Pub Date : 2024-02-29DOI: 10.47363/jbber/2024(2)109
Jean-Philippe Pierre, Guillaume Perrocheau
The RASSCAS Laboratory (Applied Research in Social Sciences to Design a Sustainable Anthropocene) is a human sciences laboratory based in a digital engineering school. The idea of this laboratory is to guide engineering students towards models of design and innovation that respond both to the ethical desires of this young generation and to the need for responsible innovation imposed by the context of access to development that is fair for mankind and sustainable for life and the planet. This article is first and foremost a profession of faith, that of researchers who have decided to commit themselves to the path of development that respects life. It is also a call to become aware of the need to modify traditional design models. It’s a call for a paradigm shift from anthropocentric models to one that gives equal place to human and non-human living beings.
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Pub Date : 2024-02-29DOI: 10.47363/jbber/2024(2)111
James Hutson, P. Hutson
In the contemporary workplace, where a staggering 62% of employees reported experiencing burnout in 2023 according to a Medium article, the integration of wearable technology with biophilic and oxygenation strategies emerges as a vital Neurohemal initiative. This approach is particularly relevant for supporting neurodivergent individuals, as well as those recovering from stroke and long-COVID, in the context of return-to-office mandates. The article underscores the significance of research on increased hydrostatic pressure in circulation, particularly its impact on spinal and spinal cord blood flow during water immersion. This insight lays the groundwork for innovations like non-wet water massage devices, which could significantly aid in neurological recovery, thereby facilitating smoother reintegration into the workplace. Moreover, the fusion of biometrics with medical technology in wearables is explored, with a focus on enhancing interoception and proprioception. This technological synergy is key in activating the parasympathetic nervous system (PSNS), inducing a relaxed state conducive to effective digestion and oxygenation, crucial in mitigating workplace stress. The concept of ‘Interoceptive in Water’ is examined for its potential to improve blood flow and overall bodily function. In addition, the article advocates for the introduction of oxygenation bars in office spaces. These bars would offer a dedicated environment for enhanced oxygen intake, vital for cognitive function and stress alleviation, benefitting neurodivergent individuals, stroke survivors, and long-COVID patients. Wearables capable of detecting and correcting low oxygen or circulation issues are highlighted as essential tools for fostering a more inclusive, productive, and healthier workplace, thereby contributing to the overarching goal of NeuroHealth in the professional sphere.
根据 Medium 上的一篇文章,2023 年将有 62% 的员工出现职业倦怠,在当代职场中,将可穿戴技术与亲环境和氧气策略相结合是一项重要的神经化学举措。在重返办公室的任务背景下,这种方法对于支持神经变异者、中风后恢复者和长期慢性阻塞性脑损伤患者尤为重要。文章强调了循环中静水压增加研究的重要性,特别是其在浸水过程中对脊柱和脊髓血流的影响。这一洞察力为非湿式水按摩设备等创新奠定了基础,这些设备可以极大地帮助神经系统的恢复,从而促进更顺利地重返工作岗位。此外,还探讨了可穿戴设备中生物识别技术与医疗技术的融合,重点是增强互感和本体感觉。这种技术上的协同作用是激活副交感神经系统(PSNS)的关键,可诱导出一种有利于有效消化和供氧的放松状态,对减轻工作压力至关重要。文章研究了 "水中互感 "的概念,认为它具有改善血液流动和身体整体功能的潜力。此外,文章还提倡在办公场所引入氧吧。这些氧吧将为提高氧气摄入量提供专门的环境,而氧气对认知功能和缓解压力至关重要,神经变异者、中风幸存者和长期慢性阻塞性脑损伤患者都将从中受益。能够检测和纠正低氧或血液循环问题的可穿戴设备被强调为促进更包容、更高效和更健康的工作场所的必要工具,从而有助于在专业领域实现神经健康的总体目标。
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