Phak Len Al Eh Kan
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Preferred name
Phak Len Al Eh Kan
Official Name
Phak, Len Al Eh Kan
Alternative Name
Ehkan, Phaklen
Kan, P. L.Eh
Ehkan, Phak Len
Ehkan, P. L.
Eh Kan, P.
Eh Kan, P.
Al Eh Kan, Phak Len
Eh Kan, Phaklen
Kan, P. Eh
Main Affiliation
Scopus Author ID
37005452000

Research Output
Now showing 1 - 3 of 3
  • Publication
    Topology Design of Extended Torus and Ring for Low Latency Network-on-Chip Architecture
    ( 2017-06-01)
    Ng Yen Phing
    ;
    Mohd Nazri Mohd Warip
    ;
    Phak Len Al Eh Kan
    ;
    Farah W. Zulkefli
    ;
    R Badlishah Ahmad
    In essence, Network-on-Chip (NoC) also known as on-chip interconnection network has been proposed as a design solution to System-on-Chip (SoC). The routing algorithm, topology and switching technique are significant because of the most influential effect on the overall performance of Network-on-Chip (NoC). Designing of large scale topology alongside the support of deadlock free, low latency, high throughput and low power consumption is notably challenging in particular with expanding network size. This paper proposed an 8x8 XX-Torus and 64 nodes XX-Ring topology schemes for Network-on-Chip to minimize the latency by decrease the node diameter from the source node to destination node. Correspondingly, we compare in differences on the performance of mesh, full-mesh, torus and ring topologies with XX-Torus and XX-Ring topologies in term of latency. Results show that XX-Ring outperforms the conventional topologies in term of latency. XX-Ring decreases the average latency by 106.28%, 14.80%, 6.7 1%, 1.73%, 442.24% over the mesh, fully-mesh, torus, XX-torus, and Ring topologies.
      35  4
  • Publication
    Toward Adaptive and Scalable Topology in Distributed SDN Controller
    ( 2023-03-01)
    Kelian V.H.
    ;
    Mohd Nazri Mohd Warip
    ;
    R Badlishah Ahmad
    ;
    Phak Len Al Eh Kan
    ;
    Fazrul Faiz Zakaria
    ;
    Mohd Zaizu Ilyas
    The increasing need for automated networking platforms like the Internet of Things, as well as network services like cloud computing, big data applications, wireless networks, mobile Internet, and virtualization, has driven existing networks to their limitations. Software-defined network (SDN) is a new modern programmable network architectural technology that allows network administrators to control the entire network consistently and logically centralized in software-based controllers and network devices become just simple packet forwarding devices. The controller that is the network's brain, is mostly based on the OpenFlow protocol and has distinct characteristics that vary depending on the programming language. Its function is to control network traffic and increase network resource efficiency. Therefore, selecting the right controllers and monitoring their performance to increase resource usage and enhance network performance metrics is required. For network performance metrics analysis, the study proposes an implementation of SDN architecture utilizing an open-source OpenDaylight (ODL) distributed SDN controller. The proposed work evaluates the deployment of distributed SDN controller performance on three distinct customized network topologies based on SDN architecture for node-to-node performance metrics such as delay, throughput, packet loss, and bandwidth use. The experiments are conducted using the Mininet emulation tool. Wireshark is used to collect and analyse packets in real-time. The results obtained from the comparison of networks are presented to provide useful guidelines for SDN research and deployment initiatives.
      2  30
  • Publication
    Received signal strength indication (RSSI) code assessment for wireless sensors network (WSN) deployed Raspberry-Pi
    ( 2017-03-06)
    Mohd Ilman Jais
    ;
    Thennarasan Sabapathy
    ;
    Muzammil Jusoh
    ;
    Phak Len Al Eh Kan
    ;
    Murukesan L.
    ;
    Ismail I.
    ;
    R Badlishah Ahmad
    Wireless sensor network (WSN) is commonly used for localization applications. Through sniffing receive signal strength indicator (RSSI) in WSN system, localization and connection to access point highest RSSI can be done automatically. In this paper, we propose Raspberry-Pi (RasPi), based best access point selection method utilizing RSSI metric. The RasPi brings the advantages of a personal computer (PC) to the domain of sensor network, which makes it the perfect platform for interfacing with a wide variety of external peripherals. This work aims to investigate various source codes deployed on RasPi for localization purpose by sniffing the RSSI metric. Consequently, comparative analysis of its key elements and performances with some of the currently available wireless sensor nodes have shown that despite few disadvantages, RasPi remains an inexpensive single board computer (SBC) which has been used very successfully in sensor network domain and diverse range of research applications.
      1  26