Bryna Ngieng Sing Yii, Nabihah Ahmad, Mohd Helmy Abd Wahab, Warsuzarina Mat Jubadi, Chessda Uttraphan, Syed Zulkarnain Syed Idrus
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The top-level module is developed via Verilog Hardware Descriptive Language (HDL) with the bottom-up technique and used test bench for functional verification via ModelSim-Altera. The PWM method was applied to the lighting system to control the dimming of light through its digital signals via a maximum 500000 counter to improve energy efficiency for the proposed design. In this project, 200Hz pulses are successfully simulated to prevent visible flickering of lights in duty cycle generation. The light intensity of 40% and 100% are verified and successfully generated according to the inputs provided by the status of the LDR sensor and IR sensor. The proposed controller gives correct corresponding outputs to the 13 actuators based on the detected input stimuli. The proposed design utilized a total of 162 (<1%) logic elements, 32 registers, and total pins of 74 (14%). The proposed design successfully integrated the three-sub module and provided control on comfort and security system operations to prevent service failure during power blackout conditions at the top-level and utilized a low ratio of the FPGA.","PeriodicalId":36440,"journal":{"name":"Annals of Emerging Technologies in Computing","volume":"1 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2023-10-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Integration of Home Automation and Security System Controller with FPGA Implementation\",\"authors\":\"Bryna Ngieng Sing Yii, Nabihah Ahmad, Mohd Helmy Abd Wahab, Warsuzarina Mat Jubadi, Chessda Uttraphan, Syed Zulkarnain Syed Idrus\",\"doi\":\"10.33166/aetic.2023.05.001\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"A home automation system is essential for promoting a safe and comfortable living environment and notable energy conservation for the user. 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引用次数: 0
摘要
家庭自动化系统对于促进用户安全舒适的生活环境和显著的节能是必不可少的。然而,该系统受到成本、电力使用、安全性不足、复杂性和无应急备用电源等因素的阻碍。当前带有控制器的家庭自动化系统受到端口数量、固定架构、非持久和非并行执行的限制。基于此,本文提出了以Cyclone IV E: EP4CE115F29C7 FPGA板(DE2-115)为基础,集成家庭舒适系统、安防系统和负荷自动转换开关功能。顶层模块采用Verilog硬件描述语言(HDL)和自底向上技术开发,并使用ModelSim-Altera测试平台进行功能验证。将PWM方法应用于照明系统,通过最大500000计数器通过其数字信号控制光的调光,以提高所提出设计的能源效率。在这个项目中,成功地模拟了200Hz脉冲,以防止占空比产生中可见的闪烁。根据LDR传感器和IR传感器状态提供的输入,验证并成功生成40%和100%的光强。所提出的控制器根据检测到的输入刺激向13个执行器提供正确的相应输出。所提出的设计总共使用了162个(<1%)逻辑元件,32个寄存器和74个总引脚(14%)。该设计成功地集成了三个子模块,并提供了对舒适和安全系统操作的控制,以防止在顶层停电情况下的服务故障,并利用了低比例的FPGA。
Integration of Home Automation and Security System Controller with FPGA Implementation
A home automation system is essential for promoting a safe and comfortable living environment and notable energy conservation for the user. However, the system’s favour had been obstructed by cost, power usage, inadequate security, complexity, and no emergency backup power. Current home automation systems with controllers were limited by their number of ports, fixed architecture, non-durable and non-parallel executions. Keeping this in view, integration of home comfort system, security system, and the automatic load transfer switch features are proposed using the base of Cyclone IV E: EP4CE115F29C7 FPGA Board (DE2-115). The top-level module is developed via Verilog Hardware Descriptive Language (HDL) with the bottom-up technique and used test bench for functional verification via ModelSim-Altera. The PWM method was applied to the lighting system to control the dimming of light through its digital signals via a maximum 500000 counter to improve energy efficiency for the proposed design. In this project, 200Hz pulses are successfully simulated to prevent visible flickering of lights in duty cycle generation. The light intensity of 40% and 100% are verified and successfully generated according to the inputs provided by the status of the LDR sensor and IR sensor. The proposed controller gives correct corresponding outputs to the 13 actuators based on the detected input stimuli. The proposed design utilized a total of 162 (<1%) logic elements, 32 registers, and total pins of 74 (14%). The proposed design successfully integrated the three-sub module and provided control on comfort and security system operations to prevent service failure during power blackout conditions at the top-level and utilized a low ratio of the FPGA.