首先,我們改善文獻的體溫模型,我們提出電暖衣和體溫理論模型,為了能描述保暖衣理論模型的熱耗損,提供有效法則改善熱效率,我們應用軟體模擬評估演算法的效率和透過硬體實作來驗證保暖衣理論模型的可行性。因此,和其他方法比較效能,因為我們所提出的電能模型演算法能使本系統自動調節電能輸出,以達到節省功率消耗、保持恆溫控制、與方便使用等優點。在登山運動應用上,我們結合生理監測裝置,將粹取的生理訊號透過藍芽無線傳輸到手機上形成個人行動“守護神”。因為本系統可以建構與支援團隊管理健康管理與緊急救援功能,隊員間可以透過ZigBee形成區域無線區域網路,使得領隊可以了解隊員身心狀況,以提高在高危險登山運動的安全性。
First, after improving the studies’ body temperature model in the literal, we propose the adaptive electric-warm clothing model for body temperature. Moreover, based on our proposed thermal energy consumption of the adaptive electric-warm clothing approach, we provide the effective methodology to effectively improve the thermal energy consumption. Hence, the better performance of our proposed theoretic model can be consistently verified by the simulation and experiment results. Compared with other methods, since our proposed approach can automatically adjust the thermal energy output, this can effectively reduce the thermal energy consumption, hold the constant temperature, and easy use. Moreover, in the applications of the mountain-climbing sport, our proposed electric-warm clothing can cooperate with the wearable bio-information device with multiple sensors such that the bio-information signal can be transmitted by Bluetooth of ones’ cell phone within a body sensor network to construct ones’ “Guardian”. Then, since our system can construct and support the functions of the team healthy management and emergency rescue, team member can construct one local wireless network by ZigBee. Finally, the chief of the team can understand the bio-information of his team member in order to improve the safety factor under the high risk mountain-climbing sports.