Zaiba Shah's research while affiliated with COMSATS University Islamabad and other places
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Publications (3)
Unmanned aerial vehicles (UAVs) are considered for disaster management to provide better coverage or help first responders provide advanced services. Furthermore, UAVs combined with mobile edge computing (MEC) capabilities, have recently emerged as a support for cloud computing by deploying UAV-assisted MEC at the network edge to reduce the latency...
Recently, unmanned aerial vehicle (UAV)-assisted mobile edge computing (MEC) networks are considered to provide effective and efficient solutions for disaster management. However, the limited size of end-user devices comes with the limitation of battery lives and computational capacities. Therefore, offloading, energy consumption and computational...
Unmanned aerial vehicles (UAVs) have huge potential in empowering new applications in different areas ranging from military to medical applications and traffic control to the entertainment information industry. There has been overwhelming interest in improving UAVs and multi-UAVs frameworks to collaborate and complete all missions efficiently. UAVs...
Citations
... In the context of 5G/B5G networks where high data rates and low latency are critical, leveraging energy-efficient communication technologies such as FD transmissions not only saves energy but also improves spectral efficiency and network capacity [30]. This synergy between energy efficiency, UAV communications, and advanced network technologies is vital for unleashing the full potential of UAVs in the digital era, enabling innovative solutions and services with far-reaching societal and economic impacts [35]. ...
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... A novel paradigm, the unmanned aerial vehicle (UAV)-aided MEC has recently garnered significant attention from both academia and industry. UAVs provide on-demand deployment, cost-effectiveness, controllable maneuverability, high cruising altitudes, and line-of-sight (LoS) connectivity, making them ideal platforms for edge computing [11]. This approach complements terrestrial networks, particularly when the ground base station (GBS) servers are overloaded or unavailable. ...
... It exist another types, known as "failure minimization" or "outage," focuses on minimizing unsatisfied users who havn't achieved their minimum required thoughput. Several studies have been conducted in this area, including references [24][25][26][27][28][29][30]. ...
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