Exact Measurement? For Innovation, and Progress
A coherence-based Noise Reduction System, approaches a time-independent reference, or exact standard, for the measurement of time. Download summary of scientific research here.
Areas of Application of Coherence Technology Pdf download here: https://www.upgradingtechnology.com/support-files/areasofapplication.pdf
"As designers of wearable technologies, we need to step back and ask why we want our fabrics to be electronic. What kind of information processing do we want to wrap around our bodies?" -- Joanna Berzowska assistant professor of Computational Arts at Concordia University and founder of Extra Soft research studio in Montreal
Her article gives us a nice overview of the world of wearable computers and electronic textiles: http://www.xslabs.net/papers/texile05-berzowska.pdf "The goal is to achieve seamless integration of technology into the traditional textile and fashion design....Mihaly Csikzentmihalyi writes that physical artifacts help us objectify the self in three ways. They can be viewed as symbols of personal power, symbols of the continuity of the self through time, and symbols of the permanence of relationships that define the individual in a social framework." (Csikszentmihalyi 1993)
Now it is possible to add Coherence Technology to your electronic clothing so that the sparkly exterior is aligned with natural precision and so magnifies the interior coherence. Please contact Coherence Industries to learn how to incorporate a tiny Quantum Noise Reduction System™ into your electronic creations.
An innovative fusion of technology and everyday attire...
1. **Innovation and Utility in Wearable Electronics:**
Wearable electronics, or e-textiles, can include items like smartwatches, fitness trackers, and even clothing that can monitor health metrics such as heart rate, steps, and sleep patterns. These devices utilize advanced materials and electronic components that are flexible, durable, and lightweight enough to be incorporated into clothing and worn comfortably on the body.
2. **Measurement and Precision:**
An intriguing aspect of advancing wearable technology is the pursuit of exactness in measurement. For instance, Coherence-Based Noise Reduction Systems in wearable electronics could significantly enhance the precision of sensory data collected by these devices. By reducing the noise in data, these systems can ensure more accurate readings and better performance.
3. **Applications and Psychological Impact:**
As cited by Mihaly Csikszentmihalyi, wearable technologies not only serve functional purposes but also symbolize personal power, continuity of self, and the permanence of social relationships. They serve as an extension of our personal identity and our interaction with the environment.
4. **Coherence Technology in Wearables:**
Adding Coherence Technology into wearable electronics like smart garments or accessories could align external sparkle with internal precision, enhancing the user's overall state of being by creating symmetry between outward appearance and inner functionality. This technology can be likened to including a Quantum Noise Reduction System™, which might balance and enhance the natural rhythms and functions of the body.
The integration of such sophisticated technologies into clothing and accessories opens up expansive possibilities for how we interact with devices and perceive their role in our daily lives and health. By consistently adopting and refining these technologies, designers and engineers can significantly influence the future landscape of personal electronics and their integration into our social and personal spheres.