Paul Perkins scite author profile

Two prototype pneumatic boxing gloves of different design were compared against conventional 10 oz (Std 10 oz) and 16 oz (Std 16 oz) gloves in terms of ability to reduce impact forces delivered to a target. One of the pneumatic gloves (SBLI) contained a sealed air bladder inflated to a pressure of 2 kPa. The other (ARLI) incorporated a bladder that allowed release of air to the external environment upon contact with a target, followed by rapid air reuptake. Each glove was placed on to a mechanical fist and dropped 10 times on to an in-floor force plate from each of nine heights ranging from 1.0 to 5.0 metres, with the 5-metre drop generating a peak pre-impact glove velocity close to the reported maximum for elite boxers. Compared to the conventional gloves, the ARLI glove substantially reduced peak impact forces at all drop heights, with the reduction exceeding 30% even at the 5-metre level. The SBLI glove was as effective as the ARLI glove in reducing peak impact forces at drop heights of up to 2.5 metres, but its performance then progressively diminished, and at drop heights of 4.0, 4.5 and 5.0 metres it produced peak force readings similar to those recorded for the Std 10 oz and Std 16 oz gloves. The superiority of the ARLI glove was even more evident in relation to peak rate of force development, with reductions relative to the Std 10 oz glove being ~60% at drop heights up to 3.5 metres and still ~47% at 5 metres. Peak rate of force development for the SBLI glove exceeded that for the ARLI glove for all drop heights of 2.0 metres and above, and at 4.0, 4.5 and 5.0 metres it was higher than the readings for the Std 10 oz and 16 oz gloves. The protective effect of the ARLI glove was associated with an increase in impact compliance and prolongation of contact time between glove and target.

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Reflections on Long-Term Development and Use of Automated Scoring Technology in a Sport (Modified Boxing) Context

Perkins¹,

Helmer²,

Mackintosh³

et al. 2017

WJET

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Technology is being increasingly used to aid judging in sport, but its employment as the primary means of scoring is rare. We have developed and implemented a fully automated scoring system in the context of a modified, lowrisk form of boxing. The system, which requires contestants to wear vests and gloves incorporating sensor fabrics, has been used in multiple settings over the past five years. During that period, it has undergone progressive iteration guided by action research methodology. Here, we summarise that iteration, reflect on present status and identify possible future directions. We have found that concept of automated scoring has wide appeal, and the wearable technology is almost universally considered comfortable. Nevertheless, some issues remain to be addressed. Use of the technology requires considerable prior and subsequent commitment of time. Apparently valid contacts occasionally fail to score. Causative factors include the configuration of electrical circuitry in the vests and deterioration of that circuitry with repeated vest use and washing. Also, false positive scores are sometimes generated by vest self-shorting and effects of sweat. Many contestants adopt unorthodox styles aimed at exploiting the characteristics of the automated scoring methodology, affecting the aesthetics of the modified sport. There is an expectation that technologically-based scoring should have much greater accuracy than human judging, and should be essentially fail-proof. Disillusionment can occur in situations where this expectation is not met. We have identified potential solutions to all the existing issues, with some now being actively explored.How to cite this paper: Perkins, P., Helmer, R

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Factors Underpinning at Least Three Years of Participant Adherence to a Community-Focused Modified Boxing Program

Perkins¹,

Hahn²

2019

JSS

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Why do community-based athletes choose to participate in a modified, low-risk form of boxing? An interpretative phenomenological analysis

Perkins¹,

Hahn²,

Keegan³

et al. 2014

JRHSS

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Over the past eight years a modified, low-risk form of boxing known as Box'Tag has emerged in Australia. It has been designed to emphasise high levels of fitness, skill and personal enjoyment, while excluding those aspects of traditional boxing that have raised medical, ethical and legal concerns. Strikes to the head are prohibited, as are any impacts above a moderate level of force. Although uptake to date has been encouraging, a question remains as to whether Box'Tag can be developed in a way that will lead to sustainable large-scale community participation. Presently, there are only a few exemplar clubs where Box'Tag programs are being conducted. The purpose of the current study was to investigate, analyze and interpret one of these programs to discover the factors that have influenced a number of community-based athletes to have a two-year involvement with a modified, lowrisk form of boxing. This was accomplished by allowing the participants to recall their experiences free of any judgment and by making sense of their perceptions through an interpretative phenomenological analysis. Sustained participation in Box'Tag appears to have resulted from a sense of belonging to a special community, strong coach-athlete relationships, perception that the training is purposeful and a focus on safety.

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Pneumatic Boxing Glove Reduces Upward Drift in Peak Force and Loading Rate over a Long Series of Impacts

Perkins

Jamieson²,

Spratford

et al. 2019

WJET

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A conventional boxing glove and a prototype pneumatic glove were each fitted to a mechanical fist and dropped 253 times from a height of 3 metres on to a force plate covered by an ethylene vinyl acetate (EVA) mat. Impact dynamics were measured and modelled. From the outset, peak impact force and peak rate of force development (loading rate) were lower for the pneumatic glove. For both gloves, these variables displayed upward drift during the drop series, but the drift was smaller for the pneumatic glove. Consequently, the magnitude of the protective effect provided by the pneumatic glove increased with the number of impacts. For the conventional glove, change in peak force showed a close inverse relationship to force plate contact time (R 2 > 0.96) and the time from first contact of the glove with the force plate to attainment of peak force (R 2 = 0.85). These relationships were much weaker for the pneumatic glove (R 2 = 0.09 and 0.59 respectively), suggesting the possibility of a more complex impact damping mechanism. Following the 253 drops of the pneumatic glove, the EVA mat covering the force plate was replaced, and another 10 drops then performed. Peak force readings were immediately reduced to an extent suggesting that 26%-34% of the increase that had occurred over the 253 drops was attributable to impact-induced change in mat properties. This has implications for future experimental designs. Overall, the findings provided further evidence of the potential of pneumatic gloves to enable safer boxing.

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Paul Perkins

Evaluation of Ability of Two Different Pneumatic Boxing Gloves to Reduce Delivered Impact Forces and Improve Safety

Reflections on Long-Term Development and Use of Automated Scoring Technology in a Sport (Modified Boxing) Context

Factors Underpinning at Least Three Years of Participant Adherence to a Community-Focused Modified Boxing Program

Why do community-based athletes choose to participate in a modified, low-risk form of boxing? An interpretative phenomenological analysis

Pneumatic Boxing Glove Reduces Upward Drift in Peak Force and Loading Rate over a Long Series of Impacts

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