Mr ShahzadSejong University | sejong · Department of Intelligent Mechatronics Engineering
Mr Shahzad
Master of Computer Engineering
About
11
Publications
1,405
Reads
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35
Citations
Introduction
Shahzad currently works at the Department of Computer Engineering, Hongik University, Sejong. Shahzad does research in the area of Software Defined Networking. Their current project is "Large-scale IoT streaming data processing using software switches and controllers"
Skills and Expertise
Additional affiliations
February 2016 - August 2018
Position
- Engineer
Description
- As a Lab Engineer my responsibilities were to conduct undergraduate Labs in the department of Electrical Engineering, CUI Attock campus.
February 2016 - August 2018
Education
September 2018 - August 2020
September 2011 - July 2015
Publications
Publications (11)
Sliding-window random linear network coding (RLNC) is a good fit for achieving low in-order delivery delay in future-generation networks characterized by lossy links. In high bandwidth-delay product networks, however, the issue of integrating RLNC with transmission control protocol (TCP) flow and congestion control poses a significant challenge. In...
Tactile Internet (TI) has very stringent networking requirements and the transport layer plays a crucial role in meeting these requirements. However, the transport layer has several inherent limitations (e.g., bufferbloat, incast issue, and head of line blocking) due to which the performance of the current transport layer solutions is not optimal....
With the advancement in next-generation communication technologies, the so-called Tactile Internet is getting more attention due to its smart applications, such as haptic-enabled teleoperation systems. The stringent requirements such as delay, jitter, and packet loss of these delay-sensitive and loss-intolerant applications make it more challenging...
With the inclusion of tactile Internet (TI) in the industrial sector, we are at the doorstep of the tactile Industrial Internet of Things (IIoT). This provides the ability for the human operator to control and manipulate remote industrial environments in real-time. The TI use cases in IIoT demand a communication network, including ultra-low latency...
The progress of the network and device technologies enables any device to be connected to the Internet thereby forming an Internet of Things (IoT) architecture. Internet-related activities based on the IoT services can inevitably generate a lot of real-time data which leads a big data phenomenon. To efficiently handle such big IoT data, software-de...
In current TCP/IP networks, TCP mainly relies on packet drops as an indication of congestion. With the emergence of Explicit Congestion Notification (ECN), TCP can detect the congestion through packets with marked bits instead of dropped packets. ECN thus reduces the unnecessary delay due to packet drops, especially for bandwidth-delay sensitive co...
With the rapid increase in smart objects forming IoT fabric, it is inevitable to see billions of devices connected together, forming large-scale IoT networks. This expeditious increase in IoT devices is giving rise to increased user requirements and network complexity. Collecting big data from these IoT devices with optimal network utilization and...
The progress of the network and device technologies enables any device to be connected to the Internet thereby forming an Internet of Things (IoT) architecture. Internet-related activities based on the IoT services can inevitably generate a lot of real-time data which leads a big data phenomenon. To efficiently handle such big IoT data, software-de...
