Automatic Mosquito Control Device Using Infrared Motion Sensor

Malaria is a disease transmitted by female Anopheles mosquitoes to humans. Mosquitoes are a carrier of malaria. There are many types of vector control strategies, including physical, chemical, and biological methods. Individuals, local communities, and more organized public health vector management programs often need to work together to effectively identify and control mosquito farms. Efforts should be made to destroy mosquito eggs and reduce the density of larvae and adults. The World Health Organization recommends integrated vector management (IVM) as a strategy to improve vector control. IVM combines good practices that maximize an effective, safe, environmentally friendly, and cost-effective approach to disease vector control. Effective and well-tested vector control strategies include: Biological control: larvae and biolarvicidal fish, such as mosquitoes in ditches and ponds or other predators to control mosquito larvae. Chemical control: larvae and adults (indoor spray residues, insecticide-treated bed nets, etc.). Adult mosquitoes are small vulnerable insects with slender bodies, a pair of slender wings and three pairs of thin long legs. Mosquito control can be improved by using an automatic mosquito control device with an infrared motion sensor. Suppression of malaria vectors is an important means of preventing and reducing malaria transmission. To reduce malaria, mosquitoes in and around our environment must be controlled. The introduction of an infrared motion sensor in an automatic mosquito control device would eliminate the reduction in the number of mosquitoes in our environment. Add an infrared motion sensor to the automatic mosquito control device for easier mosquito control in our homes and environments. To customize automatic mosquito control by adding an infrared motion sensor. DOI: 10.7176/ISDE/12-3-01 Publication date:September 30th 202

RFID Technology in Real Time Attendance Register System

RFID stands for Radio Frequency Identification which provides the ability to identify, locate and sense the conditions of animate and inanimate entities. Radio frequency identification or RFID is a generic term for technologies that are used for auto identification of people or object using radio waves. In this technology a unique serial number is stored to identify a person or an object and other related information, on a microchip of silicon that is attached to an antenna which in turn is attached to a RFID reader. The antenna enables the chip to transmit the identification information to a reader then the reader converts the radio waves reflected back from the RFID tag into digital information that can then passed on to computers running RFID application middleware, that can make use of it. The system stores the absent and present student’s attendance details in electronic format so that management of attendance becomes easy. Radio-Frequency Identification (RFID) is a technology that uses radio waves to transfer data from an electronic tag, called RFID tag or label, attached to an object, through a reader for the purpose of identifying and tracking the object. RFID technology which is a matured technology that has been widely deployed by various organizations as part of their automation systems. In this study, an RFID based system has been built in order to produce a time-attendance management system. This system consists of two main parts which include: the hardware and the software. The hardware consists of the motor unit and the RFID reader. The RFID reader, which is a low-frequency reader (125 kHz), is connected to the host computer via a serial to USB converter cable. The Time-Attendance System GUI was developed using visual basic.Net. The Time-Attendance Management System provides the functionalities of the overall system such as displaying live ID tags transactions, registering ID, deleting ID, recording attendance and other minor functions. This interface was installed in the host computer. Keywords: Systems, RFID, Technology, Attendance, Register, DOI: 10.7176/CEIS/12-2-06 Publication date: September 30th 202