4,052 research outputs found

    E-Textiles for Sports and Fitness Sensing: Current State, Challenges, and Future Opportunities

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    E-textiles have emerged as a fast-growing area in wearable technology for sports and fitness due to the soft and comfortable nature of textile materials and the capability for smart functionality to be integrated into familiar sports clothing. This review paper presents the roles of wearable technologies in sport and fitness in monitoring movement and biosignals used to assess performance, reduce injury risk, and motivate training/exercise. The drivers of research in e-textiles are discussed after reviewing existing non-textile and textile-based commercial wearable products. Different sensing components/materials (e.g., inertial measurement units, electrodes for biosignals, piezoresistive sensors), manufacturing processes, and their applications in sports and fitness published in the literature were reviewed and discussed. Finally, the paper presents the current challenges of e-textiles to achieve practical applications at scale and future perspectives in e-textiles research and development

    Post-activation potentiation effect of eccentric overload and traditional weightlifting exercise on jumping and sprinting performance in male athletes

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    The aim of this study was to evaluate the post-activation potentiation (PAP) effects following eccentric overload (EOL) and traditional weightlifting (TW) exercise on standing long jump (SLJ), countermovement jump (CMJ), and 5 m sprint acceleration performance. Ten male athletes were involved in a randomized, crossover study. The subjects performed 3 sets of 6 repetitions of EOL or TW half squat exercise followed by SLJ, CMJ, and 5 m sprint tests at 1 min, 3 min and 7 min, in separate sessions using a randomized order. Bayes factor (BF10) was reported to show the strength of the evidence. Differences were found using EOL for SLJ distance at 3 min (BF10 = 7.24, +8%), and 7 min (BF10 = 19.5, +7%), for CMJ at 3 min (BF10 = 3.25, +9%), and 7 min (BF10 = 4.12, +10.5%). Differences were found using TW exercise for SLJ at 3 min (BF10 = 3.88, +9%), and 7 min (BF10 = 12.4, +9%), CMJ at 3 min (BF10 = 7.42, +9.5%), and 7 min (BF10 = 12.4, +12%). No meaningful differences were found between EOL and TW exercises for SLJ (BF10 = 0.33), CMJ (BF10 = 0.27), and 5 m sprint (BF10 = 0.22). In conclusion, EOL and TW exercises acutely increase SLJ and CMJ, but not 5 m sprint performance. The PAP time window was found between 3 min and 7 min using both protocols. This study did not find differences between EOL and TW exercises, and so both methodologies can be used to stimulate a PAP response

    Post flywheel squat vs. flywheel deadlift potentiation of lower limb isokinetic peak torques in male athletes

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    The present study investigated the post-activation performance enhancement (PAPE) of isokinetic quadriceps and hamstrings torque after flywheel (FW)-squat vs. FW-deadlift in comparison to a control condition. Fifteen male athletes were enrolled in this randomised, crossover study. Each protocol consisted of 3 sets of 6 repetitions, with an inertial load of 0.029 kg.m2. Isokinetic quadriceps (knee extension) and hamstrings (knee flexion) concentric peak torque (60o/s) and hamstring eccentric peak torque (-60o/s) were measured 5 min after experimental or control conditions. A significant condition (PAPE) effect was reported (f = 4.067, p = 0.008) for isokinetic hamstrings eccentric peak torque following FW-squat and FW-deadlift, but no significant differences were found for quadriceps and hamstrings concentric peak torques. The significant difference averaged 14 Nm between FW-squat vs. control (95% CI: 2, 28; d = 0.75, moderate; p = 0.033), and 13 Nm between FW-deadlift vs. control (95% CI: 1, 25; d = 0.68, moderate; p = 0.038). This study reported that both FW-squat and FW-deadlift exercises are equivalently capable of generating PAPE of isokinetic hamstrings eccentric torque. Practitioners may use these findings to inform strength and power development during complex training sessions consisting of flywheel-based exercises prior to a sport-specific task

    Tennessee roads / Jesse Stuart. In Mountain herald / Lincoln Memorial University.

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    This picturesque poem was written by then-sophomore (and future celebrated author) Jesse Stuart about the roads of Tennessee

    Experts in sport podcast:Challenges within sports officiating

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    Dr Tom Webb, Associate Professor in the Centre for Business in Society at Coventry University, joins Dr Stuart McErlain-Naylor to discuss officiating within sports and the challenges that face referees and other officials across the landscape. Throughout the episode, conversations around the role and purpose of a sports official are centred, alongside the perception of sports officials as athletes, embracing the introduction of technologies such as VAR, and debating what constitutes a successful outcome

    The Effect of Load on Subphase Analysis During the Hang Pull.

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    Meechan, D, McErlain-Naylor, SA, Phua, Juan Peng, and Comfort, P. The effect of load on subphase analysis during the hang pull. J Strength Cond Res XX(X): 000-000, 2025-The effect of load on temporally aligned time-series data has yet to be investigated during weightlifting derivatives. Such data may provide greater insight regarding any differences in stimulus between relative loads during each phase. This study compared the effect of load on the force-time and velocity-time curves during the hang pull (HP). Twenty-seven males performed the HP at relative loads of 40, 60, 80, 100, 120, and 140% one repetition maximum (1RM) power clean (PC). A force plate measured the vertical ground reaction force, which calculated the barbell-lifter system velocity. Time-series were time-normalized to 101 data points (0-100% of the movement duration) via piecewise linear length normalization of the individual phases (unweighting, braking, propulsion) and assessed via statistical parametric mapping. Relative loads of 40% 1RM PC maximized propulsion velocity, whereas 140% 1RM maximized force. Statistical parametric mapping analysis showed greater force at 140% 1RM PC throughout 55-100% of total movement duration compared with all loads, with greater propulsion velocity at lighter loads during the propulsion phase (79-100% of the movement) for all loads, with greater negative velocity at 140% 1RM PC compared with 60 and 100% 1RM PC during late unweighting/early braking phase (32-54% of the movement). Braking, propulsion, and total absolute durations increased with load. It may be appropriate to prescribe the HP during a maximal strength and strength-speed mesocycle given the ability to use supramaximal loads. [Abstract copyright: Copyright © 2025 National Strength and Conditioning Association.

    No. 617 Stuart Ruckman

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    Transcript (12, 40 pages) of two interviews by Matt Driscoll with Stuart Ruckman on April 9, 2010, and July 7, 2011Ruckman (b. 1966) was born in Salt Lake City, Utah. Stuart shares how his family, particularly his father, played a significant role in introducing him to the outdoors. Some of his initial explorations included a hike to the top of Mount Olympus when he was five years old, backpacking trips in the Wasatch and Uinta Mountains, and a successful summit attempt on the Grand Teton when he was twelve. Stuart discovered technical rock climbing due to the influence of his older brother Bret, five years Stuart\u27s senior. Bret learned under Dennis Turville, a well-respected Salt Lake climbing instructor. Stuart shares his observations on the Salt Lake climbing community of the late 1970s and 1980s, noting the intimacy of the community, while also pointing out the significant influence of a handful of climbers, including Merrill Bitter, Les Ellison, and Brian Smoot. He briefly describes the proliferation of new-route development in the Wasatch during his first decade in climbing. In collaboration with his brother Bret, Stuart published comprehensive guidebooks on climbing in the Wasatch Mountains. Stuart\u27s contributions as a first-ascensionist and co-author of Rock Climbing the Wasatch Range attest to his lasting impact on Utah climbing. Interview is part of the Outdoor Recreation History Project. Interviewer: Matt Driscol

    UNDERGRADUATE STUDENT EXPERIENCES OF PUBLISHING BIOMECHANICS RESEARCH

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    The aim of this study was to investigate student experiences of publishing undergraduate research in biomechanics. Twenty-five individuals with experience of publishing peer-reviewed undergraduate biomechanics research completed an online survey regarding their perceived benefits and their level of involvement in various aspects of the research process. Areas of the greatest and least perceived benefits and student involvement were identified. Correlations suggested numerous beneficial effects of relatively low student involvement, more likely related to the concurrent greater supervisor involvement. Staff should make informed decisions regarding their level of involvement in each aspect of the research process rather than simply focusing on the final research output

    A PRACTICAL OPEN-SOURCE COMPARISON OF DISCRETE AND CONTINUOUS BIOMECHANICAL ANALYSIS TECHNIQUES

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    Recent work has challenged the practice of extracting and analysing discrete summary metrics from continuous biomechanical data. This paper presents a practical comparison of candidate data analysis techniques including frequentist and Bayesian discrete analysis, frequentist and Bayesian statistical parametric mapping, and vector coding. Example 1 compares knee and hip flexion / extension angles during flywheel and barbell squats. Example 2 compares pelvis and thorax transverse rotations during badminton jump smashes by an international and a regional player. All example data and scripts are open-source. Statistical parametric mapping enables comparison of continuous biomechanical variables at time points other than discrete local optima. Combining this approach with vector coding provides information regarding differences in proximal-distal joint coordination throughout a movement. These continuous open-source methodologies can increase the validity and intuitive practical application of biomechanical conclusions
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