Sardar Zafar Iqbal scite author profile

Acquiring academic accreditation for degree programs is a top priority for universities across the world. This is understandable because accreditation not only leads to better content and delivery of these programs but also allows these institutes to acquire good quality students and faculty members. One respectable body that has the mandate to accredit computing programs is the Accreditation Board for Engineering and Technology (ABET). In this paper, we provide the details of our assessment and evaluation strategies for ABET-defined student outcomes (SOs) of computer science and computer information systems programs. The assessment is mainly carried out through a range of direct and indirect assessment methods, including summative data analysis, formative data analysis, exit exam, faculty survey, and alumni survey. Then, data gathered from these sources is aggregated and analyzed to quantify the attainment of SOs. This also forms the basis of the continuous improvement process activities that are the cornerstone of any accreditation-related activity. While presenting this, this paper provides details on the challenges that were faced during the process. The most important contribution includes strategies that were adopted to tackle these issues. A unique aspect of our institute is the academic environment that consists of segregated male and female students and faculty members in order to respect the cultural norms of the society. Another contribution of this paper is that it acts as a guide for institutes and their management that plan to embark upon the journey of accrediting their computing programs.

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IoT-Based Solutions to Monitor Water Level, Leakage, and Motor Control for Smart Water Tanks

Jan

Min‐Allah

Saeed

et al. 2022

Water

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Today, a large portion of the human population around the globe has no access to freshwater for drinking, cooking, and other domestic applications. Water resources in numerous countries are becoming scarce due to over urbanization, rapid industrial growth, and current global warming. Water is often stored in the aboveground or underground tanks. In developing countries, these tanks are maintained manually, and in some cases, water is wasted due to human negligence. In addition, water could also leak out from tanks and supply pipes due to the decayed infrastructure. To address these issues, researchers worldwide turned to the Internet-of-Things (IoT) technology to efficiently monitor water levels, detect leakage, and auto refill tanks whenever needed. Notably, this technology can also supply real-time feedback to end-users and other experts through a webpage or a smartphone. Literature reveals a plethora of review articles on smart water monitoring, including water quality, supply pipes leakage, and water waste recycling. However, none of the reviews focus on the IoT-based solution to monitor water level, detect water leakage, and auto control water pumps, especially at the induvial level that form a vast proportion of water consumers worldwide. To fill this gap in the literature, this study presents a review of IoT-controlled water storage tanks (IoT-WST). Some important contributions of our work include surveying contemporary work on IoT-WST, elaborating current techniques and technologies in IoT-WST, targeting proper hardware, and selecting a secure IoT cloud server.

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Improving Learning Experience of Students by Early Prediction of Student Performance using Machine Learning

Gull

Saqib

Iqbal

et al. 2020

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An Empirical Study of Mobile Commerce and Customers Security Perception in Saudi Arabia

et al. 2022

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Digital transformation of businesses has seen tremendous growth recently, moreover, COVID-19 has increased online shopping. However, it is important for businesses that customers’ online shopping experience is secure and joyful. In this paper, customers’ security perception regarding some leading mobile commerce applications in Saudi Arabia is explored. Our survey questions focused on three aspects, namely: Consumer rating, trustworthiness, and credit card security. The results highlight that consumers perceive that mobile commerce applications in Saudi Arabia need further improvement in security. In this work, a model to improve customers’ security perception in Saudi Arabia is presented. This model can be generalized to other geographical regions as well. The model outlines different actions for practitioners and policymakers that help in improving security infrastructure, authentication mechanisms, and trustworthiness.

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Severity Prediction of COVID-19 Patients Using Machine Learning Classification Algorithms: A Case Study of Small City in Pakistan with Minimal Health Facility

Gull

Krishnasamy

Aldossary

et al. 2020

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