Your search keyword '"Differential learning"' showing total 248 results

1. Optimizing engineering design problems using adaptive differential learning teaching-learning-based optimization: Novel approach

Author

Tao, Hai, Aldlemy, Mohammed Suleman, Ahmadianfar, Iman, Goliatt, Leonardo, Marhoon, Haydar Abdulameer, Homod, Raad Z., Togun, Hussein, and Yaseen, Zaher Mundher

Published

2025

2. The Effect of Neurocognitive Training on Biomechanical Risk Factors Related to Anterior Cruciate Ligament Injury in Athletes: A Narrative Review.

Author

Hamoongard, Majid, Letafatkar, Amir, and Thomas, Abbey C.

Subjects

*SPORTS injuries risk factors, *ANTERIOR cruciate ligament injury prevention, *RISK assessment, *BIOMECHANICS, *PHYSICAL therapy, *ANTERIOR cruciate ligament injuries, *SPORTS, *SPORTS injuries, *KINEMATICS, *DYNAMICS, *EXERCISE therapy, *TREATMENT effectiveness, *INFORMATION storage & retrieval systems, *SYSTEMATIC reviews, *MEDLINE, *ROTATIONAL motion, *MEDICAL rehabilitation, *MEDICAL databases, *ABDUCTION (Kinesiology), *ONLINE information services, *GROUND reaction forces (Biomechanics), *COGNITIVE rehabilitation, *RANGE of motion of joints, *NEURODEVELOPMENTAL treatment, *DISEASE risk factors

Abstract

Context: The best current evidence supports the effectiveness of neuromuscular training in reducing the risk of injury; however, the rate of anterior cruciate ligament (ACL) injuries is still high. Neurocognitive training (NT) has successfully improved biomechanical risk factors, but they have been considered in only a few studies. Objective: To review the literature to determine the effect of NT on biomechanical risk factors related to ACL injury in athletes. Evidence Acquisition: We searched PubMed, Google Scholar, Scopus, Science Direct, and the Physiotherapy Evidence Database from inception to August 2011. We included randomized controlled trials that used motor learning approaches and injury prevention programs to investigate kinematic and kinetic risk factors related to ACL injury. The quality of each clinical trial study was evaluated by the Physiotherapy Evidence Database scale. The eligibility criteria were checked based on the PICOS (population, intervention, comparison, outcome, and study type) framework. Evidence Synthesis: A total of 9 studies were included in the final analysis. Motor learning approaches include internal and external focus of attention, dual tasks, visual motor training, self-control feedback, differential learning, and linear and nonlinear pedagogy, combined with exercise programs. In most of the studies that used NT, a significant decrease in knee valgus; tibial abduction and external rotation; ground reaction force; and an increase in knee-, trunk-, hip-, and knee-flexion moment was observed. Conclusion: In classical NT, deviation from the ideal movement pattern especially emphasizing variability and self-discovery processes is functional in injury prevention and may mitigate biomechanical risk factors of ACL injuries in athletes. Practitioners are advised to use sport-specific cognitive tasks in combination with neuromuscular training to simulate loads of the competitive environment. This may improve ACL injury risk reduction and rehabilitation programs. [ABSTRACT FROM AUTHOR]

Published

2024

3. The relevance of Vygotsky's constructivism learning theory with the differentiated learning primary schools.

Author

Wibowo, Sigit, Wangid, Muhammad Nur, and Firdaus, Fery Muhamad

Subjects

CONSTRUCTIVISM (Education), HUMAN Development Index, SOCIAL constructionism, STUDENT development

Abstract

The purpose of this study is to analyze in depth the relevance of Vygotsky's constructivism learning theory in differentiated learning in elementary schools. Differentiated learning is an effort to adapt the learning process in the classroom to meet the learning needs of each individual. This adjustment is made by considering the interests, learning profiles, and readiness of students to improve learning outcomes. With this adjustment, students can learn according to their respective abilities and find understanding from their own experiences. On the other hand, constructivist learning theory states that learning is a process in which students can build their knowledge. One of the constructivists learning theories was proposed by Vygotsky, known as social constructivism. Vygotsky's constructivism emphasizes the interaction of interpersonal (social), cultural-historical, and individual factors as the key to human development. The constructivist theory has relevance to differentiated learning in terms of meaningful learning and student activity. Differentiated learning applies constructivist theory in learning by considering the individual characteristics of students. In addition, the concept of the zone of proximal development (ZPD) and scaffolding are highly relevant in differentiated learning that accommodates the full potential of students and considers the individual abilities of students. [ABSTRACT FROM AUTHOR]

Published

2025

4. The Effects of Contextual Interference Learning on the Acquisition and Relatively Permanent Gains in Skilled Performance: A Critical Systematic Review with Multilevel Meta-Analysis.

Author

Ammar, Achraf, Trabelsi, Khaled, Boujelbane, Mohamed Ali, Salem, Atef, Boukhris, Omar, Glenn, Jordan M., Zmijewski, Piotr, Jahrami, Haitham A., Chtourou, Hamdi, and Schöllhorn, Wolfgang I.

Abstract

The paradoxical effects of contextual interference (CI) assume that high CI practices hinder performances during the acquisition phase of learning, while providing more permanent enhancement during the retention phase. This meta-analysis evaluates the possible generalizability of the CI phenomenon in physical education (PE) and sports contexts, with regard to the acute and relatively permanent gains in performance outcomes. A total of 933 records from five electronic databases were screened using the PICOS criteria, of which 36 studies were selected. Outcomes evaluating the performance changes (Δ) from pre-post, post-retention, and pre-retention tests were included. Out of 183 overall pooled outcomes, Δ in only 37 performance outcomes (20%) agreed with the paradoxical CI effects on the acquisition or the relatively permanent gains. No statistically significant overall difference was detected for “Δ pre-post” between low (blocked) (28.9 ± 59.5%) and high (random/serial) (27.9 ± 52.8%) CI (effect size (ES) = 0.1, p = 0.35). An overall significant difference (p = 0.001) in favor of high CI practice was detected in “Δ post-retention.” However, this difference was not large enough (ES = − 0.35) to produce an overall greater long-term gain following high (24.56 ± 4.4%), compared to low (21.9 ± 9.8%) CI (ES = − 0.13, p = 0.18). Out of 10 tested variables, only the age significantly moderated both CI effects (p < 0.0001 for both Δ pre-post and Δ pre-retention) and the female proportion significantly moderated only the first CI effect (p = 0.009 for Δ pre-post). These findings found very limited evidence supporting the recommendation to employ high CI practices to gain a longer-term performance advantage, calling into question the generalization of the CI model to PE and sports practices. High-quality follow-up research evaluating alternative motor-learning models are therefore needed. [ABSTRACT FROM AUTHOR]

Published

2024

5. The Effects of Differential Learning on the Standing Broad Jump.

Author

Rivera, Diego, Robinson, Tanner, and King, Adam C.

Subjects

*SKELETAL muscle physiology, *PHYSICAL fitness, *LEARNING strategies, *TREATMENT effectiveness, *COMPARATIVE studies, *ABILITY, *TRAINING, *RANDOMIZED controlled trials, *RESEARCH funding, *JUMPING, *BIOMECHANICS, *STATISTICAL sampling, *MOTOR ability, *GROUND reaction forces (Biomechanics)

Abstract

In this investigation, we examined the influence of two approaches of motor skill learning (differential learning and repetition-based) for an explosive motor skill. Twenty-seven individuals completed four training sessions of a standing broad jump task, presented with either differential training or a repetition-based approach. We collected pre-and post-training assessments that included maximal jump distances used to index performance and the recording of ground reaction forces to determine potential biomechanical changes (normalized vertical ground reaction force – GRFvert, rate of force development – RFD, and horizontal take-off velocity - Vhor). Results showed that differential training exhibited greater jump distances than repetition-based training (p <.001) but no training effect was found for jump distances between pre- and post-assessments for either training approach (p =.15). However, a significant increase occurred for Vhor with greater velocities achieved following training (p =.03). Overall, differential training failed to show the expected performance enhancements for a discrete, explosive motor task; this may be related to limited exposure and task specific demands of the movement. Further research is needed to better understand the task factors influencing skill acquisition from differential training. [ABSTRACT FROM AUTHOR]

Published

2024

6. Resonance Effects in Variable Practice for Handball, Basketball, and Volleyball Skills: A Study on Contextual Interference and Differential Learning.

Author

Apidogo, Julius Baba, Ammar, Achraf, Salem, Atef, Burdack, Johannes, and Schöllhorn, Wolfgang Immanuel

Subjects

RESONANCE effect, HANDBALL, VOLLEYBALL, BASKETBALL, PHYSICAL training & conditioning

Abstract

Effective sports training should be attuned to the athlete's specific conditionings and characteristics. In motor learning research, two often neglected factors that influence this resonance are the learner's athletic background and the structural diversity of exercises (e.g., relative similarity). In the setting of real-word training with higher external validity, this study examines the effects of three learning approaches (i.e., contextual interference (CI), differential learning (DL), and free-play control condition (CO)) on the parallel learning of handball (HB), volleyball (VB), and basketball (BB) skills, considering participants' prior sport backgrounds. Forty-five males (15 HB, 15 VB, and 15 BB players) with a mean age of 22 ± 1.4 years and at least 6 years of experience in the mastered discipline voluntarily participated in this study. A pre–post–retention test design including a 6-week-intervention program was employed. During the intervention period, participants engaged in three training sessions a week, with each one lasting approximately 80 min. Each of the three test sessions involved the execution of ten attempts of BB free-throw shooting, HB three-step goal throwing, and VB underarm passing following a blocked order. In terms of short-term (pre–post) gain, only the DL group significantly improved their performance in both non-mastered disciplines (p = 0.03, ES = 1.58 for the BB free-throw and p = 0.05, ES = 0.9 for the HB shooting tests), with a trend (ES = 0.53) towards an improvement in the performance of the mastered VB underarm-pass skill. In terms of relatively permanent gains, the CI group significantly improved their performances from pre- to retention test only in the non-mastered BB free-throw skill (p = 0.018, ES = 1.17). In contrast, the DL group significantly improved their performance at retention compared to the pre-test in both non-mastered BB (p = 0.004, ES = 1.65) and HB (p = 0.003, ES = 2.15) skills, with a trend (ES = 0.4) towards improvement in the mastered VB test. In both the short-term and relatively long-term, higher composite score gains were observed in DL compared to CI (p = 0.006, ES = 1.11 and 0.049, ES = 1.01) and CO (p = 0.001, ES = 1.73 and <0.0001, ES = 2.67). In conclusion, the present findings provide additional support for the potential advantages of the DL model over those of CI. These findings can serve as the basis for tailored training and intervention strategies and provide a new perspective for addressing various issues related to individual and situational learning. [ABSTRACT FROM AUTHOR]

Published

2024

7. Type 2 Research: Differential Learning and Divergent Development

Author

Dai, David Yun, Dai, David Yun, Xue, Yukang, With Contrib. by, and Sun, Qi, With Contrib. by

Published

2023

8. Photovoltaic Power 24-hour Predictions Using PDE Component Models Based on the L-Transform Conversion Produced in Node-by-Node Evolved Binomial Networks

Author

Zjavka, Ladislav, Snášel, Václav, Xhafa, Fatos, Series Editor, and Barolli, Leonard, editor

Published

2023

9. Differential learning assisted with SANTUY mobile application for improving students’ mathematical understanding and ability

Author

Euis Eti Rohaeti, Brian R. Evans, Toyo Wiyatno, Rully Charitas Indra Prahmana, and Wahyu Hidayat

Subjects

android, differential learning, mathematical understanding, santuy application, spldv, Mathematics, QA1-939

Abstract

Equations are often used in mathematics and other subjects, which means that a media can teach students how to solve equations, particularly linear equations of two variables, or Sistem Persamaan Linear Dua Variabel (SPLDV) as it is called in Indonesian, is needed. However, most teachers are still focused on developing the learning process and teaching materials rather than developing an application technology-based learning media. As we know that technology-based learning is currently the focus of teaching and learning activities in the digital era, especially learning after the pandemic. This study aimed to develop an application that can be a reference for teaching media in learning activities to improve students’ mathematical understanding and ability. The developed application is named, Integrated and Convenient Android-based Simulation or Simulasi Android Terpadu dan Nyaman, abbreviated as SANTUY. This development study with Analysis, Design, Development, Implementation, and Evaluation (ADDIE) model, explained in detail in the paper, took seventy-five subjects consisting of six expert validators, nine users, and sixty students. The expert validators comprised three media experts and three material experts. The evaluation stage involved students from two groups, each consisting of thirty students. The results showed that the average percentage of the feasibility of the SANTUY SPLDV solution simulation-assisted application with differential learning nuance was 79.62%, which means the application is adequate. The level of usefulness of the SANTUY SPLDV solution simulation-assisted application with differential learning nuance was 86.11%, which is categorized as “excellent”. In addition, using the SANTUY SPLDV application had a direct positive influence on improving students’ mathematical understanding and ability.

Published

2023

10. تأثیر تمرین یادگیری افتراقی و تداخل ضمنی بر یادداری و انتقال سرویس کوتاه بکهند بدمینتون.

Author

سیده ساناز حسینی, رسول يا على, گلناز فائزی, and سارا افتاده

Abstract

How the process of acquiring and learning new motor skills can be enhanced is one of the basic questions in theoretical and applied movement science, rehabilitation and sport. The Differential Learning (DL) approach is mainly characterized by taking advantage, for the purpose of learning, of fluctuations that occur, without movement repetitions and without corrections during the skill acquisition process. The purpose of this study was to examine the effects of Differential Learning (DL) and Contextual Interference (CI) on the Retention and Transfer of Badminton backhand short serve. Prior to the implementation of the protocol, all participants of the pre - test were taken. Then, each group of research performed for 8 sessions according to the type of training. One day after the completion of the practice protocol, of all participants were taken the tests of Retention and Transfer. The analysis t -test indicated that there was a significant difference between the groups DL and CI in tests Retention and Transfer (p= 0.00). In fact, the results of the research show the effectiveness of the DL approach on the Retention and Transfer of Badminton backhand short serve. Based on the results of the research, the conclusion is that the DL approach is useful for learning skills, and can discover adaptive solutions by creating oscillations in the individual and helped to improve and learning skills. [ABSTRACT FROM AUTHOR]

Published

2023

11. Differential Learning from Sparse and Noisy Labels for Robust Detection of Clinical Landmarks in Echo Cine Series

Author

Mahdavi, Mobina, Vaseli, Hooman, Luong, Christina, Van Woudenberg, Nathan, Jafari, Mohammad, Abolmaesumi, Purang, Tsang, Teresa, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Aylward, Stephen, editor, Noble, J. Alison, editor, Hu, Yipeng, editor, Lee, Su-Lin, editor, Baum, Zachary, editor, and Min, Zhe, editor

Published

2022

12. Comparing the Effects of Differential and Visuo-Motor Training on Functional Performance, Biomechanical, and Psychological Factors in Athletes after ACL Reconstruction: A Randomized Controlled Trial.

Author

Gholami, Fatemeh, Letafatkar, Amir, Moghadas Tabrizi, Yousef, Gokeler, Alli, Rossettini, Giacomo, Ghanati, Hadi Abbaszadeh, and Schöllhorn, Wolfgang Immanuel

Subjects

*ANTERIOR cruciate ligament surgery, *PSYCHOLOGICAL factors, *RANDOMIZED controlled trials, *FUNCTIONAL training, *GROUND reaction forces (Biomechanics)

Abstract

Variation during practice is widely accepted to be advantageous for motor learning and is, therefore, a valuable strategy to effectively reduce high-risk landing mechanics and prevent primary anterior cruciate ligament (ACL) injury. Few attempts have examined the specific effects of variable training in athletes who have undergone ACL reconstruction. Thereby, it is still unclear to what extent the variations in different sensor areas lead to different effects. Accordingly, we compared the effects of versatile movement variations (DL) with variations of movements with emphasis on disrupting visual information (VMT) in athletes who had undergone ACL reconstruction. Forty-five interceptive sports athletes after ACL reconstruction were randomly allocated to a DL group (n = 15), VT group (n = 15), or control group (n = 15). The primary outcome was functional performance (Triple Hop Test). The secondary outcomes included dynamic balance (Star Excursion Balance Test (SEBT)), biomechanics during single-leg drop-landing task hip flexion (HF), knee flexion (KF), ankle dorsiflexion (AD), knee valgus (KV), and vertical ground reaction force (VGRF), and kinesiophobia (Tampa Scale of Kinesiophobia (TSK)) assessed before and after the 8 weeks of interventions. Data were analyzed by means of 3 × 2 repeated measures ANOVA followed by post hoc comparison (Bonferroni) at the significance level of p ≤ 0.05. Significant group × time interaction effects, main effect of time, and main effect of group were found for the triple hop test and all eight directions, SEBT, HF, KF, AD, KV, VGRF, and TSK. There was no significant main effect of group in the HF and triple hop test. Additionally, significant differences in the triple hop test and the seven directions of SEBT, HF, KF, KV, VGRF, and TSK were found between the control group and the DL and VMT groups. Between group differences in AD and the medial direction of SEBT were not significant. Additionally, there were no significant differences between VMT and the control group in the triple hop test and HF variables. Both motor learning (DL and VMT) programs improved outcomes in patients after ACL reconstruction. The findings suggest that DL and VMT training programs lead to comparable improvements in rehabilitation. [ABSTRACT FROM AUTHOR]

Published

2023

13. Photovoltaic power intra‐ and day‐ahead predictions with differential learning producing PDE‐modular models based on the node L‐transform derivatives.

Author

Zjavka, Ladislav

Subjects

VIDEO coding, NUMERICAL weather forecasting, PARTIAL differential equations, SOLAR cycle, STATISTICAL learning, FORECASTING, VIDEO compression

Abstract

Predictions of photovoltaic (PV) energy supply, based on data statistics of weather and PV records, are required in short‐intra and day‐ahead planning of PV plant operations. Numerical weather prediction (NWP), based on physical consideration, can simulate the progress of local cloudiness, although their prognoses are usually delayed by a few hours and are not provided with the quality desired by PV operators. Differential polynomial neural network (D‐PNN) is an unconventional hybrid regression technique, based on a novel learning strategy and able to resolve some problems in modeling patterns in high‐dynamical and chaotic non‐deterministic systems. D‐PNN splits the general partial differential equation (PDE) of the kth order into a summation form of two‐variable PDEs of a predetermined low order. PDE derivatives are transformed and separated into the Laplace counterparts, from which the unknown node originals are restored using the inverse L‐operation. D‐PNN searches for the best 2‐input couples, inserting node by node into its changeable tree structure, to expand the modular sum model by usable PDE components. The PDE‐modularization enhances the D‐PNN capability in modeling high uncertainty in weather patterns in the ground‐layer atmosphere, analogous to NWP. The designed PV intra‐ and day‐ahead prediction schemes, using hourly increasing and fixed‐time prediction horizons, were compared with different computing approaches based on differential, probabilistic and statistical learning. Machine learning (ML) models calculate the output PV power in each single hour separately or in an all‐day processing series with trained input delay. The results are analyzed and interpreted for each day and prediction hour. The quantitative results for both prediction procedures are comparable, showing the average intraday 11.6% and all‐day 9.6% (or rather 12.3% respectively) inaccuracy with respect to the daily peak power. Training data samples with spatial overlap in the regional scope and ML initialized similarity intervals are related to the fixed‐day or hourly increased input–output delay. This approach can compensate for unpredictable midterm variances in local weather patterns (caused by terrain or convection anomalies) and possible errors in model initialization. PV power was converted to and restored from the clear sky index in the modeling input/output, which represents its relative values, disregarding the actual solar cycle time. [ABSTRACT FROM AUTHOR]

Published

2023

14. EFECTOS DEL APRENDIZAJE DIFERENCIAL Y TRADICIONAL SOBRE EL BOTE EN JUGADORES PRINCIPIANTES DE BALONCESTO.

Author

Hernández, K., Gea-García, G. M., and Menayo, R.

Subjects

BASKETBALL players, TIME measurements, MOTOR learning, BASKETBALL

Abstract

Copyright of Journal of Sport & Health Research is the property of Journal of Sport & Health Research 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

2023

15. The effects of learning with various noise on Gait Kinematics in 3-to-5-year-old children: a randomized controlled trial

Author

Maryam Ghorbani, Rasoul Yaali, Wolfgang I. Schöllhorn, Amir Letafatkar, and Hassan Sadeghi

Subjects

Model-oriented learning, Differential learning, Self-organized learning, Gait, Kinematics, Children, Sports medicine, RC1200-1245

Abstract

Abstract Background Lack of the neuromuscular control during locomotion in the knee joint leads to an increased risk of anterior cruciate ligament (ACL) injury in children. Hence, we aimed to explore the effects of a repetitive, model-oriented, and self-organized approach on lower limb kinematics during gait in children. Methods In randomized controlled trial, 36 children with 4 ± 0.79 years of age from the children gym were randomly (a lottery method) allocated into three groups, including (1) the model-oriented (n = 10), (2) Differential Learning (n = 11), and (3) control (n = 10) groups. Kinematic data of hip, knee, and ankle joints in the sagittal plane were recorded by a GoPro camera at the moments of heel-ground contact and toe-off the ground before and after a 6-week intervention (two sessions per week). Results The results indicate a 35% post-intervention increase of ankle dorsiflexion (95% CI: − 5.63 _ − 0.96) in the moment of heel-ground contact in the model-oriented group; however, knee flexion (95% CI: − 1.05 _ 8.34) and hip flexion (95% CI: 3.01 _ 11.78) were respectively decreased by 20% and 20%. After the intervention, moreover, ankle plantar flexion (95% CI: − 9.18 _ − 2.81) and hip extension (95% CI: − 12.87 _ − 3.72) have respectively increased by 37% and 37%, while knee flexion (95% CI: 3.49 _ 11.30) showed a %16 decrease in the moment of toe off the ground. As for the Differential Learning group, ankle dorsiflexion (95% CI: − 5.19 _ − 1.52) increased by 33%, and knee (95% CI: 0.60 _ 5.76) and hip flexion (95% CI: 2.15 _ 7.85) respectively decreased by 17% and 17% at the moment of the heel-ground contact following the intervention. At toe lifting off the ground, the plantar flexion (95% CI: − 7.77 _ − 2.77) increased by 35%, knee flexion (95% CI: 2.17 _ 7.27) decreased to 14%, and hip extension (95% CI: − 9.98 _ − 4.20) increased by %35 following the intervention for the Differential Learning group subjects. Based on the results obtained from the one-way ANOVA, there was a significant difference between these groups and the control group in all kinematic gait variables (p ≤ 0.05). However, no statistically significant differences were found between the two experimental groups. Conclusions The results implied that the model-oriented repetitive and the self-organized Differential Learning approach were both appropriate to alter the kinematic gait pattern in the 3–5-year-old children. Previous research has almost exclusively recommended a model-oriented approach to change kinematic patterns and preventing non-contact motor injuries. However, the present study showed that the Differential Learning approach can help children to achieve the same goal by continuously changing environments and stimulating challenges. Trial registration: Current Controlled Trials using the IRCT website with ID number of, IRCT20130109012078N5 “Prospectively registered” at 14/5/2021.

Published

2022

16. Resonance Effects in Variable Practice for Handball, Basketball, and Volleyball Skills: A Study on Contextual Interference and Differential Learning

Author

Julius Baba Apidogo, Achraf Ammar, Atef Salem, Johannes Burdack, and Wolfgang Immanuel Schöllhorn

Subjects

adaptive stochastic resonance, basketball free-throw, handball shooting, volleyball underarm pass, contextual interference, differential learning, Sports, GV557-1198.995

Abstract

Effective sports training should be attuned to the athlete’s specific conditionings and characteristics. In motor learning research, two often neglected factors that influence this resonance are the learner’s athletic background and the structural diversity of exercises (e.g., relative similarity). In the setting of real-word training with higher external validity, this study examines the effects of three learning approaches (i.e., contextual interference (CI), differential learning (DL), and free-play control condition (CO)) on the parallel learning of handball (HB), volleyball (VB), and basketball (BB) skills, considering participants’ prior sport backgrounds. Forty-five males (15 HB, 15 VB, and 15 BB players) with a mean age of 22 ± 1.4 years and at least 6 years of experience in the mastered discipline voluntarily participated in this study. A pre–post–retention test design including a 6-week-intervention program was employed. During the intervention period, participants engaged in three training sessions a week, with each one lasting approximately 80 min. Each of the three test sessions involved the execution of ten attempts of BB free-throw shooting, HB three-step goal throwing, and VB underarm passing following a blocked order. In terms of short-term (pre–post) gain, only the DL group significantly improved their performance in both non-mastered disciplines (p = 0.03, ES = 1.58 for the BB free-throw and p = 0.05, ES = 0.9 for the HB shooting tests), with a trend (ES = 0.53) towards an improvement in the performance of the mastered VB underarm-pass skill. In terms of relatively permanent gains, the CI group significantly improved their performances from pre- to retention test only in the non-mastered BB free-throw skill (p = 0.018, ES = 1.17). In contrast, the DL group significantly improved their performance at retention compared to the pre-test in both non-mastered BB (p = 0.004, ES = 1.65) and HB (p = 0.003, ES = 2.15) skills, with a trend (ES = 0.4) towards improvement in the mastered VB test. In both the short-term and relatively long-term, higher composite score gains were observed in DL compared to CI (p = 0.006, ES = 1.11 and 0.049, ES = 1.01) and CO (p = 0.001, ES = 1.73 and

Published

2023

17. No Difference in the Acute Effects of Randomization vs. Blocking of Units of Lower-Extremity Proprioceptive Training on Balance and Postural Control in Young Healthy Male Adults.

Author

Ivusza, Patrik, Hortobágyi, Tibor, Sebesi, Balázs, Gáspár, Balázs, Fésüs, Ádám, Varga, Mátyás, Malmos, Vanessza, and Váczi, Márk

Subjects

YOUNG adults, VISUAL perception, DIFFERENTIAL forms, ADULTS, MALES

Abstract

Random practice is a form of differential learning and its favorable acute effects on motor performance are well described when visual tasks are practiced. However, no study to date has investigated the acute effects of differential learning using variable proprioceptive stimuli instead of the visual cues. The aim of the present study was to compare the acute effects of randomized versus blocked lower-extremity proprioceptive training stimuli on balance and postural adjustments. In two conditions, healthy young males (n = 15, age = 23 years) performed 16 one-legged landings on a board tilted in four directions: 1) tilt direction unknown and randomized and 2) tilt direction known with order of presentation blocked. Multi-segmental angular sway while balancing on an unstable surface and postural responses to perturbation stimulus by surface tilts were measured before and 4 min after training. Overall frontal-plane postural sway on the unstable surface decreased (p < 0.05, η2 = 0.022) in both conditions, while sagittal-plane postural sway remained unchanged. When the surface was toes-up tilted in the perturbation test, the sagittal-plane shank-thigh-pelvis alignment improved in both conditions (p < 0.05, η2 = 0.017), but the direction of the segmental positioning was non-uniform across participants. We conclude that randomization vs. blocking of units of lower-extremity proprioceptive training did not affect balance and postural control in our cohort of healthy young adults but the improvements were test-specific. [ABSTRACT FROM AUTHOR]

Published

2022

18. No Difference in the Acute Effects of Randomization vs. Blocking of Units of Lower-Extremity Proprioceptive Training on Balance and Postural Control in Young Healthy Male Adults

Author

Patrik Ivusza, Tibor Hortobágyi, Balázs Sebesi, Balázs Gáspár, Ádám Fésüs, Mátyás Varga, Vanessza Malmos, and Márk Váczi

Subjects

differential learning, unilateral landing, tilt surface, postural sway, postural adjustment, Physiology, QP1-981

Abstract

Random practice is a form of differential learning and its favorable acute effects on motor performance are well described when visual tasks are practiced. However, no study to date has investigated the acute effects of differential learning using variable proprioceptive stimuli instead of the visual cues. The aim of the present study was to compare the acute effects of randomized versus blocked lower-extremity proprioceptive training stimuli on balance and postural adjustments. In two conditions, healthy young males (n = 15, age = 23 years) performed 16 one-legged landings on a board tilted in four directions: 1) tilt direction unknown and randomized and 2) tilt direction known with order of presentation blocked. Multi-segmental angular sway while balancing on an unstable surface and postural responses to perturbation stimulus by surface tilts were measured before and 4 min after training. Overall frontal-plane postural sway on the unstable surface decreased (p < 0.05, η2 = 0.022) in both conditions, while sagittal-plane postural sway remained unchanged. When the surface was toes-up tilted in the perturbation test, the sagittal-plane shank-thigh-pelvis alignment improved in both conditions (p < 0.05, η2 = 0.017), but the direction of the segmental positioning was non-uniform across participants. We conclude that randomization vs. blocking of units of lower-extremity proprioceptive training did not affect balance and postural control in our cohort of healthy young adults but the improvements were test-specific.

Published

2022

19. Attention-aware differential learning for predicting peptide-MHC class I binding and T cell receptor recognition.

Author

Niu R, Wang J, Li Y, Zhou J, Guo Y, and Shang X

Subjects

Humans, Algorithms, Computational Biology methods, Machine Learning, Receptors, Antigen, T-Cell metabolism, Receptors, Antigen, T-Cell immunology, Histocompatibility Antigens Class I metabolism, Histocompatibility Antigens Class I immunology, Peptides metabolism, Peptides chemistry, Peptides immunology, Protein Binding

Abstract

The identification of neoantigens is crucial for advancing vaccines, diagnostics, and immunotherapies. Despite this importance, a fundamental question remains: how to model the presentation of neoantigens by major histocompatibility complex class I molecules and the recognition of the peptide-MHC-I (pMHC-I) complex by T cell receptors (TCRs). Accurate prediction of pMHC-I binding and TCR recognition remains a significant computational challenge in immunology due to intricate binding motifs and the long-tail distribution of known binding pairs in public databases. Here, we propose an attention-aware framework comprising TranspMHC for pMHC-I binding prediction and TransTCR for TCR-pMHC-I recognition prediction. Leveraging the attention mechanism, TranspMHC surpasses existing algorithms on independent datasets at both pan-specific and allele-specific levels. For TCR-pMHC-I recognition, TransTCR incorporates transfer learning and a differential learning strategy, demonstrating superior performance and enhanced generalization on independent datasets compared to existing methods. Furthermore, we identify key amino acids associated with binding motifs of peptides and TCRs that facilitate pMHC-I and TCR-pMHC-I binding, indicating the potential interpretability of our proposed framework., (© The Author(s) 2025. Published by Oxford University Press.)

Published

2024

20. Increasing Flexibility of Employees in Production Processes Using the Differential Learning Approach – Adaptation and Validation of Motor Learning Theories

Author

Weisner, Kirsten, Knittel, Marco, Jaitner, Thomas, Deuse, Jochen, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Nazir, Salman, editor, Teperi, Anna-Maria, editor, and Polak-Sopińska, Aleksandra, editor

Published

2019

21. تاثیر ترکیبی رویکرد آموزش افتراقی و دستورالعملهای توجهی بر خالقیت حرکتی.

Author

سارا افتاده, عباس بهرام, رسول یاعلی, and رهاد قدیری

Abstract

Copyright of Journal of Sport Psychology (2676-3729) is the property of Shahid Beheshti University 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

2022

22. Acute Effects of Various Movement Noise in Differential Learning of Rope Skipping on Brain and Heart Recovery Analyzed by Means of Multiscale Fuzzy Measure Entropy.

Author

John, Alexander Thomas, Barthel, Anna, Wind, Johanna, Rizzi, Nikolas, and Schöllhorn, Wolfgang Immanuel

Subjects

FUZZY measure theory, PARIETAL lobe, MOTOR learning, ENTROPY, ROPE, ANAEROBIC exercises, ENDURANCE sports

Abstract

In search of more detailed explanations for body-mind interactions in physical activity, neural and physiological effects, especially regarding more strenuous sports activities, increasingly attract interest. Little is known about the underlying manifold (neuro-)physiological impacts induced by different motor learning approaches. The various influences on brain or cardiac function are usually studied separately and modeled linearly. Limitations of these models have recently led to a rapidly growing application of nonlinear models. This study aimed to investigate the acute effects of various sequences of rope skipping on irregularity of the electrocardiography (ECG) and electroencephalography (EEG) signals as well as their interaction and whether these depend on different levels of active movement noise, within the framework of differential learning theory. Thirty-two males were randomly and equally distributed to one of four rope skipping conditions with similar cardiovascular but varying coordinative demand. ECG and EEG were measured simultaneously at rest before and immediately after rope skipping for 25 mins. Signal irregularity of ECG and EEG was calculated via the multiscale fuzzy measure entropy (MSFME). Statistically significant ECG and EEG brain area specific changes in MSFME were found with different pace of occurrence depending on the level of active movement noise of the particular rope skipping condition. Interaction analysis of ECG and EEG MSFME specifically revealed an involvement of the frontal, central, and parietal lobe in the interplay with the heart. In addition, the number of interaction effects indicated an inverted U-shaped trend presenting the interaction level of ECG and EEG MSFME dependent on the level of active movement noise. In summary, conducting rope skipping with varying degrees of movement variation appears to affect the irregularity of cardiac and brain signals and their interaction during the recovery phase differently. These findings provide enough incentives to foster further constructive nonlinear research in exercise-recovery relationship and to reconsider the philosophy of classical endurance training. [ABSTRACT FROM AUTHOR]

Published

2022

23. The effects of learning with various noise on Gait Kinematics in 3-to-5-year-old children: a randomized controlled trial.

Author

Ghorbani, Maryam, Yaali, Rasoul, Schöllhorn, Wolfgang I., Letafatkar, Amir, and Sadeghi, Hassan

Subjects

RANDOMIZED controlled trials, GAIT in humans, ANATOMICAL planes, ANKLE, KNEE, CONTACT sports, SQUAT (Weight lifting)

Abstract

Background: Lack of the neuromuscular control during locomotion in the knee joint leads to an increased risk of anterior cruciate ligament (ACL) injury in children. Hence, we aimed to explore the effects of a repetitive, model-oriented, and self-organized approach on lower limb kinematics during gait in children. Methods: In randomized controlled trial, 36 children with 4 ± 0.79 years of age from the children gym were randomly (a lottery method) allocated into three groups, including (1) the model-oriented (n = 10), (2) Differential Learning (n = 11), and (3) control (n = 10) groups. Kinematic data of hip, knee, and ankle joints in the sagittal plane were recorded by a GoPro camera at the moments of heel-ground contact and toe-off the ground before and after a 6-week intervention (two sessions per week). Results: The results indicate a 35% post-intervention increase of ankle dorsiflexion (95% CI: − 5.63 _ − 0.96) in the moment of heel-ground contact in the model-oriented group; however, knee flexion (95% CI: − 1.05 _ 8.34) and hip flexion (95% CI: 3.01 _ 11.78) were respectively decreased by 20% and 20%. After the intervention, moreover, ankle plantar flexion (95% CI: − 9.18 _ − 2.81) and hip extension (95% CI: − 12.87 _ − 3.72) have respectively increased by 37% and 37%, while knee flexion (95% CI: 3.49 _ 11.30) showed a %16 decrease in the moment of toe off the ground. As for the Differential Learning group, ankle dorsiflexion (95% CI: − 5.19 _ − 1.52) increased by 33%, and knee (95% CI: 0.60 _ 5.76) and hip flexion (95% CI: 2.15 _ 7.85) respectively decreased by 17% and 17% at the moment of the heel-ground contact following the intervention. At toe lifting off the ground, the plantar flexion (95% CI: − 7.77 _ − 2.77) increased by 35%, knee flexion (95% CI: 2.17 _ 7.27) decreased to 14%, and hip extension (95% CI: − 9.98 _ − 4.20) increased by %35 following the intervention for the Differential Learning group subjects. Based on the results obtained from the one-way ANOVA, there was a significant difference between these groups and the control group in all kinematic gait variables (p ≤ 0.05). However, no statistically significant differences were found between the two experimental groups. Conclusions: The results implied that the model-oriented repetitive and the self-organized Differential Learning approach were both appropriate to alter the kinematic gait pattern in the 3–5-year-old children. Previous research has almost exclusively recommended a model-oriented approach to change kinematic patterns and preventing non-contact motor injuries. However, the present study showed that the Differential Learning approach can help children to achieve the same goal by continuously changing environments and stimulating challenges. Trial registration: Current Controlled Trials using the IRCT website with ID number of, IRCT20130109012078N5 "Prospectively registered" at 14/5/2021. [ABSTRACT FROM AUTHOR]

Published

2022

24. Differential learning methods for solving fully nonlinear PDEs

Author

Lefebvre, William, Loeper, Grégoire, and Pham, Huyên

Published

2023

25. Null Effects of Different Amounts of Task Variation in Both Contextual Interference and Differential Learning Paradigms.

Author

Schmidt, Marcus, Kemena, Markus, and Jaitner, Thomas

Subjects

*COLLEGE students, *STATISTICS, *GOLF, *TASK performance, *PSYCHOLOGY of movement, *MANN Whitney U Test, *LEARNING strategies, *RANDOMIZED controlled trials, *PRE-tests & post-tests, *STATISTICAL sampling, *DATA analysis, *MOTOR ability

Abstract

Various motor learning approaches, such as Schema Theory, Contextual Interference or Differential Learning, have proposed that varying the task during skill acquisition prompts superior learning. However, past research has mainly compared task variation in an experimental group to no task variation in a control group. Past research has more rarely compared specific intervention groups and/or addressed how varying amounts of task variation may affect skill learning. Our aim in this study was to compare motor learning of golf putting across four groups of novice golfers randomly assigned to these conditions: (a) a contextual interference group who putted at varied putting distances and had varied repetitive weekly schedule patterns, (b) a differential learning group who putted at multiple putting distances, putting amplitudes, and putting movements and had no repetitions, (c) an identical differential learning as in (b) except that participants also varied the putter, and (d) a control group who experienced no practice variations. Participants were 42 university students randomly divided into the four groups. All groups completed eight training sessions of 36 putts per session over four weeks, a pretest, posttest, two retention tests (one and three weeks after posttest) and transfer tasks (different floor). Average hit ratios and minimal distances to the hole were captured and analyzed by Scheirer-Ray-Hare test and Mann-Whitney post-hoc tests. Results showed improved hit ratios from pre- to post-test for all groups, and a stable retention performance for the variable training groups in contrast to the control group (p =.003). Transfer performance was low for all variable training groups with a significantly lower control group performance on transfer test 2 (p =.008). In conclusion, variable training schedules in all experimental groups benefited motor learning relative to controls, and differences in the amount of task variation between groups with variable training schedules did not affect skill acquisition. [ABSTRACT FROM AUTHOR]

Published

2021

26. An Exploratory Meta-Analytic Review on the Empirical Evidence of Differential Learning as an Enhanced Motor Learning Method

Author

Bruno Tassignon, Jo Verschueren, Jean-Pierre Baeyens, Anne Benjaminse, Alli Gokeler, Ben Serrien, and Ron Clijsen

Subjects

meta-analysis, contextual interference, sports, variability, motor learning, differential learning, Psychology, BF1-990

Abstract

Background: Differential learning (DL) is a motor learning method characterized by high amounts of variability during practice and is claimed to provide the learner with a higher learning rate than other methods. However, some controversy surrounds DL theory, and to date, no overview exists that compares the effects of DL to other motor learning methods.Objective: To evaluate the effectiveness of DL in comparison to other motor learning methods in the acquisition and retention phase.Design: Systematic review and exploratory meta-analysis.Methods: PubMed (MEDLINE), Web of Science, and Google Scholar were searched until February 3, 2020. To be included, (1) studies had to be experiments where the DL group was compared to a control group engaged in a different motor learning method (lack of practice was not eligible), (2) studies had to describe the effects on one or more measures of performance in a skill or movement task, and (3) the study report had to be published as a full paper in a journal or as a book chapter.Results: Twenty-seven studies encompassing 31 experiments were included. Overall heterogeneity for the acquisition phase (post-pre; I2 = 77%) as well as for the retention phase (retention-pre; I2 = 79%) was large, and risk of bias was high. The meta-analysis showed an overall small effect size of 0.26 [0.10, 0.42] in the acquisition phase for participants in the DL group compared to other motor learning methods. In the retention phase, an overall medium effect size of 0.61 [0.30, 0.91] was observed for participants in the DL group compared to other motor learning methods.Discussion/Conclusion: Given the large amount of heterogeneity, limited number of studies, low sample sizes, low statistical power, possible publication bias, and high risk of bias in general, inferences about the effectiveness of DL would be premature. Even though DL shows potential to result in greater average improvements between pre- and post/retention test compared to non-variability-based motor learning methods, more high-quality research is needed before issuing such a statement. For robust comparisons on the relative effectiveness of DL to different variability-based motor learning methods, scarce and inconclusive evidence was found.

Published

2021

27. An Exploratory Meta-Analytic Review on the Empirical Evidence of Differential Learning as an Enhanced Motor Learning Method.

Author

Tassignon, Bruno, Verschueren, Jo, Baeyens, Jean-Pierre, Benjaminse, Anne, Gokeler, Alli, Serrien, Ben, and Clijsen, Ron

Subjects

MOTOR learning, PUBLICATION bias, STATISTICAL power analysis, SAMPLE size (Statistics), EVIDENCE

Abstract

Background: Differential learning (DL) is a motor learning method characterized by high amounts of variability during practice and is claimed to provide the learner with a higher learning rate than other methods. However, some controversy surrounds DL theory, and to date, no overview exists that compares the effects of DL to other motor learning methods. Objective: To evaluate the effectiveness of DL in comparison to other motor learning methods in the acquisition and retention phase. Design: Systematic review and exploratory meta-analysis. Methods: PubMed (MEDLINE), Web of Science, and Google Scholar were searched until February 3, 2020. To be included, (1) studies had to be experiments where the DL group was compared to a control group engaged in a different motor learning method (lack of practice was not eligible), (2) studies had to describe the effects on one or more measures of performance in a skill or movement task, and (3) the study report had to be published as a full paper in a journal or as a book chapter. Results: Twenty-seven studies encompassing 31 experiments were included. Overall heterogeneity for the acquisition phase (post-pre; I 2 = 77%) as well as for the retention phase (retention-pre; I 2 = 79%) was large, and risk of bias was high. The meta-analysis showed an overall small effect size of 0.26 [0.10, 0.42] in the acquisition phase for participants in the DL group compared to other motor learning methods. In the retention phase, an overall medium effect size of 0.61 [0.30, 0.91] was observed for participants in the DL group compared to other motor learning methods. Discussion/Conclusion: Given the large amount of heterogeneity, limited number of studies, low sample sizes, low statistical power, possible publication bias, and high risk of bias in general, inferences about the effectiveness of DL would be premature. Even though DL shows potential to result in greater average improvements between pre- and post/retention test compared to non-variability-based motor learning methods, more high-quality research is needed before issuing such a statement. For robust comparisons on the relative effectiveness of DL to different variability-based motor learning methods, scarce and inconclusive evidence was found. [ABSTRACT FROM AUTHOR]

Published

2021

28. Short-term effects of differential learning and contextual interference in a goalkeeper-like task: Visuomotor response time and motor control.

Author

Serrien, Ben, Tassignon, Bruno, Verschueren, Jo, Meeusen, Romain, and Baeyens, Jean-Pierre

Subjects

*ANALYSIS of variance, *ATHLETIC ability, *LEARNING strategies, *PSYCHOLOGY of movement, *STATISTICAL sampling, *VISUAL perception, *TASK performance, *PHYSICAL training & conditioning, *RANDOMIZED controlled trials, *PRE-tests & post-tests, *STATISTICAL models

Abstract

In this experiment, we compared changes in visuomotor performance and motor control after a single session of differential learning (DL) and contextual interference (CI) in a reaching task to mimic goalkeeping. Subjects (nDL = nCI = 16) stood in front of a wall with six LED-light targets that flashed on in a random order and subjects had to move their hand in front of it as fast as possible in order to extinguish the target. After the pre-test subjects followed a DL or CI training session, followed immediately by a post-test, followed by one hour of rest and a retention test. Performance and motor control were measured respectively by visuomotor response time (VMRT) and an Index of Motor Abundance (IMA; reflecting the strength of movement synergies) calculated with Uncontrolled Manifold analysis. A mixed-effects Bayesian ANOVA model was used to evaluate differences in changes in both parameters between both training groups. Averaged over the six targets, the decrease in VMRT was stronger for DL than CI at the post-test (interference effect) but not at retention. The IMA was on average increased at post- and retention test in both groups, indicating stronger synergies between the degrees-of-freedom. While the ANOVA for IMA was not conclusive, the changes were likely not different between both learning methods. Thus, while an interference effect was found for CI but not DL in terms of performance on the task, no such effect was observed on the behavioural level in terms of the strength of movement synergies. [ABSTRACT FROM AUTHOR]

Published

2020

29. The Revolution of Skill Acquisition in Sports: Comparing Linear and Non-Linear Pedagogical Methods to Teach Adolescents the Wide Receiver Stance and Start in American Football

Author

Nielsen, Frederik and Nielsen, Frederik

Abstract

In the last decade, the philosophy behind deliberate practice and traditional learning methods have received criticism for the limitations as a learning method. The purpose of this study was to compare the effects of linear and non-linear pedagogical methods for teaching the wide receiver stance and start to adolescents. Pre- and post-test of five-, 10- and 20-meter sprints from a wide receiver stance were conducted. Participants were randomly assigned to either a traditional learning (TL) group, or a differential learning (DL) group based on their age and previous experience playing wide receiver. The groups received two different interventions, one based on traditional corrective and instructive teaching, and the other based on the principles of differential learning. Three separate Repeated Measures ANOVA were used to analyze the data. Only the DL-group were shown to improve from pre- to post-test (for the five- and 20-meter distances). The TL-group showed no improvements from pre- to post-test. The results show the potential of DL as an alternative to traditional learning that has the potential to be a more effective method for teaching transferable motor skills. While Rate of Attendance was a significant covariate for 10-meters, the relationship to performance was inverted, and together with mostly null findings between Rate of Attendance and improvements seem to support the non-linearity of systems. It is suggested that non-linear pedagogy is a more suitable method than TL for different individuals regardless of their previous experiences or internal dynamics. Practical implications and recommendations for future research are discussed.

Published

2023

30. Ottimizzare l'esercizio terapeutico attraverso i principi dell'apprendimento motorio.

Author

Boccia, Gennaro

Abstract

Included among the components of current rehabilitation programs are combinations of exercise that aim to improve muscle strength and motor control. In many contexts, the patients must acquire, or re-acquire, motor skills so they can organize the motor responses necessary to limit the possibility of musculoskeletal damage. This article examines the principles of motor learning that can support clinical practice to improve patients' neuromuscular function. [ABSTRACT FROM AUTHOR]

Published

2019

31. Single gated RNN with differential weighted information storage mechanism and its application to machine RUL prediction.

Author

Xiang, Sheng, Li, Penghua, Huang, Yi, Luo, Jun, and Qin, Yi

Subjects

*REMAINING useful life, *MACHINE learning, *DEEP learning, *SIMPLE machines, *PREDICTION models

Abstract

• Several lightweight single gated RNNs are proposed with fewer parameters and better ability. • A differential weighted information storage mechanism (DWISM) is proposed. • A DL model for RUL prediction is constructed based on single gated RNNs and DWISM. • The superiority of the DL model is demonstrated based on actual gear tests and the C-MAPSS datasets. The full-life data of machine is complex and abundant, requiring specialized and deep predictive models for accurate forecasts. However, achieving high prediction accuracy often increases model complexity, hindering edge deployment. To address this, several lightweight regression operators named single gated recurrent neural networks have been first proposed, striking a balance between accuracy and simplicity, and exploring the contribution of different gates in RUL prediction. In addition, during the whole degeneration process of machines, there exists global tendency and local vibration, different trends should be learned differentially. Thus, a novel lightweight differential learning mechanism called differential weighted information storage mechanism is proposed, which adopts different weight updated rules to make the weights store different trend information without any parameters added. Based on the above improvement, several lightweight single gated recurrent neural networks with the differential weighted information storage mechanism are first proposed. Then, deep learning frameworks are constructed by the proposed operators and adopted in gears and aero-engines RUL prediction. The experiment results show the outperformance of the proposed methods in accuracy and computation burden compared with recent works. [ABSTRACT FROM AUTHOR]

Published

2024

32. The effect of Taekwondo training applied with differential learning approach on the technical skills

Author

Sinan Bozkurt, Tuğçe Yeşilçimen, and Bozkurt S., Yeşilçimen T.

Subjects

Eğitim, Social Sciences and Humanities, Social Sciences (SOC), Taekwondo, Sosyal Bilimler ve Beşeri Bilimler, SOCIAL SCIENCES, GENERAL, EDUCATION & EDUCATIONAL RESEARCH, enfoque de aprendizaje no lineal, Education, habilidades técnicas, Aprendizaje diferencial, Enfoque de aprendizaje no lineal, Training, Sosyal ve Beşeri Bilimler, Differential learning, Social Sciences & Humanities, Physical Education and Sports, EDUCATION, SCIENTIFIC DISCIPLINES, technical skills, training, Beden Eğitimi ve Spor, EĞİTİM, BİLİMSEL DİSİPLİNLER, Entrenamiento, entrenamiento, EĞİTİM VE EĞİTİM ARAŞTIRMASI, General Medicine, Antrenörlük, Sosyal Bilimler Genel, Coaching, Habilidades técnicas, taekwondo, Technical skill, Non-linear learning approach, non-linear learning approach, Sosyal Bilimler (SOC), de aprendizaje diferencial

Abstract

[Abstract] Alongside the fact that the classical learning method has been used for many years in the area of sports such as tae-kwon-do, there have been searches and attempts for unconventional approaches to teaching. One of these is the differential learning approach, it is important the repetitions vary in the differential learning approach and that the attention is given to the basis of the technique rather than the perfect execution of the move. Examining the literature, no study has been found which investigates the outcomes of the taekwondo training program applied with a differential learning approach despite the fact that other branches have supported the positive contribution of the differential learning approach in the literature. The aim of this research is to examine the effect of differential learning on the technical skill development of male and female taekwondo players with red-black belts in the 12-14 age group. A total of 16 taekwondo players, who have a red-black belt in the 12-14 age group star category and have a license of at least three years, participated in the research. In this quantitative research, the pre-test and post-test study group models (within quasi-experimental design) was used. Wilcoxon Test was used to examine the pre-test and post-test between the test values of taekwondo players. When the findings were examined, the differential learning approach has a positive effect on the technical skill development of the female and male taekwondo athletes. [Resumen] Junto al hecho de que el método de aprendizaje clásico se ha utilizado durante muchos años en el ámbito de deportes como el taekwondo, ha habido búsquedas e intentos de enfoques de enseñanza no convencionales. Uno de ellos es el enfoque de aprendizaje diferencial. En el enfoque de aprendizaje diferencial es importante que las repeticiones varíen y que se preste atención a la base de la técnica más que a la ejecución perfecta del movimiento. Examinando la literatura, no se ha encontrado ningún estudio que investigue los resultados del programa de entrenamiento de taekwondo aplicado con un enfoque de aprendizaje diferencial, a pesar de que la contribución positiva del enfoque de aprendizaje diferencial en la literatura ha sido apoyada por otras ramas. El propósito del estudio fue investigar el efecto del entrenamiento de taekwondo aplicado con un enfoque de aprendizaje diferencial sobre las habilidades técnicas de los taekwondistas de categoría estrella de 12-14 años. Participaron en la investigación un total de 16 taekwondistas con cinturón rojo-negro de la categoría estrella de 12-14 años y con una licencia de al menos 3 años. En esta investigación cuantitativa, se utilizó un método de investigación semi experimental sobre el terreno con un grupo de estudio que incluía los modelos pre-test y post-test. La Prueba de Wilcoxon se utilizó para examinar las diferencias entre la prueba previa y posterior los valores de prueba los jugadores de taekwondo.Cuando se examinaron los hallazgos, se ha determinado que el enfoque de aprendizaje diferencial tiene un efecto positivo en el desarrollo de las habilidades técnicas de los atletas de taekwondo.

Published

2023

33. Can We Afford Theories of Learning?

Author

McDermott, Ray and Koschmann, Timothy, editor

Published

2011

34. Improving Dynamic Difficulty Adjustment to Enhance Player Experience in Games

Author

Joy James Prabhu, A., Das, Vinu V, editor, and Vijaykumar, R., editor

Published

2010

35. Differential Learning: A Powerful Tool for Interactive Content-Based Image Retrieval.

Author

Qinghe Zheng, Xinyu Tian, Mingqiang Yang, and Hongjun Wang

Subjects

*BIG data, *IMAGE retrieval, *DEEP learning, *MACHINE learning, *IMAGE registration

Abstract

Faced with the huge image data in the context of big data era, how to effectively manage, describe, and retrieve them has become a hotspot issue in academia and industry. In this paper, we propose an end-to-end image retrieval system based on deep convolutional neural network and differential learning method. Compared with the traditional method of using the deep convolutional activation features as the feature vector to match the image, we simplify the retrieval process of the method and decrease the problem of "semantic gap" in the content- based image retrieval system. We first build an image matching dataset based on the gravitational field model, that is to add the similarity score label for each image in the dataset manufacturing stage. Then we train the improved deep learning model and verify the effectiveness of the algorithm on three common image matching datasets (i.e., Caltech-101, Holidays, and Oxford Paris). Finally, the experimental results show that our improved deep learning model with differential learning method that used for image retrieval system has state-of-the-art image matching performance. The overall retrieval accuracy in Caltech-101, Holidays, and Oxford Paris datasets are 88.5%, 94.1%, and 96.2%, respectively. As the number of returned image increases, the retrieval accuracy of the system decreases slightly and eventually becomes stable at a high value. And the differential learning based retrieval method is superior to many traditional algorithms in terms of image matching accuracy and single image processing speed. [ABSTRACT FROM AUTHOR]

Published

2019

36. Training Methods to Improve Sports Performance and Health.

Author

Gonçalves, Bruno, Bravo, Jorge, Folgado, Hugo, and Gonçalves, Bruno

Subjects

Research & information: general, OPTIMAL theory, aerobic, anaerobic capacity, artistic swimming, badminton, bilateral asymmetry, blood flow occlusion, cardiac rehabilitation, cardiorespiratory fitness, change-of-direction, complex performance diagnostic, constraints led approach, differential learning, ecological dynamics, exercise ball, exercise therapy, external focus, fatigue resistance, fluctuations, football training, functional tests, futsal, game principles, heart diseases, high-intensity intermittent exercise, high-intensity interval training, indicators, indices, instability, interval training, isometric strength, jumping, morphofunctional, motor learning, multiple techniques, muscle balance, muscle power, non-linear pedagogy, overhand pass, overhand service, performance, practice design, prediction of performance outcomes, prognosis, repeated sprint, resistance training, rugby union, selective factors, shoulder rotators, skill acquisition, sport pedagogy, sprinting, success, suspension training, swimming, talent identification, team sports, technical-tactical training, testing, training intervention, training tasks, underhand pass, volleyball

Abstract

Summary: There are several types of training methods aiming to develop sports performance and improve health indicators. Fundamentally, training methods are the result of manipulating different training variables, and the possibility of combining these variables is vast. Therefore, the search to study the effect of these constraints on sports and health, considering specific contexts and taking into account the magnitude of inter-individual responses, will afford a better understanding of the training interventions.At the same time, over the years, numerous innovations and technological advances have been introduced to assist the development of athletes' performance and monitor individual lifestyles. These advances have changed how training may be conducted, controlled, and evaluated. For example, in sport settings, using technology to collect many and continuous data of athletes' activity in their natural environments appears as an innovative and promising step. In health, an enormous diversity of training methods supporting healthy lifestyles and innovative approaches is arising, especially from higher-quality information gathered through technological development.Papers addressing these topics are included in this book, especially those combining a high academic standard with a practical focus on providing knowledge on how training methods improve sports performance and health across people's lifespans. New evidence urges us to track the progress and effects of training methods.

37. A bio-geography-based algorithm for optimal siting and sizing of distributed generators with an effective power factor model.

Author

Ravindran, S. and Victoire, T. Aruldoss Albert

Subjects

*BIOLOGICALLY inspired computing, *DIFFERENTIAL evolution, *EXAMPLE

Abstract

Abstract In this paper, a bio-geography-based optimization techniqueis proposed for optimal sizing and placement of multiple distributed generators to reduce system loss and to improve system voltage profiles in electric distribution systems. Distributed generation paves the way for installing generating sources in the vicinity of the loads, for improving the power factor of the system, and thereby significantly reducing total system losses. An effective power factor model is proposed to pre-set the power factor of each distributed generator placed at various locations in a distribution system. The bio-geography optimization algorithm is enhanced with a differential learning scheme to deal with the problems of high dimensionality and complex constraints. A sensitivity factor approach is presented to reduce the search space for the placement of distributed generators in the system. Numerical simulations are performed on the IEEE 33-bus and IEEE 69-bus systems and the results of the proposed method are compared with other methods reported in the literature. [ABSTRACT FROM AUTHOR]

Published

2018

38. Teaching-learning-based optimization with differential and repulsion learning for global optimization and nonlinear modeling.

Author

Zou, Feng, Chen, Debao, Lu, Renquan, Li, Suwen, and Wu, Lehui

Subjects

*MACHINE learning, *DIFFERENTIAL evolution, *GLOBAL optimization, *GENETIC algorithms, *NONLINEAR statistical models

Abstract

Teaching-learning-based optimization (TLBO) algorithm is one of the recently proposed optimization algorithms. It has been successfully used for solving optimization problems in continuous spaces. To improve the optimization performance of the TLBO algorithm, a modified TLBO algorithm with differential and repulsion learning (DRLTLBO) is presented in this paper. In the proposed algorithm, the differential evolution (DE) operators are introduced into the teacher phase of DRLTLBO to increase the diversity of the new population. In the learner phase of DRLLBO, local learning method or repulsion learning method are adopted according to a certain probability to make learners search knowledge from different directions. In the local learning method, learners learn knowledge not only from the best learner but also from another random learner of their neighbors. In the repulsion learning method, learners learn knowledge from the best learner and keep away from the worst learner of their neighbors. Moreover, self-learning method is adopted to improve the exploitation ability of learners when they are not changed in some continuous generations. To decrease the blindness of random self-learning method, the history information of the corresponding learners in some continuous generations is used in self-learning phase. Furthermore, all learners are regrouped after a certain iterations to improve the local diversity of the learners. In the end, DRLTLBO is tested on 32 benchmark functions with different characteristics and two typical nonlinear modeling problems, and the comparison results show that the proposed DRLTLBO algorithm has shown interesting outcomes in some aspects. [ABSTRACT FROM AUTHOR]

Published

2018

39. Integrating Computational Thinking in STEM Education: A Literature Review

Author

Jie Chao, Ji Shen, and Changzhao Wang

Subjects

Game design, Operationalization, Empirical research, Differential learning, Computer science, General Mathematics, Computational thinking, Equity (finance), Mathematics education, Science education, Field (computer science), Education

Abstract

Research focusing on the integration of computational thinking (CT) into science, technology, engineering, and mathematics (STEM) education started to emerge. We conducted a semi-systematic literature review on 55 empirical studies on this topic. Our findings include: (a) the majority of the studies adopted domain-general definitions of CT and a few proposed domain-specific CT definitions in STEM education; (b) the most popular instructional model was problem-based instruction, and the most popular topic contexts included game design, robotics, and computational modelling; (c) while the assessments of student learning in integrated CT and STEM education targeted different objectives with different formats, about a third of them assessed integrated CT and STEM; (d) about a quarter of the studies reported differential learning processes and outcomes between groups, but very few of them investigated how pedagogical design could improve equity. Based on the findings, suggestions for future research and practice in this field are discussed in terms of operationalizing and assessing CT in STEM contexts, instructional strategies for integrating CT in STEM, and research for broadening participation in integrated CT and STEM education.

Published

2021

40. Selected confidence sample labeling for domain adaptation.

Author

Zheng, Zefeng, Teng, Shaohua, Wu, Naiqi, Teng, Luyao, Zhang, Wei, and Fei, Lunke

Subjects

*CONFIDENCE, *KNOWLEDGE transfer, *STIMULUS generalization

Abstract

Unsupervised Domain adaptation (UDA) aims to transfer knowledge from the labeled source domain to the unlabeled target domain. Recently, to achieve reliable knowledge learning, progressively labeling (PL) is proposed to select reliable target samples for training. Although PL achieves fruitful results, there are two problems that limit its performance: (a) PL may neglect to filter out the uncertain samples that lie in the classification boundaries, which might select low-quality target samples for training, and lead to error accumulations; and (b) PL might overlook the consistent selection in the sample selection stage during iteration, which might result in unstable sample selection. To cope with these problems, we propose a novel method called Selected Confidence Sample Labeling (SCSL). SCSL consists of three parts: Discriminative Progressively Labeling (DPL), Consistency Strategy (CS), and Differential Learning (DL). First, DPL selects the high-confidence target samples with the maximum probability difference between the highest and the second-highest probabilities of classification. In this way, the uncertain samples are filtered out, while the qualities of the selected target samples are ensured. Second, CS includes a group of consistency strategies to make the selected high-confidence target samples near to the class-centroids. This further improves the confidence degree of the selected target samples, and ensures that the proposed model does not remove or replace the selected target samples during iteration. At last, DL is a bi-strategic training approach that applies CS and top- k fuzzy probability clustering to train the high-confidence and the remaining target samples, respectively. In doing so, all the target samples are trained simultaneously, and the generalization of the model is improved. Extensive experiments on four benchmark datasets with the comparison of several advanced algorithms demonstrate the superiority of SCSL. [ABSTRACT FROM AUTHOR]

Published

2023

41. Post-task Effects on EEG Brain Activity Differ for Various Differential Learning and Contextual Interference Protocols

Author

Diana Henz, Alexander John, Christian Merz, and Wolfgang I. Schöllhorn

Subjects

EEG, motor learning, differential learning, contextual interference, repetitive learning, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

A large body of research has shown superior learning rates in variable practice compared to repetitive practice. More specifically, this has been demonstrated in the contextual interference (CI) and in the differential learning (DL) approach that are both representatives of variable practice. Behavioral studies have indicate different learning processes in CI and DL. Aim of the present study was to examine immediate post-task effects on electroencephalographic (EEG) brain activation patterns after CI and DL protocols that reveal underlying neural processes at the early stage of motor consolidation. Additionally, we tested two DL protocols (gradual DL, chaotic DL) to examine the effect of different degrees of stochastic fluctuations within the DL approach with a low degree of fluctuations in gradual DL and a high degree of fluctuations in chaotic DL. Twenty-two subjects performed badminton serves according to three variable practice protocols (CI, gradual DL, chaotic DL), and a repetitive learning protocol in a within-subjects design. Spontaneous EEG activity was measured before, and immediately after each 20-min practice session from 19 electrodes. Results showed distinguishable neural processes after CI, DL, and repetitive learning. Increases in EEG theta and alpha power were obtained in somatosensory regions (electrodes P3, P7, Pz, P4, P8) in both DL conditions compared to CI, and repetitive learning. Increases in theta and alpha activity in motor areas (electrodes C3, Cz, C4) were found after chaotic DL compared to gradual DL, and CI. Anterior areas (electrodes F3, F7, Fz, F4, F8) showed increased activity in the beta and gamma bands after CI. Alpha activity was increased in occipital areas (electrodes O1, O2) after repetitive learning. Post-task EEG brain activation patterns suggest that DL stimulates the somatosensory and motor system, and engages more regions of the cortex than repetitive learning due to a tighter stimulation of the motor and somatosensory system during DL practice. CI seems to activate specifically executively controlled processing in anterior brain areas. We discuss the obtained patterns of post-training EEG traces as evidence for different underlying neural processes in CI, DL, and repetitive learning at the early stage of motor learning.

Published

2018

42. Cognitive Enhancement through Differential Rope Skipping after Math Lesson

Author

Johannes Burdack and Wolfgang Schoellhorn

Subjects

Health, Toxicology and Mutagenesis, differential learning, arithmetic, math, cognitive learning, physical activity, adolescents, rope skipping, Public Health, Environmental and Occupational Health

Abstract

Numerous studies have shown cognitive enhancement through sport and physical exercise. Despite the variety of studies, the extent to which physical activity before or after a cognitive learning session leads to more effective cognitive enhancement remains largely unresolved. Moreover, little attention has been paid to the dependence of the motor learning approach then applied. In this study, we compare the influence of differential with uniformly rope skipping directly succeeding an acquisition phase in arithmetic mathematics. For three weeks 26 pupils, 14 female, 12 male, and 13.9 ± 0.7 years old, completed nine 15 min exercises in arithmetic math, each followed by 3 min rope skipping with heart rate measurement. Arithmetic performance was tested in a pre-, post- and retention test design. The results showed a statistically significant difference between the differential and the control groups within the development of arithmetic performance, especially in the retention test. There was no statistical difference in heart rate. It is suggested that the results provide evidence for sustainable improvements of cognitive learning performance by means of highly variable rope skipping.

Published

2022

43. Investigating the Effects of Differential Learning on Golfers’ Pitching Performance as a Function of Handicap

Author

Miguel Valença, Diogo Coutinho, Wolfgang Schöllhorn, Nélson Ribeiro, and Sara Santos

Subjects

Minerals, Adolescent, 796 Sport, Movement, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Golf, Humans, Learning, differential learning, handicap, movement variability, club speed, carry distance, TrackMan 4, Adaptation, Physiological, 796 Athletic and outdoor sports and games, Sports

Abstract

Traditionally, golf instruction has been oriented toward imitation of role models, guided by errors that surround a channel of supposedly correct repetition. Recent motor learning approaches relying on the dynamics of living systems suggest the inclusion of additional noise during practice for supporting players’ movement exploration and improving adaptability that in consequence will lead to increased performance. While the effectiveness of this approach has now been demonstrated in many sports, research exploring the effects of differential learning (DL) in golf is scarce, especially when considering different shot distances and players with various handicap levels. Therefore, the purpose of this study was to compare the effects of an enriched learning and information intervention as opposed to a more constrained approach, on the pitching performance of golfers with different handicaps from different distances. A total of 29 adolescent golfers with an average experience of 7.8 years were divided into a DL (n = 15) and a repetitive-oriented (RB, n = 14) group. Both groups were further compared dependent on their handicap level (DL, low handicap n = 7, high handicap n = 8; RB, low handicap n = 5, high handicap n = 9). The TrackMan 4 was used to measure the shot performance for 20 m, 35 m, and 50 m distances (10 shots from each distance) based on a pre- and post-test design. Each group performed the same number of trials (n = 270, 9 executions per distance per session) across 10 sessions. Analysis of covariance (ANCOVA) was used for the statistical analysis, using the pre-test as covariate and the post-test as dependent variable. The DL group revealed advantageous adaptations in the attack and face angle (p ≤ 0.05), while also in the dynamic loft (p ≤ 0.05), mostly for the 35 m and 50 m. In addition, this intervention led to improvements in the score, club head speed, and carry distance for the 50 m when compared to the RB (p ≤ 0.05; small effects). The low handicap players from the DL group also revealed adaptation in the angles’ variables (p ≤ 0.05) when compared with high handicap players, who improved the score (p ≤ 0.05) in all distances after intervention. The low handicap players from the RB group improved the score (p ≤ 0.05) and club speed (p ≤ 0.05) for the 20 and 35 m, while the high handicap golfers revealed higher improvements for these variables only in the 50 m distance condition. Overall, coaches may incorporate approaches into their skill training that increase the number of opportunities to improve the performance of both experienced and non-experienced players by promoting the adaptability of movement patterns.

Published

2022

44. Differential learning by native versus invasive predators to avoid distasteful cleaning mutualists

Author

Lillian J. Tuttle, Allison L. Stringer, and Robert W. Lamb

Subjects

Phenotypic plasticity, Ecology, Differential learning, Biology, Ecology, Evolution, Behavior and Systematics, Invasive species, Predation

Published

2021

45. The Impact of Differential Learning Model on Motor Skills and Handball-Specific Coordination Performance in 11-13-Year-Old Beginners in Handball

Author

ÇAKIT, İsmail, ÇAMLIGÜNEY, Filiz, and ERDİL, Güven

Subjects

Spor Bilimleri, Farklılıkla Öğrenme, Motor Beceri, Çeviklik, Hentbola Özgü Koordinasyon, Differential Learning, Motor Skills, Agility, Handball Specific Coordination, Sport Sciences

Abstract

Amaç: Hentbolda becerinin gelişimi performansın artması demektir. Sporda geleneksel (klasik) ve farklılıkla öğrenme olarak iki öğrenme yöntemi bulunmaktadır. Çalışmamızın amacı 11-13 yaş aralığındaki spora yeni başlayan hentbol sporcularında farklılıkla öğrenme yöntemiyle yapılan pliometrik antrenmanların, çeviklik ve hentbola özgü koordinasyon becerilerine etkisini belirlemektir.Materyal ve Metot: Bu çalışmaya İstanbul ve Adana illerinden 11-13 yaş aralığında, spora yeni başlayan 44 erkek ortaokul öğrencisi gönüllü olarak katılmıştır. Her biri 22 öğrenciden oluşan iki grup, klasik eğitim grubu ve farklılıkla öğrenme grubu olarak rastgele seçilmiştir. Tüm gruplara 4 hafta boyunca adaptasyon eğitimi olarak hentbol eğitimi uygulanmıştır. Antrenmanlar 12 hafta boyunca haftada dört gün 1.5 saat olarak gerçekleştirilmiştir. Antrenmanlar başlamadan önce ön testler, 12 hafta sonunda ise son testler uygulanmıştır. Çalışmada motor beceri çeviklik testleri olarak T-test, zikzak koşu, engel testleri; hentbol koordinasyon becerileri için ise hentbol slalom top sürme, duvara hızlı pas, el topu fırlatma pas testleri uygulanmıştır.Bulgular: Farklılıkla öğrenme grubu (T-testi, zig-zag koşu, engel, hentbol slalom top sürme, duvara hızlı pas, eltopu pas atma testleri) klasik eğitim grubu sonuçlarına göre istatistiksel olarak anlamlı fark vardır (p, Aim: Improvement of skills in handball means an increase in performance. There are two main learning methods in sport: traditional (classical) and differential learning. The aim of our study was to determine the effect of plyometric training with differential learning method on agility and handball-specific coordination skills in 11-13-year-old handball athletes who are new to the sport.Methods: In this study, 44 male secondary school students aged 11-13 years from Istanbul and Adana provinces, who were new to sports, volunteered to take part in this study. Two groups of 22 students each were randomly selected as classical training group and differential learning group. All groups were given handball training for adaptation training for 4 weeks. The training sessions were conducted four days a week for 1.5 hours for 12 weeks. Pre-tests were applied before the training period started, and post-tests were applied at the end of 12 weeks. In the study, T-test, zigzag running, obstacle tests as motor skill agility tests; For handball coordination skills, handball slalom dribbling, wall quick pass, hand wall toss pass tests were applied.Results: Differential learning group (T-test, zig-zag running, obstacle, handball slalom dribbling, wall quick pass, hand wall toss pass tests) were statistically significant compared to the results of the classical training group (p

Published

2022

46. Post-task Effects on EEG Brain Activity Differ for Various Differential Learning and Contextual Interference Protocols.

Author

Henz, Diana, John, Alexander, Merz, Christian, and Schöllhorn, Wolfgang I.

Subjects

LEARNING, BEHAVIORAL assessment, ELECTROENCEPHALOGRAPHY, ELECTRODES, GAMMA rays, SOMATOSENSORY cortex

Abstract

A large body of research has shown superior learning rates in variable practice compared to repetitive practice. More specifically, this has been demonstrated in the contextual interference (CI) and in the differential learning (DL) approach that are both representatives of variable practice. Behavioral studies have indicate different learning processes in CI and DL. Aim of the present study was to examine immediate post-task effects on electroencephalographic (EEG) brain activation patterns after CI and DL protocols that reveal underlying neural processes at the early stage of motor consolidation. Additionally, we tested two DL protocols (gradual DL, chaotic DL) to examine the effect of different degrees of stochastic fluctuations within the DL approach with a low degree of fluctuations in gradual DL and a high degree of fluctuations in chaotic DL. Twenty-two subjects performed badminton serves according to three variable practice protocols (CI, gradual DL, chaotic DL), and a repetitive learning protocol in a within-subjects design. Spontaneous EEG activity was measured before, and immediately after each 20-min practice session from 19 electrodes. Results showed distinguishable neural processes after CI, DL, and repetitive learning. Increases in EEG theta and alpha power were obtained in somatosensory regions (electrodes P3, P7, Pz, P4, P8) in both DL conditions compared to CI, and repetitive learning. Increases in theta and alpha activity in motor areas (electrodes C3, Cz, C4) were found after chaotic DL compared to gradual DL, and CI. Anterior areas (electrodes F3, F7, Fz, F4, F8) showed increased activity in the beta and gamma bands after CI. Alpha activity was increased in occipital areas (electrodes O1, O2) after repetitive learning. Post-task EEG brain activation patterns suggest that DL stimulates the somatosensory and motor system, and engages more regions of the cortex than repetitive learning due to a tighter stimulation of the motor and somatosensory system during DL practice. CI seems to activate specifically executively controlled processing in anterior brain areas. We discuss the obtained patterns of post-training EEG traces as evidence for different underlying neural processes in CI, DL, and repetitive learning at the early stage of motor learning. [ABSTRACT FROM AUTHOR]

Published

2018

47. The effect of differential learning method on the international tennis number level among young tennis player candidates

Author

Ali Kızılet, Tuba Bozdoğan, and Yahya Yıldırım

Subjects

medicine.medical_specialty, Traditional learning, Teaching method, education, 05 social sciences, Significant difference, 050301 education, Training methods, Education, Test (assessment), Physical education, Differential learning, Expert opinion, Physical therapy, medicine, 0501 psychology and cognitive sciences, Psychology, 0503 education, 050104 developmental & child psychology

Abstract

The objective of the study is to assess the effects of Differential Learning (DL) approach on learning the tennis stroke techniques, retention of skills, and improving the mobility time of young tennis player candidates in comparison with the traditional teaching methods and, accordingly, to present the teaching methods that are suitable for a more effective development in tennis education. It is thought to be one of few studies on tennis education and determining the retention, although there are studies on DL. Twenty-four (12 girls-12 boys) volunteers doing high school-level tennis courses in A°stanbul province were involved in this study (15.00±0.00 years, 1.65±0.06 m, 63.46±10.64 kg and body mass index 23.26±2.91 kg/m2). One of the groups was named DL group, whereas the other group was named control group (6 girls and 6 boys in each). In both groups, 90-min trainings (three days/week) were performed for 10 weeks. In the present study, the International Tennis Number (ITN) test was used in determining the ITN scores and mobility times. The mobility test of ITN was modified using the Fitlight TrainerTM device according to the expert opinion. According to the results of the study, it was determined that, while the DL method is more effective than traditional training methods in learning tennis strokes and retention of learning, no statistically significant difference was observed in mobility time for both groups. Key words: Differential learning, traditional learning, tennis skill, mobility.

Published

2020

48. Associations between bilingualism and memory generalization during infancy: Does socioeconomic status matter?

Author

Ana Leon-Santos, William P. Fifer, Ashley Greaves, Natalie H. Brito, and Kimberly G. Noble

Subjects

Cued recall, Linguistics and Language, Working memory, media_common.quotation_subject, 05 social sciences, Article, 050105 experimental psychology, Language and Linguistics, Education, Developmental psychology, 03 medical and health sciences, 0302 clinical medicine, Differential learning, Generalization (learning), 0501 psychology and cognitive sciences, Psychology, Socioeconomic status, Neuroscience of multilingualism, 030217 neurology & neurosurgery, Diversity (politics), media_common

Abstract

Past studies have reported memory differences between monolingual and bilingual infants (Brito & Barr, 2012; Singh, Fu, Rahman, Hameed, Sanmugam, Agarwal, Jiang, Chong, Meaney & Rifkin-Graboi, 2015). A common critique within the bilingualism literature is the absence of socioeconomic indicators and/or a lack of socioeconomic diversity among participants. Previous research has demonstrated robust bilingual differences in memory generalization from 6- to 24-months of age. The goal of the current study was to examine if these findings would replicate in a sample of 18-month-old monolingual and bilingual infants from a range of socioeconomic backgrounds (N = 92). Results indicate no differences between language groups on working memory or cued recall, but significant differences for memory generalization, with bilingual infants outperforming monolingual infants regardless of socioeconomic status (SES). These findings replicate and extend results from past studies (Brito & Barr, 2012; Brito, Sebastián-Gallés & Barr, 2015) and suggest possible differential learning patterns dependent on linguistic experience.

Published

2020

49. Always pay attention to which model of motor learning you are using

Author

Nikolas Rizzi, Wolfgang Schoellhorn, Agne Slapsinskaite-Dackeviciene, and Nuno Leite

Subjects

methodical game series, contextual interference, pragmatism, 796 Sport, Movement, Health, Toxicology and Mutagenesis, repetitive learning, replication crisis, Public Health, Environmental and Occupational Health, Review, discovery learning, 796 Athletic and outdoor sports and games, methodical series of exercise, differential learning, Humans, Learning, Medicine, motor learning, variability of practice

Abstract

This critical review considers the epistemological and historical background of the theoretical construct of motor learning for a more differentiated understanding. More than simply reflecting critically on the models that are used to solve problems—whether they are applied in therapy, physical education, or training practice—this review seeks to respond constructively to the recent discussion caused by the replication crisis in life sciences. To this end, an in-depth review of contemporary motor learning approaches is provided, with a pragmatism-oriented clarification of the researcher’s intentions on fundamentals (what?), subjects (for whom?), time intervals (when?), and purpose (for what?). The complexity in which the processes of movement acquisition, learning, and refinement take place removes their predictable and linear character and therefore, from an applied point of view, invites a great deal of caution when trying to make generalization claims. Particularly when we attempt to understand and study these phenomena in unpredictable and dynamic contexts, it is recommended that scientists and practitioners seek to better understand the central role that the individual and their situatedness plays in the system. In this way, we will be closer to making a meaningful and authentic contribution to the advancement of knowledge, and not merely for the sake of renaming inventions.

Published

2022

50. The myth of contextual interference learning benefit in sports practice: A systematic review and meta-analysis.

Author

Ammar, Achraf, Trabelsi, Khaled, Boujelbane, Mohamed Ali, Boukhris, Omar, Glenn, Jordan M., Chtourou, Hamdi, and Schöllhorn, Wolfgang I.

Subjects

PRACTICE (Sports), CONTEXTUAL learning, MOTOR learning, GROSS motor ability, MYTH

Abstract

The contextual interference (CI) model hypothesizes random practice (high CI) leads to inferior acquisition, but superior retention and transfer capabilities compared to blocked practice (low CI). These phenomena are well established in laboratory settings. However, the transfer to applied settings, particularly in sports practice is still under discussion. The aim of this systematic review and meta-analysis is to evaluate the possible generalisability of the CI phenomenon in sports-based contexts with regard to performance outcomes. Up to April 16th, 2022, five electronic databases (PubMed, Web of Science, Scopus, Taylor & Francis, and SciELO) were used to search for relevant studies investigating differences between blocked and random schedules at post-acquisition, retention, and/or transfer tests. Using the PICOS criteria, a total of 933 records were screened. Outcomes evaluating the acquisition, retention, and/or transfer performances in sports skills in healthy participants were included. The quality of the selected studies was scored using the PEDro scale. Thirty-seven studies were selected, of which twenty-seven were of good quality and the remaining ten were rated as fair quality. Out of 205 overall pooled outcomes, only 43 performance outcomes (21%) agreed with the CI phenomenon after the acquisition (18 out of 103), retention (19 out of 84), and/or transfer (6 out of 36) phases. No statistically significant overall difference between blocked and random practice was detected at post-acquisition (effect size (ES) = 0.1, p = 0.154), retention (ES = −0.159, p = 0.141) or transfer testing (ES = −0.243, p = 0.071). The subgroup analysis showed inferior acquisition and superior retention following random practice only in individuals aged 20–24 years (ES = 0.282, p = 0.030 during the acquisition, and ES = −0.405, p = 0.011 during retention), with no difference at transfer testing for this specific age group. No similar significant effects have been concurrently identified during both acquisition and retention phases in any of the remaining subgroups (e.g., examined based on experience level, sports, skills, and testing protocol categories). The present results suggest CI effects can only be confirmed under very limited conditions, which seriously challenges the extension of CI effects to the sport context in general. Problematic conclusions for children's learning are discussed, as well as future research strategies to better understand counterintuitive learning approaches. • Meta-Analysis found no evidence to support contextual interference effects in sports settings. • Overall performances at acquisition, retention, and transfer tests were not affected by the practice schedules. • Subgroup analysis revealed constrained conditions for corroborating contextual interference effects. • Comparing more variability-based learning perspectives is crucial for identifying optimal strategies in sports. • Comparative research should ensure an equivalent baseline and maximize design sensitivity and validity. [ABSTRACT FROM AUTHOR]

Published

2023