The AuraTek-X modular smart temperature-control garment achieves rapid heating within 2 seconds at low voltages below 5V, delivering professional-grade warmth protection enduring -40°C. Its modular design allows detachable heating modules to function as therapeutic knee/waist pads for heat therapy applications. Designed by a Harbin Institute of Technology (HIT) student innovation team, this technology debuted during the previous winter season coinciding with the grand 2025 Harbin 9th Asian Winter Games. The students’ self-developed product—a convergence of "winter sports apparel," "HIT core technology," and "cutting-edge design"—represents next-generation smart wearables engineered to resolve persistent industry pain points in major ice/snow provinces (Heilongjiang, Hebei, Xinjiang), specifically addressing tourists’ cold-related hesitation and suboptimal frost-and-snow enjoyment experiences.Yunjing Technology leverages advanced materials like next-gen carbon-based flexible heating elements and novel AI algorithms to develop an integrated energy management system within wearable garment modules. This system incorporates power regulation and redistribution controls, enabling precise temperature management through intelligent algorithms while significantly extending continuous heating duration. Users can enjoy warm winter journeys simply by connecting a compact portable charger. Featuring a modular design that separates the core garment from heating units, the detachable modules double as therapeutic knee/waist pads for versatile functionality. By democratizing technology to serve the public and bolster the winter tourism economy, this innovation addresses tangible market needs while demonstrating strong commercial viability.The AuraTek-X modular smart temperature-control garment achieves rapid heating within 2 seconds at low voltages below 5V, delivering professional-grade warmth protection enduring -40°C. Pressing its thermal switch instantly activates 38-50°C personalized warmth while eliminating concerns about smartphone rapid power depletion or cold-induced startup failures in extreme environments. Detachable heating modules further convert into therapeutic pads for targeted heat therapy on shoulders, neck, waist, abdomen, and knees—these enhanced capabilities unequivocally elevate both safety and enjoyment for ice/snow tourism and outdoor operations.This design transcends conventional apparel aesthetics, representing a new paradigm where intelligent wearables converge with functional garments. It satisfies users visually and functionally, while its 0.2mm-thick carbon-based flexible heating elements deliver uncompromising durability and reliability (validated through rigorous testing including flex cycles, laundering trials, and extreme thermal cycling). By redefining human-nature dynamics in harsh environments through technology, it empowers users with unprecedented control and exploratory freedom—all while embodying humanistic care through personalized therapeutic attention. This fusion epitomizes our ultimate vision of design philosophy.The product line utilizes smart thermal regulation to reduce down filling by 60%, decreasing reliance on animal resources while simultaneously lowering overall garment weight and synthetic fabric consumption. Powered by low-voltage (5V USB) carbon-based flexible heating elements, it operates at just one-third the energy consumption of traditional electric heating apparel, delivering 8 hours of continuous warmth per charge with portable power bank compatibility to prevent energy waste. Its modular detachable architecture enables component repairability—localized failures require only heating module replacement—while detached units gain secondary application as therapeutic medical pads. This fundamentally transforms apparel from a "short lifespan-high waste" linear consumption model to a circular lifecycle solution.