Enhancing home protection system using FPGA

With the rapid growth of technology and the growing popularity of smart homes, it is critical to implement solid security measures. This paper presents an approach to enhance home protection by designing and implementing a Smart Home Security Access System using FPGA. The proposed systems incorporate a range of security elements to ensure household safety such as user authentication, access control and using variety of sensors. Smart home security access systems provide enhanced security solutions to address issues such as theft, intrusion, gas leakage and potential fire incidents. Consequently, this project aims to design and construct a smart system the incorporates a digital security entry for automatic door locking. The systems feature a magnetic door lock system at the entrance, PIR motion sensor to detect irregular movement, temperature sensor to measure high temperature within the house as well as gas sensor to detect the presence and concentration of hazardous gases and vapors. These sensors are connected through Arduino Uno and transmit through analog signals to DE-1 15 F PGA Board. The process data is then displayed on LED at FPGA and Seven Segment Display as an indication
status of the password entered and the condition of the sensors.