兰州大学学报(自然科学版)
蘭州大學學報(自然科學版)
란주대학학보(자연과학판)
JOURNAL OF LANZHOU UNIVERSITY(NATURAL SCIENCES)
2015年
2期
297-302
,共6页
节能%舒适%集成控制%反馈
節能%舒適%集成控製%反饋
절능%서괄%집성공제%반궤
energy saving%comfort%integrated control%feedback
基于物联网思想,对温度、湿度、二氧化碳浓度以及光照度等参数进行实时跟踪与采集,同时接受用户的体验反馈,根据用户的实际需要,在不降低用户舒适度的前提下,动态控制各类家居设备,依据PMV-PPD热舒适度评价指标,对实验数据进行了检验与分析,结果表明系统节能效果明显。
基于物聯網思想,對溫度、濕度、二氧化碳濃度以及光照度等參數進行實時跟蹤與採集,同時接受用戶的體驗反饋,根據用戶的實際需要,在不降低用戶舒適度的前提下,動態控製各類傢居設備,依據PMV-PPD熱舒適度評價指標,對實驗數據進行瞭檢驗與分析,結果錶明繫統節能效果明顯。
기우물련망사상,대온도、습도、이양화탄농도이급광조도등삼수진행실시근종여채집,동시접수용호적체험반궤,근거용호적실제수요,재불강저용호서괄도적전제하,동태공제각류가거설비,의거PMV-PPD열서괄도평개지표,대실험수거진행료검험여분석,결과표명계통절능효과명현。
Based on the idea of the Internet of Things, indoor environmental parameters, including temperature, humidity, carbon dioxide concentration, illumination, etc. were tracked and collected in real time. The feedbacks of users were collected and, according to the real needs of the users, various types of home equipment were dynamically controlled. The data of the experiments were tested and analyzed according to the PMV-PPD thermal comfort evaluation criteria and the results show that the energy-saving effect is obvious.
