基于TSCH网络的智能家居控制系统
发布时间:2021-01-09 00:06
在二十一世纪,有一个迫切的问题,提高舒适的住房和这些方法之一是安装的自动化系统的进程,使用家用电子设备。物联网发展的一个方向是智能家居系统的发展,让您自动化的过程,用户经常为了增加舒适性和生产力的水平。本论文描述了使用TSCH网络的智能家居系统的创建。本文揭示了该主题的相关性、在智能算法和家庭自动化领域的技术开发的必要性,此外,还综述了现阶段的智能家庭技术。这项工作的主要目标是创建一个使用节能6LoWPAN数据传输协议的智能家居系统。为了实施该项目,使用了一个为节能Contiki操作系统设备开发的操作系统,并使用了一个软件工具来创建智能家居Node-Red的自动控制算法。科学工作描述了系统的结构,用于构建系统的组件,以及智能家居系统建模的结果。描述了室内自动气候控制系统的各种算法。模拟智能家居系统的工作模式,如照明,加热,空气温度,以及门锁和各种传感器的智能控制。演示了照明、加热、湿度等参数智能控制算法的执行结果。本文介绍了基于TSCH网络的智能家居控制系统的图形界面。它还描述了如何在家庭使用的条件下使用此系统。它还描述了图形用户界面的创建、查看统计和过程自动化控制的实施。在这项工作中...
【文章来源】:哈尔滨工业大学黑龙江省 211工程院校 985工程院校
【文章页数】:97 页
【学位级别】:硕士
【文章目录】:
Abstract
摘要
1 Introduction
1.1 Internet of Things
1.2 Wireless sensor network
1.3 Smart Home system
1.4 Motivation and aims
2 Related works
2.1 Review scientific work
3 Overview using technology
3.1 Development tools
3.1.1 Development environment
3.1.2 Programming languages
3.2 IEEE802.15.4
3.3 TSCH
3.4 6LoWPAN
3.5 Contiki OS
3.6 Node-RED
3.7 Node JS
3.8 MQTT
4 Overall design
4.1 System architecture
4.1.1 Use Case datagram
4.1.2 Description model
4.1.3 System structure
4.1.4 System components
4.1.5 Database model
4.2 Node description
4.2.1 LaunchPad CC2650 SimpleLink
4.2.2 BeagleBone Black
4.2.3 Lighting sensor
4.2.4 Leak sensor
4.2.5 Temperature and humidity
4.2.6 Sensor button
4.3 Control scenario
4.3.1 Sensor nodes
4.3.2 Automatic regulation temperature and humidity
4.3.3 Smart regulation curtains
4.3.4 Automatic regulation illumination
4.3.5 Smart regulation floor heating
4.3.6 Leak control
4.3.7 Noise control
4.3.8 Door automation system
4.4 Graphical User Interface Design
4.4.1 Noise sensor
4.4.2 Temperature sensor
4.4.3 Humidity sensor
4.4.4 Light sensor
4.4.5 Opening door control
4.4.6 Leak sensor
4.4.7 Conditioner control menu
4.4.8 Floor heating control menu
4.4.9 Lighting control menu
4.4.10 Curtains control menu
4.4.11 State diagrams menu
4.4.12 Notification control menu
4.5 State diagrams
4.5.1 Current state diagram
4.5.2 Statistic diagrams
4.5.3 Error handling
4.6 Logic description
4.6.1 Automatic regulation temperature and humidity
4.6.2 Smart regulation curtains
4.6.3 Automatic regulation illumination
4.6.4 Smart regulation floor heating
4.6.5 Leak control
4.6.6 Noise control
4.6.7 Door lock algorithm
5 Test and comparison
5.1 Testing border router and hub
5.2 Testing sensor button and6LoWPAN protocol
5.3 Testing leak smart system
5.4 Testing smart lighting automation system
5.5 Evaluation of the Smart Home system on6LoWPAN network
5.6 Comparison6LoWPAN with other technologies
5.7 Reliability of the system
6 Conclusion
References
Acknowledgement
Resume
本文编号:2965575
【文章来源】:哈尔滨工业大学黑龙江省 211工程院校 985工程院校
【文章页数】:97 页
【学位级别】:硕士
【文章目录】:
Abstract
摘要
1 Introduction
1.1 Internet of Things
1.2 Wireless sensor network
1.3 Smart Home system
1.4 Motivation and aims
2 Related works
2.1 Review scientific work
3 Overview using technology
3.1 Development tools
3.1.1 Development environment
3.1.2 Programming languages
3.2 IEEE802.15.4
3.3 TSCH
3.4 6LoWPAN
3.5 Contiki OS
3.6 Node-RED
3.7 Node JS
3.8 MQTT
4 Overall design
4.1 System architecture
4.1.1 Use Case datagram
4.1.2 Description model
4.1.3 System structure
4.1.4 System components
4.1.5 Database model
4.2 Node description
4.2.1 LaunchPad CC2650 SimpleLink
4.2.2 BeagleBone Black
4.2.3 Lighting sensor
4.2.4 Leak sensor
4.2.5 Temperature and humidity
4.2.6 Sensor button
4.3 Control scenario
4.3.1 Sensor nodes
4.3.2 Automatic regulation temperature and humidity
4.3.3 Smart regulation curtains
4.3.4 Automatic regulation illumination
4.3.5 Smart regulation floor heating
4.3.6 Leak control
4.3.7 Noise control
4.3.8 Door automation system
4.4 Graphical User Interface Design
4.4.1 Noise sensor
4.4.2 Temperature sensor
4.4.3 Humidity sensor
4.4.4 Light sensor
4.4.5 Opening door control
4.4.6 Leak sensor
4.4.7 Conditioner control menu
4.4.8 Floor heating control menu
4.4.9 Lighting control menu
4.4.10 Curtains control menu
4.4.11 State diagrams menu
4.4.12 Notification control menu
4.5 State diagrams
4.5.1 Current state diagram
4.5.2 Statistic diagrams
4.5.3 Error handling
4.6 Logic description
4.6.1 Automatic regulation temperature and humidity
4.6.2 Smart regulation curtains
4.6.3 Automatic regulation illumination
4.6.4 Smart regulation floor heating
4.6.5 Leak control
4.6.6 Noise control
4.6.7 Door lock algorithm
5 Test and comparison
5.1 Testing border router and hub
5.2 Testing sensor button and6LoWPAN protocol
5.3 Testing leak smart system
5.4 Testing smart lighting automation system
5.5 Evaluation of the Smart Home system on6LoWPAN network
5.6 Comparison6LoWPAN with other technologies
5.7 Reliability of the system
6 Conclusion
References
Acknowledgement
Resume
本文编号:2965575
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