Uchechi Ukaegbu scite author profile

Uchechi Ukaegbu

5Publications

33Citation Statements Received

30Citation Statements Given

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146

Affiliations

University of Johannesburg

Publications

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Development of a Light-Weight Unmanned Aerial Vehicle for Precision Agriculture

Ukaegbu

Tartibu

Okwu

et al. 2021

Sensors

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This paper describes the development of a modular unmanned aerial vehicle for the detection and eradication of weeds on farmland. Precision agriculture entails solving the problem of poor agricultural yield due to competition for nutrients by weeds and provides a faster approach to eliminating the problematic weeds using emerging technologies. This research has addressed the aforementioned problem. A quadcopter was built, and components were assembled with light-weight materials. The system consists of the electric motor, electronic speed controller, propellers, frame, lithium polymer (li-po) battery, flight controller, a global positioning system (GPS), and receiver. A sprayer module which consists of a relay, Raspberry Pi 3, spray pump, 12 V DC source, water hose, and the tank was built. It operated in such a way that when a weed is detected based on the deep learning algorithms deployed on the Raspberry Pi, general purpose input/output (GPIO) 17 or GPIO 18 (of the Raspberry Pi) were activated to supply 3.3 V, which turned on a DC relay to spray herbicides accordingly. The sprayer module was mounted on the quadcopter and from the test-running operation conducted, broadleaf and grass weeds were accurately detected and the spraying of herbicides according to the weed type occurred in less than a second.

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Development of a Hybrid Artificial Neural Network-Particle Swarm Optimization Model for the Modelling of Traffic Flow of Vehicles at Signalized Road Intersections

et al. 2021

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The tremendous increase in vehicular navigation often witnessed daily has elicited constant and continuous traffic congestion at signalized road intersections. This study focuses on applying an artificial neural network trained by particle swarm optimization (ANN-PSO) to unravel the problem of traffic congestion. Traffic flow variables, such as the speed of vehicles on the road, number of different categories of vehicles, traffic density, time, and traffic volumes, were considered input and output variables for modelling traffic flow of non-autonomous vehicles at a signalized road intersection. Four hundred and thirty-four (434) traffic datasets, divided into thirteen (13) inputs and one (1) output, were obtained from seven roadsites connecting to the N1 Allandale interchange identified as the busiest road in Southern Africa. The results obtained from this research have shown a training and testing performance of 0.98356 and 0.98220. These results are indications of a significant positive correlation between the inputs and output variables. Optimal performance of the ANN-PSO model was achieved by tuning the number of neurons, accelerating factors, and swarm population sizes concurrently. The evidence from this research study suggests that the ANN-PSO model is an appropriate predictive model for the swift optimization of vehicular traffic flow at signalized road intersections. This research extends our knowledge of traffic flow modelling at a signalized road intersection using metaheuristics algorithms. The ANN-PSO model developed in this research will assist traffic engineers in designing traffic lights and creation of traffic rules at signalized road intersections.

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A deep learning algorithm for detection of potassium deficiency in a red grapevine and spraying actuation using a raspberry pi3

Ukaegbu

Tartibu

Laseinde

et al. 2020

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Deep Learning for Smart Plant Weed Applications Employing an Unmanned Aerial Vehicle

Ukaegbu

Mathipa

Malapane

et al. 2022

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Deep learning application in diverse fields with plant weed detection as a case study

Ukaegbu

Tartibu

Okwu

et al. 2021

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Uchechi Ukaegbu

Development of a Light-Weight Unmanned Aerial Vehicle for Precision Agriculture

Development of a Hybrid Artificial Neural Network-Particle Swarm Optimization Model for the Modelling of Traffic Flow of Vehicles at Signalized Road Intersections

A deep learning algorithm for detection of potassium deficiency in a red grapevine and spraying actuation using a raspberry pi3

Deep Learning for Smart Plant Weed Applications Employing an Unmanned Aerial Vehicle

Deep learning application in diverse fields with plant weed detection as a case study

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