Department of Electrical and Electronic Engineering
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Electrical and Electronic Engineering is an exciting and dynamic field. Electrical engineers are responsible for the generation, transfer and conversion of electrical power, while electronic engineers are concerned with the transfer of information using radio waves, the design of electronic circuits, the design of computer systems and the development of control systems such as aircraft autopilots. These sought-after engineers can look forward to a rewarding and respected career.
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Browsing Department of Electrical and Electronic Engineering by browse.metadata.advisor "Booysen, Thinus"
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- ItemAutomated remote industrial inspection platform using spot(Stellenbosch : Stellenbosch University, 2023-03) Roux, Dominic; Booysen, Thinus; Stellenbosch University. Faculty of Engineering. Dept. of Electrical and Electronic Engineering.ENGLISH ABSTRACT: In an industrial environment, good housekeeping practices are essential to ensuring safety and efficiency on site. In this context, housekeeping refers to keeping an industrial site clean of loose equipment and debris, which present slip, trip and fall hazards. Managing these hazards often falls upon highly skilled managerial staff, with numerous other urgent responsibilities. As a result, the laborious and time-consuming discipline of regular housekeeping inspections is easily neglected. Enabled by advancements in mobile robotics, autonomous legged robots are increasingly applied to the automation of industrial inspections. However, the automation of on-site housekeeping is an unexplored area in this field of research. In this project, an automated remote inspection platform is developed for the novel application of automating housekeeping inspections in a mining processing plant. It uses a Boston Dynamics Spot for autonomous data collection along a pre-determined inspection route. To enable data collection and transfer from the robot, a custom Raspberry Pi payload is developed that facilitates data transfer from the robot to a GPU-enabled computation endpoint. The remote inspection platform implements a vision-based hazard detection and reporting system, based on a Mask R-CNN computer vision model. While real-time performance is desirable, it is not possible with cloud computing in lieu of dedicated on-site computation. Experimental analysis revealed a 0.442 FPS lower bound on the system performance with cloud computing, due to a significant network overhead. The system uses a novel hazard risk estimation algorithm to classify detected hazards as high or low risk. It evaluates hazard detection and walkway segmentation masks generated by the Mask R-CNN model. The masks are used to determine the relative placement of the hazards on the walkway, by which the risk is estimated. The final system was shown to classify hazard risks accurately 93.22% of the time. The available input sensors with Spot were considered, namely the robot’s built-in stereo grayscale cameras, the latter with an additional depth channel, and the Spot CAM+IR fisheye cameras. Three separate image data sets were collected on site at the Rosh Pinah zinc and lead mine for this evaluation. It was found that the Spot CAM+IR fisheye camera results in the best performing system, achieving a Mask R-CNN precision and recall of 84.4% and 76.4%, respectively. The final system was shown to have an accuracy of 58.79% when trained on a very small data set. The system accuracy could easily be increased to 89.53% and above by significantly increasing the amount of training data. The accuracy could even be increased to meet industrial safety standards, thereby making the system feasible for real-life operations.
- ItemA cashless payment platform for minibus taxis(Stellenbosch : Stellenbosch University, 2023-03) Tenderere, Kudzai; Booysen, Thinus; Visagie, Lourens; Stellenbosch University. Faculty of Engineering. Dept. of Electrical and Electronic Engineering.ENGLISH ABSTRACT: The South African Taxi Recapitalisation Program determined that electronic/cashless fare collection systems must be installed in every minibus taxi. However, the past and present initiatives to implement cashless fare collection systems have been focused on using Euro Master Visa (EMV) cards. The problem with these cards is that they exclude part of the population which has been historically marginalised and excluded by financial i nstitutions, m ainly b anks. T his h as h ighlighted t he n eed f or a more inclusive cashless fare collection system in the minibus taxi industry. The cashless fare collection system is also meant to gather data on passenger movement for infrastructure and planning purposes. It was determined that mobile phones have enjoyed a significant p enetration rate into the African and South African population and, as such, mobile money is the best financial technology, particularly for the historically marginalised and financially excluded populations. It was assumed that minibus taxi passengers have Bluetooth devices switched on when they travel. It was determined that social media applications, particularly WhatsApp and Telegram, have become the most used platforms to communicate. Therefore, a decision was made to implement a cashless fare collection system in the form of a Telegram Chatbot: the system would add passenger detection and tracking using Bluetooth. The system for passenger detection and tracking using Bluetooth was designed, implemented, and tested on a couple of local minibus taxi trips. The data gathered from the local trips was analysed to determine the reliability of using Bluetooth for passenger detection and tracking. Generally, Bluetooth use in minibus taxi passengers was neither available nor reliable enough to be used for passenger tracking and identification. The cashless fare collection system was developed without the Bluetooth passenger tracking and identification subsystem.
- ItemElectrical-energy in schools with a focus on behavioural and efficiency interventions(Stellenbosch : Stellenbosch University, 2021-12) Samuels, Jason; Booysen, Thinus; Stellenbosch University. Faculty of Engineering. Dept. of Electrical and Electronic Engineering.ENGLISH ABSTRACT: Schools are a substantial contributor in South Africa’s constricted energy landscape. Schools also face infrastructure and resource limitations and budgetary pressures. This tension thus creates a need for schools to reduce their effective usage of electricity to save money and reduce their environmental impacts. To help schools reduce these impacts, this study embarked on the understanding of their energy usage. This was done with smart-energy meter data analysis of schools within Stellen- bosch in the Western Cape province of South Africa. The investigation compared the energy intensity of schools in South African with schools worldwide, and then compared South African schools across affluence levels. Usage was predominantly analysed as hourly load profiles for certain times of the year and as aggregate energy usages per day. After investigating the energy usage of the schools and upon the completion of energy audits, interventions were introduced to reduce the energy usage of the schools. The first method of reduction was to implement efficiency interventions with regards to energy-intensive items in the schools. The schools in the sample set were found to have many high-power fluorescent lights that were used in c lassrooms. These lights were then replaced w ith the LED lights with lower power consumption, high power factor and better light quality. A model was created and validated for schools’ usage based on the lighting utilisation in the schools. The second method of reduction included the implementation of behavioural interventions in schools. Periodic reporting based on the energy usage data was presented to schools with the cost and environmental impacts. The energy usage could be reduced through awareness with ongoing and digestible energy reports. As the study took place during the COVID-19 pandemic, the energy usage of schools were assessed with the influence of the pandemic’s r estrictions. The change in energy and occupancy changes were evaluated as the pandemic presented the opportunity to measure the differential demand of occupants and buildings’ base loads. With the understanding of schools’ energy usage and the implementation of possible ways of reductions, schools would be in a better position to transition to alternative energy sources. Therefore, this study included the evaluation of a solar PV system at a single school and its impacts on the schools carbon emissions and costs was evaluated. Altogether, the understanding of energy usage; reductions through efficiency and behavioural interventions; and evaluation of solar PV in schools present the foundations to help schools. This could improve their energy efficiency, help schools save electricity costs and reduce their carbon emissions
- ItemResidential load modelling to predict household consumption for design of photovoltaic systems(Stellenbosch : Stellenbosch University, 2022-12) Avenant, Jason; Booysen, Thinus; Rix, Arnold; Stellenbosch University. Faculty of Engineering. Dept. of Electrical and Electronic Engineering.ENGLISH ABSTRACT: South Africa’s electrical network is restricted, and its supply is variable. Adoption of solar systems is a potential solution. Despite the abundance of sunshine in South Africa, the adoption of domestic rooftop solar has remained limited. The unequal distribution of wealth and linked usage, a legacy of apartheid, and the uncertain cost/benefit of large-scale solar installations play a significant role in this. To mitigate the uncertainty of large-scale solar deployment, PV system design may be predicted using simulation. This provides users with a better understanding of the energy savings and partial independence that PV system adoption can offer from the volatile grid . Domestic electricity usage and solar insolation are key components in the design of a PV system. Because usage patterns vary and solar insolation fluctuates, these variations must be considered when properly analysing the viability of PV adoption. In South Africa, a lack of load data hinders large-scale solar PV system planning and implementation. Although high-resolution data on individual residential energy use is scarce in South Africa, the DELS (Domestic Electrical Load Study) dataset, which contains data for 14 945 households sampled hourly, is an exception. Given the dataset’s geographical and demographic representation, it provides an intriguing approach of assessing large-scale solar PV implementation. To use the DELS dataset in this way, a model needs to be developed to statistically describe the measured usage profiles for each household. Thereafter, the model can be used to simulate household usage, the resultant profiles of which can be compared to simulated solar PV profiles and used to size solar installations for each household. In this thesis, we presented a load model and subsequent load synthesiser for South African residential households. Because data quality and availability are difficult to obtain in developing countries such as South Africa, we designed the model to function with minimal training data. In addition to the synthesiser, we conducted a case study to evaluate the synthesiser’s suitability for the sizing and design of fixed-axis rooftop PV systems based on the synthetic profiles. A data reduction framework to extract key features from representative daily load profiles was employed. The developed models accounted for the effects of seasonal and day-of-week trends on household consumption patterns. A sum-of-Gaussian (SOG) model was used to describe load profile shapes. The model made use of the assumption that residential households’ load behaviour would have two distinct peaks, one in the morning and one in the afternoon, representing their work/school schedule. A probabilistic model is used to simulate the distribution of peak amplitudes in households. Employing hypothesis tests we fitted probability distributions to the measured peaks amplitude values. A load synthesiser was created by combining the two models. The synthesiser simulates different seasons and days (weekdays, Saturdays and Sundays). Depending on the season and day type being synthesised, we generate load profiles using a SOG-based model that was trained on a relating seasonal and day type subset. To scale the amplitude of the synthetic load profile, we created synthetic amplitude values by simulating the amplitude distribution using the probabilistic model. In this way, the synthesiser can simulate load profiles with similar statistical characteristics and shapes to the measured daily load profile. The proposed synthesiser was used to assess its suitability for the design of fixed-axis rooftop PV systems. We designed a generic PV system that was used to produce PV simulations using SAM (System Advisory Model). The synthesised days were used to scale the system’s size to conform to a design requirement that the PV system export no more than 15% of the energy it produces. The developed probabilistic model was assessed by comparing the measured peak amplitudes, and shown to accurately portray the measured values’ statistical properties. The synthetic and measured distributions were virtually identical, with the first quantile of values showing the biggest difference, which showed that the poor performance was limited to very low consumption levels. Synthetic days generated for one calendar year of days were used to evaluate the sum-of-Gaussian based model. Utilising the SMAPE (symmetric mean absolute percentage error) and MAE (mean absolute error), we compared the synthetic profiles shape to the measured profiles. We discovered that even though the model performed well in terms of reproducing the shape of the RDLPs, the level of accuracy varied when simulating a year’s worth of dates. This was most likely brought on by the assumptions and approximations made regarding the shape of residential load profiles. To evaluate the performance of the synthesiser, 900 households that had more than a year’s worth of measured days were compared with a year’s worth of synthetic data. The synthesiser was tested to determine whether it captured the shape of the daily load profiles throughout the year. The tests determined if it captured the statistical characteristics of an individual household’s load as well as all households and if it captured the statistical characteristics of the aggregated normalised grid of 900 households. We discovered that the synthesiser tended to overestimate peak loads while underestimating off-peak loads. Rooftop solar PV systems were sized using measured data and compared with ones sized using synthesised data. Those sized using synthetic data proved to be oversized by a small amount – less than a PV module per household. The model behaved as expected, the synthesiser created slightly inflated peak loads, but proved to be a useful tool for assessing fixed axis rooftop PV systems. As a result, the project goals were achieved and objectives fulfilled. Additional adjustments to the synthesiser and models for future work were suggested. The project code is available online1.
- ItemTowards a paper-based electrochemical glucose biosensor(Stellenbosch : Stellenbosch University,, 2023-03) Francois, Snyders; Booysen, Thinus; Stellenbosch University. Faculty of Engineering. Dept. of Electrical and Electronic Engineering.ENDGLISH ABSTRACT: Glucose homeostasis forms a critical part of the development of a healthy neonate. The complex adaptation from fetal to neonatal life requires well-coordinated hormonal and metabolic adaptive changes to maintain glucose homeostasis. At-risk infants face high morbidity- and mortality risks and are also at larger risk of developing glucose metabolism disorders during their first week of e xtra-uterine l ife. Hyperglycemia i s a common glucose metabolism disorder developed in at-risk infants and is frequently accompanied by a urinary loss of glucose. The concentration of glucose excreted through neonatal urine can give an indication of the hyperglycemic state of the neonate. Glycosuria monitoring can therefore be used as an additional screening method to detect hyperglycemia - an alternative to frequently measuring blood glucose. This project aimed to develop a paper-based glucose sensor that uses electrochemistry and glucose-specific e nzyme r eactions t o d etect g lucose c oncentrations relevant to neonatal hyperglycemic glycosuria thresholds in sample solutions. The sensor was manufactured on photo paper in the form of a printed three-electrode sensor using a desktop ink-jet printer as the manufacturing tool. A compatible PEDOT:PSS ink dispersion was formulated for this printer by optimising the concentration ratios of its constituents. Thin polymer films were p rinted i n s uccessive l ayers a nd were treated with organic solvents and annealing procedures to achieve optimal levels of film conductivity. An enzyme solution containing glucose oxidase enzymes and artificial mediators was prepared and validated for its ability to oxidise glucose. By combining the printed electrodes with the prepared enzyme solution, cyclical voltammetric methods were applied with the addition of glucose to realise an electrochemical glucose biosensor. Glucose concentrations ranging from 0 32 mg=ml were tested using the fabricated sensors. The sensor proved its capability by consistently detecting all glucose concentrations relevant to hyperglycemic glycosuria thresholds in neonatal urine. A shortcoming of the proposed sensor solution included the incapability to differentiate between glucose concentrations of 4 16 mg=ml.
- ItemUsage-based optimal energy control of residential water heaters(Stellenbosch : Stellenbosch University, 2021-12) Richie, Michael; Booysen, Thinus; Stellenbosch University. Faculty of Engineering. Dept. of Electrical and Electronic Engineering.ENGLISH ABSTRACT: Water heating contributes up to 40% of a household’s total electricity usage and places a substantial burden on the electricity grid due to high power ratings and users’ largely simultaneous hot water usage. It is estimated that South Africa uses 38.5 GWh/day on water heating. Tanked water heaters can store thermal energy for long periods of time with a portion lost to the environment. Although many demand response strategies have been proposed to mitigate costs from time-of-use pricing of electricity, many developing countries have flat-rate pricing and are heavily reliant on the burning of fossil fuels for electricity. This thesis explores optimisation to develop a system that provides electric water heaters (EWHs) with the optimal heating schedule to minimise overall electrical energy usage without compromising the comfort of the customer. The efficacy of energy management techniques that model water heaters and the accuracy of their simulation results rely on representative hot water usage profiles. A probabilistic data-driven model for modelling individualised hot water profiles and an accompanying hot water usage simulator is proposed in this thesis. The model is trained and evaluated using high quality data gathered from 77 residential households which is first refined by a data cleaning process. A hot water demand predictor is also developed on top of the probabilistic model to predict future hot water profiles that can be used for optimisation. A novel dynamic programming (DP) approach is presented to achieve optimal control of a single node EWH. To accommodate the natural stratification that occurs, a novel A* search algorithm approach is also presented to achieve optimal control of an EWH with stratification. The DP and A* approaches produce the optimal plan for hot water usage profiles with perfect foreknowledge of water drawn from the EWH. The A* approach is further utilised to produce an optimal plan for the hot water usage profile when water drawn is predicted. All three conditions are tested with a simulator that is equipped with a novel temperature feedback controller to minimise the effects of mispredictions and model inaccuracies between the optimal planning and the execution, and a reactive water mixer to simulate the user behaviour. Three strategies are explored for optimal control of domestic water heating that do not depend on the default thermostat control, namely: matching the delivery temperature in the hot water; matching the energy delivered in the hot water; and a variation of the second strategy which provides for Legionella sterilisation. For each of these strategies we examine the energy used in heating, the energy delivered at the tank outlet, and issues of convenience to the user to determine how much energy an EWH can save. It was concluded that the most energy savings is achieved when the energy matching strategy is used, where 21.9 % is saved when water usages are perfectly known and 9.6 % is saved when they are predicted.
- ItemUsing the internet of things for greenhouse temperature prediction, management, and statistical analysis(Stellenbosch : Stellenbosch University, 2023-12) Hull, Keegan; Booysen, Thinus; Stellenbosch University. Faculty of Engineering. Dept. of Electrical and Electronic Engineering.ENGLISH ABSTRACT: Unpredictable weather patterns caused by climate change are impacting agricultural productivity worldwide. This threatens sustainability and may lead to food insecurity, especially in developing regions. Affluent countries can afford costly investments toward mitigating the effects of climate change on food production. However, poorer countries tend to lag behind due to the lack of resources. To improve climate resilience, evolving technologies, such as the Internet of Things (IoT), have been proposed and developed for climate-smart farming. In this thesis, a technological solution was presented in the form of a digital twin for temperature monitoring and control of a greenhouse tunnel. Further, an aeroponics trial in the tunnel is statistically analysed for temperature variations due to the fan and wet wall temperature regulatory systems. A greenhouse tunnel in Stellenbosch, South Africa was instrumented with a prototype system to monitor temperatures inside the tunnel and control the cooling fan and wet wall. A generic hardware solution was then designed, assembled, and used in place of the prototype system to prove the feasibility of such a system in agriculture in South Africa. An analytical model was derived using the measurements as validation of the model. An empirical model using the Support Vector Regression algorithm was then developed and was used as comparison to the analytical model. The study was successful in producing an analytical model that was accurate to an acceptable degree. This physics-based model produced an RMSE of 2.93°C and an R2 value of 0.8. An empirical model was also produced that can simulate internal temperatures to an RMSE value of 1.76°C and an R2 value of 0.9 for a one-hour ahead simulation, outperforming the analytical model. The statistical analysis of the aeroponics system also showed a strong relationship between the temperature inside the system and the distance from the fan and wet wall. Finally, two analytical models of the irrigation process in a single container in the aeroponics system produced accurate results for the cooling effect of the irrigation (R2=0.901), while the unexpected heating effect when the fan was off produced less accurate results (R2=0.718). Future work stemming from this research includes improved data-driven modelling, cloud integration of the generic hardware, and fewer assumptions in analytical thermal modelling of the tunnel and container systems.
- ItemWhat the eye doesn’t see : using infrared to improve face recognition of individuals with highly pigmented skin(Stellenbosch : Stellenbosch University, 2022-12) Muthua, Alex; Theart, Rensu; Booysen, Thinus; Stellenbosch University. Faculty of Engineering. Dept. of Electrical and Electronic Engineering.ENGLISH ABSTRACT: Face recognition technology has become commonplace in security and access control applications. However, their performance leaves a lot to be desired when working with highly pigmented skin tones. One reason for this is the training bias introduced by under-representation in existing datasets. The other is inherent to pigmentation – darker skins absorb more light and therefore could reflect l ess d iscernible d etail i n t he v isible s pectrum. We s how how this can be enhanced by incorporating the infrared spectrum, which electronic sensors can perceive. We collect a database with images of highly pigmented individuals, captured using the visible, infrared and full spectra We fine-tune state-of-the-art face recognition systems and compare the performance of these three spectra. We also assess the impact of narrow and wide cropping, different facial orientations, and sunlit and shaded conditions. We find a marked improvement in the accuracy and in the AUC values of the ROC curves when including the infrared spectrum, with performance increasing from 97.5% to 99.1% for highly pigmented faces. Including different facial orientations and narrow cropping also improves the performance, and can therefore be deemed as recommended best practices. Analysis of the activation maps of the CNNs finds t hat fi ne-tuning mo dels ac tivate mo re ge nerally ov er al l re gions of the face while models with pre-trained weights, focus on fewer features with higher activation intensity values over those regions. In both cases, the nose region appears as the most important feature for face recognition for highly pigmented faces.