and Time in Service were analyzed by Bayesian analysis of regression modeling to determine their probability of influence on the post-training symptoms reported by participants. Results We tested the hypothesis that cumulative measures of low-level blast exposure were predictive of changes in neurobehavioral symptoms. In mice, repetitive blast resulted in reduced righting times correlated with cumulative blast impulse. In Service members, peak blast overpressure, impulse, total number of blasts, Time in Low-Level Blast Occupation, and Time in Service all showed strong evidence of influence on NSI scores after blast exposure. However, only models including baseline NSI scores and cumulative blast impulse provided significant predictive value following validation. Conclusions These results indicate that measures of cumulative blast impulse may have utility in predicting changes in NSI scores. Such paired dosimetry-symptom measures are expected to be an important tool in safely guiding Service members' occupational exposure and optimizing force readiness and lethality. [ABSTRACT FROM AUTHOR]

Published

2024

29. Relationships Between Force-Time Curve Variables and Tennis Serve Performance in Competitive Tennis Players.

Author

Fourel, Loic, Touzard, Pierre, Fadier, Maxime, Arles, Louis, Deghaies, Kaies, Ozan, Simon, and Martin, Caroline

Subjects

*LEG physiology, *BIOMECHANICS, *CROSS-sectional method, *STATISTICAL correlation, *TENNIS, *DESCRIPTIVE statistics, *ATHLETIC ability, *GROUND reaction forces (Biomechanics), *TIME, *COMPETITION (Psychology)

Abstract

Practitioners consider the role of the legs in the game of tennis as fundamental to achieve high performance. But, the exact link between leg actions and high-speed and accurate serves still lacks understanding. Here, we investigate the correlation between force-time curve variables during serve leg drive and serve performance indicators. Thirty-six competitive players performed fast serves, on 2 force plates, to measure ground reaction forces (GRF). Correlation coefficients describe the relationships between maximal racket head velocity, impact height, and force-time curve variables. Among all the variables tested, the elapsed time between the instants of maximal vertical and maximal anteroposterior GRF (r = -0.519, p < 0.001) and the elapsed time between the instant of maximal ante-roposterior GRF and ball impact (r = -0.522, p < 0.001) are the best predictors of maximal racket velocity. Maximal racket head velocity did not significantly correlate with the mean or maximal vertical GRF or with the mean or maximum rate of vertical force development. The best predictor for impact height is the relative net vertical impulse during the concentric phase (r = 0.772, p < 0.001). This work contributes to a better understanding of the mechanical demands of tennis serve motion and gives guidelines to improve players preparation and performance. Trainers should encourage their players to better synchronize their upward and forward pushing action during the serve to increase maximal racket head velocity. Players should also aim to improve their relative net vertical impulse to increase impact height through strength training and technical instructions. [ABSTRACT FROM AUTHOR]

Published

2024

30. Border-collision bifurcation in the Logistic map with state-dependent impulsive forces.

Author

Jiang, Haibo, Liu, Yang, Zhang, Liping, and Yu, Jianjiang

Subjects

BIFURCATION diagrams, ORBITS (Astronomy)

Abstract

This paper examines the intricate dynamics of the logistic map involving impulsive forces that depend on the state. The conditions of stability and border-collision bifurcation (BCB) of periodic orbits are presented. The two-parameter dynamical regions and the two-parameter bifurcation diagram of the system with respect to the system parameter and the strength of impulsive force are constructed. The periodic tongues are given to show that the BCB is critical for the dynamics of the logistic map with state-dependent impulsive forces. Finally, the bifurcation curves are provided to disclose the mechanisms of several bifurcation scenarios closely related to the BCB, including the period increment scenario and the period-adding scenario. [ABSTRACT FROM AUTHOR]

Published

2024

31. Blast Wave Simulator for Laminated Glass Panels Experimental Evaluation.

Author

Nawar, Mahmoud T., El-Zohairy, Ayman, El-Sisi, Alaa, Salim, Hani, and Aldoshan, Abdelhakim A.

Subjects

BLAST waves, SHOCK tubes, BLAST effect, STRESS waves, TERRORISM, LAMINATED glass

Abstract

The study of blast loads on structures is important due to the potential of significant consequences in various scenarios. From terrorist attacks to industrial accidents, comprehending how structures respond to blast waves is critical for ensuring public safety and designing resilient structures. Studying these effects typically involves two main methods: free-field tests with live explosives and shock tube tests. Although shock tube testing offers certain advantages, both approaches are costly and demand significant space. This research aims to develop a cost-effective and straightforward technique for generating stress waves that closely replicate the progressive and spatial characteristics of free-field or shock tube blast waves. This method was designed to evaluate the dynamic response of laminated glass panels. The stress wave was generated by impacting a piston on the fluid inside a tube, which was connected to a fluid chamber. This setup produced impulsive loads that were distributed across a laminated glass test panel. Moreover, it was used to simulate the shock near filed explosions for a certain part of a structure. High-speed cameras were utilized to analyze the initial velocity of flying glass fragments. The apparatus successfully produced various blast waves and impulsive profiles for different drop weight heights. The initial velocities of randomly selected flying shards ranged from 3 m/s to 4 m/s. [ABSTRACT FROM AUTHOR]

Published

2024

32. Adaptive exponential synchronization of impulsive coupled neutral stochastic neural networks with Lévy noise and probabilistic delays under non-Lipschitz conditions.

Author

Shuo Ma, Jiangman Li, Qiang Li, and Ruonan Liu

Subjects

BINOMIAL distribution, RANDOM variables, SYNCHRONIZATION, NOISE

Abstract

In this paper, we investigated the adaptive exponential synchronization problem of impulsive coupled neutral stochastic neural networks with Lévy noise and probabilistic delays under non-Lipschitz conditions. A stochastic variable with a Bernoulli distribution was utilized to transform the information regarding probabilistic delays into a model featuring deterministic time delays and stochastic parameters. In the context of adaptive controllers, exponential synchronization conditions depending on the delay, noise intensity, and impulse factor were derived using Lyapunov-Krasovskii functions, the nature of Lévy noise, and some inequality methods. To provide further support for the proposed approach, two numerical illustrations were presented. [ABSTRACT FROM AUTHOR]

Published

2024

33. Research on relative reachable domain in target orbit for maneuvering spacecraft

Author

Li, Xuehua and Zhang, Lei

Published

2024

34. Blast Wave Simulator for Laminated Glass Panels Experimental Evaluation

Author

Mahmoud T. Nawar, Ayman El-Zohairy, Alaa El-Sisi, Hani Salim, and Abdelhakim A. Aldoshan

Subjects

laminated glass, blast, impact, impulse, water shock, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The study of blast loads on structures is important due to the potential of significant consequences in various scenarios. From terrorist attacks to industrial accidents, comprehending how structures respond to blast waves is critical for ensuring public safety and designing resilient structures. Studying these effects typically involves two main methods: free-field tests with live explosives and shock tube tests. Although shock tube testing offers certain advantages, both approaches are costly and demand significant space. This research aims to develop a cost-effective and straightforward technique for generating stress waves that closely replicate the progressive and spatial characteristics of free-field or shock tube blast waves. This method was designed to evaluate the dynamic response of laminated glass panels. The stress wave was generated by impacting a piston on the fluid inside a tube, which was connected to a fluid chamber. This setup produced impulsive loads that were distributed across a laminated glass test panel. Moreover, it was used to simulate the shock near filed explosions for a certain part of a structure. High-speed cameras were utilized to analyze the initial velocity of flying glass fragments. The apparatus successfully produced various blast waves and impulsive profiles for different drop weight heights. The initial velocities of randomly selected flying shards ranged from 3 m/s to 4 m/s.

Published

2024

35. Six-Week Joint-Specific Isometric Strength Training Improves Serve Velocity in Young Tennis Players.

Author

Baiget, Ernest, Colomar, Joshua, and Corbi, Francisco

Subjects

ISOMETRIC exercise, TENNIS

Abstract

Purpose: Evaluate the effects of 6 weeks of specific-joint isometric strength training on serve velocity (SV), serve accuracy (SA), and force–time curve variables. Methods: Sixteen young competition tennis players were divided into an intervention (n = 10) or control group (n = 6). SV, SA, maximal voluntary isometric contraction, peak rate of force development, rate of force development, and impulse (IMP) at different time frames while performing a shoulder internal rotation (SHIR) or flexion were tested at weeks 0, 3, and 6. Results: The intervention group showed significant increases in SV from pretest to posttest (7.0%, effect size [ES] = 0.87) and no variations in SA. Moreover, the intervention group showed significant increases from pretest to posttest in shoulder-flexion rate of force development at 150 (30.4%, ES = 2.44), 200 (36.5%, ES = 1.26), and 250 ms (43.7%, ES = 1.67) and in SHIR IMP at 150 (35.7%, ES = 1.18), 200 (33.4%, ES = 1.19), and 250 ms (35.6%, ES = 1.08). Furthermore, significant increases were found in shoulder-flexion rate of force development from intertest to posttest at 150 ms (24.5%, ES = 1.07) and in SHIR IMP at 150 (13.5%, ES = 0.90), 200 (19.1%, ES = 0.98), and 250 ms (27.2%, ES = 1.16). SHIR IMP changes from pretest to intertest were found at 150 ms (25.6%, ES = 1.04). The control group did not show changes in any of the tested variables. Conclusions: Six weeks of upper-limb specific-joint isometric strength training alongside habitual technical–tactical workouts results in significant increases in SV without SA detriment in young tennis players. [ABSTRACT FROM AUTHOR]

Published

2023

36. Intersession Variability of Knee Extension Kinetics Using a Strain Gauge Device With Differing Clinically Practical Physical Constraints.

Author

Juneau, Christopher M., Diewald, Shelley N., Neville, Jonathan, Cronin, John B., and Oranchuk, Dustin J.

Subjects

*SKELETAL muscle physiology, *KNEE physiology, *RESTRAINT of patients, *EQUIPMENT & supplies, *ISOMETRIC exercise, *RANGE of motion of joints, *MUSCLE contraction, *CROSS-sectional method, *SPRAINS, *MUSCLE strength testing, *DYNAMICS, *COMPARATIVE studies, *REPEATED measures design, *INTRACLASS correlation, *DESCRIPTIVE statistics, *QUESTIONNAIRES, *DATA analysis software

Abstract

Context: Intrasession reliabilities of isometric knee extension kinetics via portable strain gauge have been reported across several knee joint angles and constraints. However, intersession variabilities, which are more valuable, have yet to be determined. Therefore, we aimed to quantify the intersession variability of knee extension kinetics over 3 testing sessions using an affordable and portable strain gauge. Design: Participants performed maximum voluntary isometric contractions of the knee extensors over 3 sessions. Methods: Eleven (6 men and 5 women; 31 [6.4] y) volunteers performed maximum voluntary isometric contractions in constrained (isokinetic setup with thigh and chest straps) and unconstrained (treatment plinth) conditions. Peak force (PF), peak rate of force development, rate of force development (RFD), and impulse (IMP) from 20% to 80% of PF were assessed. Means, SDs, percentage changes, minimal detectable changes, coefficients of variation (CV), and intraclass correlation coefficients (ICC) were calculated and reported. Results: PF had the lowest intersession variability regardless of condition (CV = 5.5%–13.8%, ICC =.67–.93). However, variability of peak rate of force development (CV [range] = 12.2%–24.7%, ICC =.50–.78), RFD (CV = 10.0%–26.8%, ICC =.48–.84), and IMP (CV = 15.2%–35.4%, ICC =.44–.88) was moderate at best. The constrained condition (CV [SD] = 14.1% [4.8%], ICC =.74 [.08]) had lower variability compared with the plinth (CV = 19.8% [7.9%], ICC =.68 [.15]). Variability improved from sessions 1 to 2 (CV = 20.4% [7.7%], ICC =.64 [.14]) and to sessions 2 to 3 (CV = 15.3% [6.4%], ICC =.76 [.10]). Conclusions: PF can be assessed regardless of setup. However, RFD and IMP changes across sessions should be approached with caution. Backrests and thigh straps improve RFD and IMP variability, and at least 1 familiarization session should be provided before relying on knee-extensor kinetics while utilizing a portable strain gauge. [ABSTRACT FROM AUTHOR]

Published

2023

37. A kinetic analysis of four high velocity, horizontally focused step‐up variations for acceleration training.

Author

Glassbrook, Daniel J., Dorman, Chris A., Doyle, Tim L.A., Wade, Jarrod A., and Fuller, Joel T.

Subjects

*FOOT physiology, *RUGBY football, *DYNAMICS, *ACCELERATION (Mechanics), *RUNNING, *DESCRIPTIVE statistics, *RESISTANCE training, *SPORTS events, *ATHLETIC ability, *DATA analysis software, *PHYSIOLOGICAL effects of acceleration

Abstract

Step‐up variations are frequently used in sports performance to develop coordinated and powerful movements that transfer to running. This study aimed to quantify the kinetic characteristics of the first foot contact of four different step‐up variations. Ten professional rugby league players participated in this study and performed the Barbell One Box Step‐Up with Catch (BB1), Barbell Two Box Step‐Up (BB2), Vest Two Box Run (VEST) and Step‐Up Jump (JUMP) as part of routine in‐season strength training sessions during one season. Peak force, total impulse and maximal rate of force development (RFD) were measured from first foot contact on the step‐up box. Significantly greater peak force and RFD were observed in JUMP than any other variation (standardized mean difference; SMD: 3.9–5.5; p < 0.001). Total impulse was equal between JUMP and BB1, and significantly greater in JUMP than BB2 and VEST (SMD: 1.3–2.3; p < 0.001), and in BB1 than BB2 and VEST (SMD: 1.8–2.8; p < 0.001). Significantly larger peak force and RFD were observed in BB2 and VEST than BB1 (SMD: 0.6–0.7) and in total impulse in BB2 than VEST (SMD: 1.6) (p < 0.05). The results of this study highlight that step‐up exercise variations maximize different kinetic characteristics, which may transfer differently to athlete running performance. Highlights: The Step‐Up Jump variation was shown to produce the largest relative peak force, largest rate of force development (RFD) and equal largest total impulse and therefore may have the greatest transferability to maximal speed running through the maximization of the stance phase.The Barbell Two Box Step‐Up (BB2) and Vest Two Box Run (VEST), produced significantly greater peak relative force and RFD than the Barbell One Box Step‐Up with Catch (BB1) and therefore may have better transferability to acceleration ability.Coaches can use the findings of this study to assist their selection of step‐up variations that are best suited to develop running ability and should consider the testing results and individual requirements of each athlete. [ABSTRACT FROM AUTHOR]

Published

2024

38. Global Exponential Stability of Impulsive Delayed Neural Networks with Parameter Uncertainties and Reaction–Diffusion Terms.

Author

Luo, Fei, Hu, Weiyi, Wu, Enli, and Yuan, Xiufang

Subjects

*EXPONENTIAL stability, *NONLINEAR theories, *DIFFERENTIAL inequalities

Abstract

In this paper, we present a method to achieve exponential stability in a class of impulsive delayed neural networks containing parameter uncertainties, time-varying delays, and impulsive effect and reaction–diffusion terms. By using an integro-differential inequality with impulsive initial conditions and employing the M-matrix theory and the nonlinear measure approach, some new sufficient conditions ensuring the global exponential stability and global robust exponential stability of the considered system are derived. In particular, the results obtained are presented by simple algebraic inequalities, which are certainly more concise than the previous methods. By comparisons and examples, it is shown that the results obtained are effective and useful. [ABSTRACT FROM AUTHOR]

Published

2024

39. Global Exponential Stability Conditions for Discrete-Time BAM Neural Networks Affected by Impulses and Time-Varying Delays.

Author

Li, Wanning, Zhang, Xian, Liu, Chunyan, and Yang, Xiaona

Abstract

This paper studies global exponential stability (GES) of discrete-time (D-T) BAM neural networks (BAMNNs) affected by impulses and time-varying delays. An impulse-free D-T BAMNN with time-varying delays is first developed via the properties of M-matrices, and then the relation between the solutions of the original and new BAMNNs is established. From which, sufficient conditions for GES of the original BAMNN are derived by investigating GES conditions of the new BAMNN based on the counter-evidence and the nature of the nonsingular M-matrix. The results of illustrative examples show that the obtained GES criteria are effective. By comparing with previous results, this paper has the following three merits: (a) the obtained GES criteria are to check the positivity of eigenvalues of a constant matrix, which is easy to realize; (b) this method can be used for other D-T system models affected by impulses and time-varying delays; and (c) the numerical results show that our method is less conservative than ones in other literatures. [ABSTRACT FROM AUTHOR]

Published

2024

40. Kinetics and Kinematics of the Push Press, Push Jerk, and Split Jerk.

Author

Soriano, Marcos A., Jiménez-Ormeño, Ester, Lake, Jason P., McMahon, John J., Gallo-Salazar, César, Mundy, Peter, and Comfort, Paul

Subjects

*ARM physiology, *CROSS-sectional method, *REPEATED measures design, *MATHEMATICAL variables, *BIOMECHANICS, *WORK, *STATISTICAL models, *TASK performance, *DATA analysis, *RESEARCH funding, *DYNAMICS, *KINEMATICS, *EXERCISE intensity, *DESCRIPTIVE statistics, *RESISTANCE training, *ANALYSIS of variance, *INTRACLASS correlation, *STATISTICS, *EXERCISE tests, *CONFIDENCE intervals, *DATA analysis software, *RELIABILITY (Personality trait), *TIME

Abstract

The aim of this study was to explore the kinetics and kinematics across incremental loads with the push press (PP), push jerk (PJ), and split jerk (SJ). Eighteen resistance-trained men performed the 1 repetition maximum (1RM) tests (visit 1)3-7 days before an incremental loading protocol (60, 75, and 90% 1RM) of the 3 exercises (visit 2). Kinetics and kinematics were derived from force-time data and compared using a repeated-measures analysis of variance with load and exercise as within-subject factors. Dependent variables for the biomechanics assessment were categorized as output (power and impulse), driver (force and work), and strategy (displacement and duration) metrics. The interrepetition reliability was assessed using the intraclass correlation coefficient and coefficient of variation. The PP, PJ, and SJ 1RM performance were 89.7 ± 15.4, 95.6 ± 14.4, and 103.0 ± 16.9 kg, respectively. Driver, strategy, and outcome metrics displayed moderate-to-excellent (intraclass correlation coefficient: 0.58-0.98) reliability with acceptable variability (% co-efficient of variation: 2.02-10.00). Increased load resulted in significantly large increases in force, work, displacement, duration, power, and impulse (p < 0.001, ηp² = 0.534-0.903). Exercise selection had a significant and large effect on power, impulse, work, and force (p < 0.016, ηp² = 0.387-0.534). There was a significant and large effect of load x exercise interaction on work, displacement, and duration (p < 0.019, ηp² = 0.158-0.220). Practitioners are encouraged to use heavier loads (90 > 75 > 60% 1RM) during the SJ exercise to maximize output, driver, and strategy kinetics and kinematics. [ABSTRACT FROM AUTHOR]

Published

2024

41. Exponential Stability of Impulsive Stochastic Neutral Neural Networks with Lévy Noise Under Non-Lipschitz Conditions.

Author

Ma, Shuo, Li, Jiangman, Liu, Ruonan, and Li, Qiang

Abstract

In this paper, the exponential stability issue of stochastic impulsive neutral neural networks driven by Lévy noise is explored. By resorting to the Lyapunov-Krasovskii function that involves neutral time-delay components, the properties of the Lévy process, as well as various inequality approaches, some sufficient exponential stability criteria in non-Lipschitz cases are obtained. Besides, the achieved results depend on the time-delay, noise intensity, and impulse factor. At the end of the paper, two numerical examples with simulations are presented to demonstrate the effectiveness and feasibility of the addressed results [ABSTRACT FROM AUTHOR]

Published

2024

42. Sex-Related Differences in Physical Determinants of Young High-Performance Tennis Players' Serve Velocity.

Author

Colomar, Joshua, Corbi, Francisco, and Baiget, Ernest

Published

2024

43. Ground reaction force analysis in flexible and rigid flatfoot subjects.

Author

ghazaleh, Leila, Hoseini, Yasin, masoomi, Faezeh, and Taghi Karimi, Mohammad

Abstract

Flatfoot is a structural and functional deformity of the foot that might change ground reaction force variables of gait. Evaluating the components of ground reaction force in three dimensions during gait is considered clinically important. This study aimed to investigate the components of ground reaction force, impulse, and loading rate during gait in people with flexible and rigid flatfoot compared to healthy subjects. 20 young women with flatfoot in two experimental groups (10 with rigid flatfoot and 10 with flexible flatfoot) and 10 healthy women in the control group participated in this study. Ground reaction force components during gait were measured using two force plates. The peak of ground reaction forces, impulse, and loading rate were then extracted. Data were processed and analyzed using MATLAB and SPSS software. One-way ANOVA with a significant level (P˂0.05) was used for statistical analysis. The results showed that peak braking force was higher in the rigid flatfoot group than in the control group (p = 0.016) and the flexible flatfoot group (p = 0.003). The posterior force loading rate was significantly higher in the rigid flatfoot group than in the flexible flatfoot group (P = 0.04). There was no significant difference in vertical loading rate between groups (P˃0.05). Since the maximal posterior ground reaction force was higher in the subjects with rigid flatfoot than in those with flexible flatfoot and healthy subjects, the increase in posterior ground reaction force is associated with an increase in anterior shear force at the knee. [ABSTRACT FROM AUTHOR]

Published

2024

44. 具 具 p-Laplace算子的分数阶脉冲 微分方程奇异边值问题的解.

Author

赵 甜, 胡卫敏, and 刘元彬

Subjects

BOUNDARY value problems, OPERATOR equations

Abstract

Copyright of Journal of Jilin University (Science Edition) / Jilin Daxue Xuebao (Lixue Ban) is the property of Zhongguo Xue shu qi Kan (Guang Pan Ban) Dian zi Za zhi She and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

45. 一类带阻尼项的非线性脉冲时滞双曲型方程的振动性分析.

Author

罗李平 and 曾云辉

Abstract

Copyright of Journal of Zhejiang University (Science Edition) is the property of Journal of Zhejiang University (Science Edition) Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

46. 体质量指数对足底压力的影响.

Author

朱晨辰, 殷 缘, 周迎基, 马婷婷, 苏丽垚, and 张 明

Subjects

*TOES, *FOOT, *BODY mass index, *YOUNG adults, *FLATFOOT, *ANKLE, *PRESSURE measurement, *BRACHIOCEPHALIC trunk

Abstract

BACKGROUND: Human plantar pressure can reflect the health status of the lower limbs and even the whole body, which is an important basis for gait analysis, and body mass index is an important influencing factor. OBJECTIVE: To investigate the effect of body mass index on plantar pressure. METHODS: Twenty young college students from Xuzhou Medical University, including 10 males and 10 females aged 19-21 years, were selected as test subjects and divided into three groups according to the body mass index value: overweight group (body mass index > 25 kg/m², n=3), lean group (body mass index < 18 kg/m2, n=4), and normal group (body mass index 18-25 kg/m², n=13). A natural walking gait test was carried out on the three groups of subjects with a Zebris pressure distribution measurement plate to obtain the complete gait cycle parameters. The time proportion of support time phase, peak pressure, time to peak force, peak force and impulse volume were analyzed and the correlation between each parameter and the body mass index was analyzed by Person analysis. RESULTS AND CONCLUSION: (1) Compared with the other two groups, the time proportion of support time phase of subjects in the overweight group was relatively small, while the time proportion in the foot heel contact period and forefoot extension period was relatively large. There was a positive correlation of the time proportion of the foot heel contact period and forefoot extension period with body mass index, while there was a negative correlation between the time proportion of the arch support period and body mass index. (2) The peak pressure of the left arch and palm of the foot of the subjects of the overweight group was higher than that of the normal group, and the peak pressure of the left and right palm of the foot of the lean group was lower than that of the normal group. The peak pressure was positively correlated with the body mass index during the foot heel contact period. There was a significant positive correlation between the peak pressure of the left foot and body mass index during the arch support period as well as the peak pressure of both feet and body mass index during the forefoot extension period. (3) Plantar peak force time in the order of the gait cycle in increasing order: heel < arch < metatarsal < toe. In the foot heel contact period, the time of peak force was negatively correlated with body mass index, but they were positively correlated with each other in the forefoot extension period. In the arch support period, the time of peak force of the left arch was significantly positively correlated with body mass index. (4) Plantar peak force was mainly expressed as medial heel > toe/middle 2-4 metatarsal > lateral heel > medial and lateral metatarsal > arch; medial heel peak force was the largest, and the arch peak force was the smallest. Except for the toe of the left foot, there was a significant positive correlation between peak force and body mass index. (5) The maximum ground impulse of the lean group and the overweight group was in the foot heel contact stage, the minimum ground impulse was in the forefoot extension period, and the minimum ground impulse of the arch was in the normal group. There was a significant positive correlation between ground impulse and body mass index at different periods. (6) The results show that young people should control their body mass index, wear appropriate shoes, protect their feet and ankles, and prevent the occurrence of flat feet. [ABSTRACT FROM AUTHOR]

Published

2024

47. NUMERICAL INVESTIGATION ON CHARACTERISTICS OF THE SHOCK WAVE GENERATED BY AN ANNULAR NESTED CHARGE.

Author

Li, Jun-bao, Li, Wei-bing, and Wang, Xiao-ming

Subjects

*SHOCK waves, *ENERGY consumption, *AZIMUTH

Abstract

This study is aimed at understanding some characteristics of the shock wave generated by a novel composite charge consisting of an inner high explosive, a medium non-detonating layer, and an outer aluminized explosive. The influence of the shell restraints and initiation modes on the peak overpressure and impulse of the charge is investigated. Numerical models are developed based on the mapping function of AUTODYN for determining the spatial distribution of the shock wave overpressure. By means of validation experiments, the accuracy of the developed model is verified. It is found that the peak overpressure and impulse obtained from experiments and simulations are in good agreement, with a deviation of less than 16.9%. The difference in the overpressures at various azimuths decreases with increasing distance, and the shock wave profile eventually evolves into a spherical shape. The radial overpressure of the shelled composite charge is initially greater than that in the axial direction and decays rapidly with increasing distance. The azimuth corresponding to the maximum peak overpressure is shifted from 75° for the bare charge to 110° for the shelled charge. It is found that the energy utilization of the composite charge under inner initiation is apparently smaller than that under simultaneous initiation. [ABSTRACT FROM AUTHOR]

Published

2024

48. Influence of Explosive Shape on the Response of Steel Plates under Blast Loading.

Author

Wang, Wei, Xu, Zhaowei, Wang, Yiping, Xu, Xiangyun, Huo, Qing, Song, Xiaodong, and Yang, Guangrui

Subjects

*BLAST effect, *IRON & steel plates, *MILITARY engineering, *SHOCK waves, *STEEL fracture, *FAILURE mode & effects analysis, *BLASTING

Abstract

In the protective engineering field, close-range explosions produce more energy and are more likely to cause severe damage to building structures than long-range explosions. In current standards, close-range explosions are defined as an explosion with a scale distance of less than 1.2 m/kg1/3. Besides, the steel plate's dynamic response is critical, especially under the blast loads generated by different shapes of explosives. For cylindrical explosives most commonly used in military and engineering, this study carried out experimental and numerical simulation studies on steel plates under the close-range air blast loads generated by different H/D cylindrical explosives (0.5≤H/D≤3.0). First, close-range air blast load tests were performed to study the failure modes of steel plates at different scale distances. The height-to-bottom diameter H/D ratio was defined as the shape factor of cylindrical explosive, and the effect of H/D on the failure deformation and dynamic response of the steel plate was quantitatively studied. Finally, the characteristics of shock waves generated by cylindrical explosives with different H/D were analyzed to determine the influence of H/D on the spatial distribution of shock waves. The results showed that with the increase of H/D , the steel plate deformation and damage gradually decreased. When the scale distance was more significant than or equal to 0.38, there was no crack in the steel plate, and the residual deflection gradually reduced with the increase of H/D. Despite the different scale distances, the residual deflections showed similar trends with increasing H/D. When the scale distance was less than or equal to 0.30, the steel plate cracked, and the crack area gradually decreased with increased H/D. [ABSTRACT FROM AUTHOR]

Published

2024

49. Kinetic and kinematic profile of eccentric quasi-isometric loading.

Author

Oranchuk, Dustin J., Diewald, Shelley N., McGrath, Joey W., Nelson, André R., Storey, Adam G., and Cronin, John B.

Subjects

*CROSS-sectional method, *RESEARCH funding, *DYNAMICS, *KINEMATICS, *PARAMETERS (Statistics), *DESCRIPTIVE statistics, *KNEE joint, *MATHEMATICAL statistics, *RESISTANCE training, *ANALYSIS of variance, *COMPARATIVE studies, *MUSCLE contraction, *RANGE of motion of joints, *PHYSIOLOGICAL effects of acceleration

Abstract

Eccentric quasi-isometric (EQI) contractions (maintaining a yielding contraction for as long as possible, beyond task failure) have gained interest in research and applied settings. However, little is known regarding the biomechanical profile of EQIs. Fourteen well-trained males performed four maximal effort knee-extensor EQIs, separated by 180 seconds. Angular impulse, velocity, and time-under-tension through the 30–100º range of motion (ROM), and in eight ROM brackets were quantified. Statistical parametric mapping, analyses of variance, and standardised effects (Hedges' g (ES), %Δ) detected between-contraction joint-angle-specific differences in time-normalised and absolute variables. Mean velocity was 1.34º·s−1 with most (62.5 ± 4.9%) of the angular impulse imparted between 40–70º. Most between-contraction changes occurred between 30–50º (p≤ 0.067, ES = 0.53 ± 0.31, 60 ± 52%), while measures remained constant between 50–100º (= 0.069–0.83, ES = 0.10 ± 0.26, 14.3 ± 24.6%). EQIs are a time-efficient means to impart high cumulative mechanical tension, especially at short to medium muscle lengths. However, angular impulse distribution shifts towards medium to long muscle lengths with repeat contractions. Practitioners may utilise EQIs to emphasize the initial portion of the ROM, and limit ROM, or apply EQIs in a fatigued state to emphasize longer muscle lengths. [ABSTRACT FROM AUTHOR]

Published

2024

50. 外能源枪械凸轮传动系统冲击载荷研究与分析.

Author

杨沫, 赫雷, 周克栋, 任海钱, 刘宜辉, and 刘强

Abstract

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Published

2024