Browsing by Author "Vikneswaran, V."

Now showing items 1-4 of 4

    • A mini review of precision agriculture, integrated sensor networks and ai technologies in mitigating water scarcity in Zimbabwean agriculture 

      Tinotenda, M.; Munyaradzi, R.; Peter, M.; Rajkumar, P.; Vikneswaran, V. (БНТУ, 2025)
      The agricultural sector in Zimbabwe is dominated by smallholder farmers. They face severe water scarcity due to recurrent droughts and erratic rainfall. This mini-review focuses on the potential of combining together precision farming methods, integrated sensor networks, and artificial intelligence to try and combat these challenges. Monitoring parameters using sensors enables ...
      2026-01-14

    • Automating educational processes: boosting learning effectiveness and student engagement 

      Rajkumar, P.; Munyaradzi, C. R.; Vikneswaran, V.; Talon, G. (БНТУ, 2025)
      Robot Process Automation (RPA) has rapidly emerged as a revolutionary technology with immense potential to transform many industries, including education. Here we present an overview of RPA use within education settings and its effects on learning efficiency and student engagement. Recent advancements of RPA technology for education are discussed here, as are any limitations or ...
      2026-01-14

    • Cloud-native 5G standalone core with AWS-powered AI/ML analytics: enhancing telecom scalability and intelligence 

      Nigel, F. K.; Munyaradzi, C. R.; Musiiwa, P.; Rajkumar, P.; Vikneswaran, V. (БНТУ, 2025)
      Mobile operators have long relied on hardware-centric core infrastructures that are costly, rigid, and slow to scale. As 5G service demands increase, these systems create bottlenecks, necessitate expensive upgrades, and result in unused data. This study simulates a cloud-native 5G Standalone (SA) core on AWS integrated with AI/ML analytics. Cloud deployment ensures elasticity, ...
      2026-01-14

    • Design and construction of 12 V DC to 220 V AC power inverter 

      Munyaradzi, C. R.; Tatenda, M.; Bukelani, Musiiwa P.; Rajkumar, P.; Vikneswaran, V. (БНТУ, 2025)
      The purpose of this project is to design and construct a 12 V DC to 220 V AC inverter using components such as the TL494 PWM IC, MOSFET and a center tap transformer. The TL494 will serve as the oscillator responsible for generating a 50 Hz alternating electromagnetic field. The TL494 will be configured to produce a wave output at the desired frequency of 50Hz. This wave will be ...
      2026-01-14