Computer Science ›› 2020, Vol. 47 ›› Issue (11A): 620-623.doi: 10.11896/jsjkx.200300149
• Interdiscipline & Application • Previous Articles Next Articles
CHEN Guo-huo, YIN De-shuai, XU Jing, QIAN Xue-wen, WANG Miao
CLC Number:
[1] XXU H,KÖNIG L,GÁLIZ D,et al.A generic user interface for energy management in smart homes[J].Energy Informatics,2018,1(1). [2] PALANCA J,VAL E D,GARCIA-FORNES A,et al.Designing a goal-oriented smart-home environment[J].Information Systems Frontiers,2016,20:125-142. [3] JO H,YOON Y I.Intelligent smart home energy efficiency model using artificial TensorFlow engine[J].Human-centric Computing and Information Sciences,2018,8(1):9. [4] Control4 Delivers the Smart Home OS [EB/OL].https://www.businesswire.com/news/home/20190523005101/en/,2019. [5] MENG Y,LI S F,ZHANG Y C,et al.Security of information physical fusion system for Smart Home Platform[J].Journal of Computer Research and Development,2019,56(11). [6] XU Y Z,LIN L K,LI D Q.The trend of artificial intelligence in computer research and development of community business[J].Commercial Times,2018(12):8-12. [7] CHEN C,CHEN Y J.Internet platform model and traditionalenterprise reengineering [J].Science & Technology Progress and Policy,2016(6):84-88. [8] RAVI P S,BHANU P S,MAHESH K S,et al.Designing OfSmart Home Automation System Based On Raspberry Pi[C]//Advancement in Science & Technology:International Conference on Communication Systems.AIP Publishing LLC,2016. [9] PLOSZ S,MOLDOVAN I,TRINH T A,et al.Design and Implementation of a Practical Smart Home System Based on DECT Technology[J].Energy-Efficient Computing and Networking,2010,54:104-113. [10] XU Y,REN J,WANG G J,et al.A Blockchain-based Nonrepudiation Network Computing Service Scheme for Industrial IoT[J].IEEE Transactions on Industrial Informatics,2019:1-1. [11] WILSON C,HARGREAVES T,HAUXWELL-BALDWIN R.Smart homes and their users:a systematic analysis and key challenges[J].Personal & Ubiquitous Computing,2015,19(2):463-476. [12] AID L,ZAOUI L,MOSTEFAOUI S A M.Using DEVS formodeling and simulation of ambient objects in intelligent buil-dings[J].Journal of Ambient Intelligence and Humanized Computing,2016,7(4):579-592. [13] CHEN M,YANG J,ZHU X,et al.Smart Home 2.0:Innovative Smart Home System Powered by Botanical IoT and Emotion Detection[J].Mobile Networks and Applications,2017,22(6):1-11. [14] PARK E,KIM S,KIM Y S,et al.Smart home services as the next mainstream of the ICT industry:determinants of the adoption of smart home services[J].Universal Access in the Information Society,2018,17:175-190. [15] ZAIDAN A A,ZAIDAN B B.A review on intelligent process for smart home applications based on IoT:coherent taxonomy,motivation,open challenges,and recommendations[J].Artificial Intelligence Review,2020,53:141-165. |
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