Papers by Adebayo Suleiman
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Thesis Chapters by Adebayo Suleiman
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Drug recommender systems can assist the medical care providers with the selection of an appropria... more Drug recommender systems can assist the medical care providers with the selection of an appropriate medication for the patients. The advanced technologies available nowadays can help developing such recommendation systems which can lead to more concise decisions. The system was designed using UML diagram to determine the relationship between the system operation and the user. The algorithm used is collaborative filtering and programming languages used for the design and implementation are Java, PHP, JAVASCRIPT, CSS, HTML and MYSQL for the database. The result is able to provide a rule-based decision support system which enables high-quality service by simulating the decision-making ability of a health professional to provide drug recommendation for the patient based on a list of symptoms.
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Internet of things (IoT) is a concept, which has the aim to make humans and physical objects inte... more Internet of things (IoT) is a concept, which has the aim to make humans and physical objects interact through the internet. An internet-based home automation system focuses on controlling home electronic devices at any place where the internet can be accessed.
In this project, the components used for the hardware module are NodeMCU4-channel microcontroller, Relays, Transistors, LM 7805, Capacitors, Diodes, Resistors, Circuit board. The four output of the microcontroller is connected to the base of the transistor through the 1k resistor. The base of the emitter is connected to the ground i.e. 0voltages which is then connected to the two poles of the relay which converts DC voltage to AC voltage. Then the diode is connected to the relay, which is used to protect the relay from feeding back voltage. The capacitor is then connected to the power source to filter the ripple in the D.C voltage generated. The LM 7805 regulates the output used to power the ESP 8266 microcontroller. These entire electrical components are interconnected on the circuit board to form the hardware module.
The software methodology includes the necessary tools used for the development of the user interface. The user interface is a graphical interface where the system user interacts with the system using voice or button control. This development was done using MIT Inventor for development. The software methodology also includes the programming of the microcontroller using the Arduino IDE application where the microcontroller is connected to the computer using a female-male USB wire to power and enable the coding of the microcontroller.
The system performance was evaluated on the response time of the system. The response time was calculate using the average time after four iterations to set on and off a home appliance. It was observed that it takes one minute for the system to set on and off TV, bulb, radio, fan, and also the whole system.
This project concludes that a home automation system can be developed to enable user control effectively Home appliances such as FAN, BULB and RADIO, etc. The user can set commands to ON or OFF the home appliances through voice or button command which is sent over the internet to control our home appliances. It is just an amazing step forward to new development in the Internet of Things (IoT), as this involves a wireless medium to create the connection.
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Adebayo Suleiman, 2021
The issue of data storage is paramount in an organization, especially in a commercial business in... more The issue of data storage is paramount in an organization, especially in a commercial business institute. Therefore we intend to aid in organizing and managing the data in accordance with compliance by creating a stock control system. This study is aimed at developing an improved stock control system. The main objectives are to keep track of all transactions, conduct casual analysis to identify common trends in transactions by means of reports, and create a shop module for virtual orders. This system is designed to accept any warehouse that wants to make use of it. This study includes several modules and users where we have the owner dashboard, admin dashboard, and sales dashboard. This system also consists of several features to add, edit, delete, generate a report, and shop interface which is the landing page for virtual order. Tools used for the design and implementation are PHP, JAVASCRIPT, CSS, HTML, and MYSQL for the database.
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Papers by Adebayo Suleiman
Thesis Chapters by Adebayo Suleiman
In this project, the components used for the hardware module are NodeMCU4-channel microcontroller, Relays, Transistors, LM 7805, Capacitors, Diodes, Resistors, Circuit board. The four output of the microcontroller is connected to the base of the transistor through the 1k resistor. The base of the emitter is connected to the ground i.e. 0voltages which is then connected to the two poles of the relay which converts DC voltage to AC voltage. Then the diode is connected to the relay, which is used to protect the relay from feeding back voltage. The capacitor is then connected to the power source to filter the ripple in the D.C voltage generated. The LM 7805 regulates the output used to power the ESP 8266 microcontroller. These entire electrical components are interconnected on the circuit board to form the hardware module.
The software methodology includes the necessary tools used for the development of the user interface. The user interface is a graphical interface where the system user interacts with the system using voice or button control. This development was done using MIT Inventor for development. The software methodology also includes the programming of the microcontroller using the Arduino IDE application where the microcontroller is connected to the computer using a female-male USB wire to power and enable the coding of the microcontroller.
The system performance was evaluated on the response time of the system. The response time was calculate using the average time after four iterations to set on and off a home appliance. It was observed that it takes one minute for the system to set on and off TV, bulb, radio, fan, and also the whole system.
This project concludes that a home automation system can be developed to enable user control effectively Home appliances such as FAN, BULB and RADIO, etc. The user can set commands to ON or OFF the home appliances through voice or button command which is sent over the internet to control our home appliances. It is just an amazing step forward to new development in the Internet of Things (IoT), as this involves a wireless medium to create the connection.
In this project, the components used for the hardware module are NodeMCU4-channel microcontroller, Relays, Transistors, LM 7805, Capacitors, Diodes, Resistors, Circuit board. The four output of the microcontroller is connected to the base of the transistor through the 1k resistor. The base of the emitter is connected to the ground i.e. 0voltages which is then connected to the two poles of the relay which converts DC voltage to AC voltage. Then the diode is connected to the relay, which is used to protect the relay from feeding back voltage. The capacitor is then connected to the power source to filter the ripple in the D.C voltage generated. The LM 7805 regulates the output used to power the ESP 8266 microcontroller. These entire electrical components are interconnected on the circuit board to form the hardware module.
The software methodology includes the necessary tools used for the development of the user interface. The user interface is a graphical interface where the system user interacts with the system using voice or button control. This development was done using MIT Inventor for development. The software methodology also includes the programming of the microcontroller using the Arduino IDE application where the microcontroller is connected to the computer using a female-male USB wire to power and enable the coding of the microcontroller.
The system performance was evaluated on the response time of the system. The response time was calculate using the average time after four iterations to set on and off a home appliance. It was observed that it takes one minute for the system to set on and off TV, bulb, radio, fan, and also the whole system.
This project concludes that a home automation system can be developed to enable user control effectively Home appliances such as FAN, BULB and RADIO, etc. The user can set commands to ON or OFF the home appliances through voice or button command which is sent over the internet to control our home appliances. It is just an amazing step forward to new development in the Internet of Things (IoT), as this involves a wireless medium to create the connection.