Gopinath Rao Sinniah scite author profile

Gopinath Rao Sinniah

5Publications

22Citation Statements Received

9Citation Statements Given

How they've been cited

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Affiliations

MIMOS (Malaysia), Sierra Wireless (Canada), Asian Institute of Medicine, Science and Technology

Publications

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Rapid development of smart parking system with cloud-based platforms

Suryady

Sinniah

Haseeb

et al. 2014

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Smart-parking system is one of necessary component to realize the concept of smart city, especially, in the era of Internet of Things (IOT). However, the traditional way of smart-parking development would have been complex, time consuming and prohibitive. On the other hands, in attempt to accelerate the adoption of Internet of Things, Internet Engineering Task Force (IETF) has been aggressively promoted the use of web services through implementation of Platform as a Service (PaaS) as it allows simple, quick and less complex application development. Therefore, in this paper we discuss the adoption of this approach to gain rapid development of smart-parking system. Furthermore, the integration of parking sensor with IOT middleware and frontend dashboard is also highlighted in this paper.

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Performance evaluation of 6LoWPAN-based precision agriculture

Suryady

Shaharil

Bakar

et al. 2011

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New Reassembly Buffer Management System in 6LoWPAN

et al. 2013

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Recently, Internet of Thing (IoT) appears to be a new paradigm for everything to be connected seamlessly to the Internet. One of the standards used to fit the low power devices into IoT is IEEE 802.15.4 wireless sensor network (WSN). To support IPv6 packet transmission over the IEEE 802.15.4 networks, the IPv6 over Low power Wireless Personal Area Network (6LoWPAN) adaptation layer is necessary. The 6LoWPAN adaptation layer divides the packet into a number of fragments before it is transmitted. At the receiver, these fragments will be reassembled to become the original packet. However, the existing reassembly process in the adaptation layer fails to consider the irregular arrival sequence of fragments which can cause the packet that has been reassembled to be corrupted. This serious impediment in reassembly mechanism can cause unacceptable packet lost. In this paper, a new reassembly mechanism namely Multi-Reassemblies Buffer Management System (MR-BMS) is proposed in the context of providing efficient 6LoWPAN packets reassembly. In this proposed mechanism multiple reassembly buffers are created dynamically such that multiple reassembly sessions can be processed simultaneously. Each reassembly session is responsible for a packet reconstruction. The performance of proposed MR-BMS is compared with RFC 4944-based reassembly mechanism and SICSlowPAN implementation. Results show that the proposed mechanism outperforms RFC 4944-based reassembly mechanism and SICSlowPAN implementation with 121.7% and 16.2% higher packet delivery ratio respectively when packet encountered more fragmentation. Moreover, the proposed MR-BMS has a comparable average energy consumption with other mechanisms.

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Performance evaluation of IEEE802.15.4 6LoWPAN gateway

Khoshdelniat

Sinniah

Bakar

et al. 2011

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Autonomic protocol and architecture for devices in Internet of Things

Ashraf

Habaebi

Sinniah

et al. 2014

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With the advancement taking place in communication technologies, Internet of Things (IoT) is expected to play a major role in realizing smartness and functionality needed for applications such as Smart Homes and Electrical Smart Grids. However, in order to achieve that far reaching goal, select concepts of computing autonomy have to be suitably ported to IoT architecture. Recently reported works describe various frameworks, models and protocols for computing autonomy. Some others focus more on the practical implementation of autonomy using self-star (self-*) behavior in end nodes. This work proposes an autonomic architecture for IoT based on IBM's autonomic framework. An accompanying protocol for service communication is also presented. Preliminary tests prove its suitability in an IoT environment from the perspective of energy conservation for the network.

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