This article, published by Engineer Live, explores how PPS is using tactile sensing technology to bring objective, measurable insight into comfort and fit for electronics and wearable devices. It highlights how pressure mapping and contact analysis can help engineers better understand real human interaction with products, supporting improved ergonomics, usability, and user experience during product development.
Read MoreFeatured in Life Science Daily, the article explores why human-centred ergonomic design is critical in health tech, showing how prioritising comfort, fit and real-world usability leads to better device performance, adoption and patient outcomes.
Read MoreFeatured in ISHN, the article traces the TactileGlove’s evolution, from early capacitive sensing prototypes to today’s multimodal ergonomic tool, showing how sensing human touch, paired with vision systems, is transforming how workplace safety and manual task risks are analysed.
Read MoreAppearing in Engineering Update, the article highlights a collaboration with Purdue University, showing how tactile sensing and vision-based methods are being combined to support ergonomic measurement and improve the assessment of manual work and workplace safety.
Read MoreFeatured in ISHN, the article follows the TactileGlove’s journey from early prototypes to today’s advanced capacitive sensing glove, showing how the concept of measuring human touch became a practical ergonomic tool.
Read MoreFeatured in Engineering Update, the article charts the history of the TactileGlove. From its early prototypes to today’s advanced capacitive sensing design, it is revealing how it turned the idea of measuring human touch into a practical reality.
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