Soochang Park scite author profile

The cluster between Internet of Things (IoT) and Social Networks (SN) enables the connection of people to the ubiquitous computing universe. In this framework, the information coming from the environment is provided by the IoT, and the SN brings the glue to allow human-to-device interactions. This article explores the novel paradigm for ubiquitous computing beyond IoT, denoted by Social Internet of Things (SIoT). Although there have been early-stage studies in social-driven IoT, they merely use one or some properties of SIoT to improve a number of specific performance variables. Therefore, this article first addresses a complete view on SIoT and key perspectives to envision the real ubiquitous computing. Thereafter, a literature review is presented along with the evolutionary history of IoT research from Intranet of Things to SIoT. Finally, this article proposes a generic SIoT architecture, and presents a discussion about enabling technologies, research challenges, and open issues.

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Efficient Hole Detour Scheme for Geographic Routing in Wireless Sensor Networks

Park

Tian

et al. 2008

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Geographic routing has been addressed in many literatures of ad hoc sensor networks due to its efficiency and scalability. Void areas (holes) bring Geographic routing some problems such as data congestion and excessive energy consumption of hole boundary nodes. Holes are hardly avoided in wireless sensor networks due to various actual geographical environments, e.g., puddles, buildings or obstacles, or uneven energy consumption, even physical destruction. To bypass a hole, most existing geographic routing protocols tend to route data packets along the boundary of the hole by perimeter routing scheme. This scheme, on one hand, consumes more energy of the nodes on the boundary of the hole, thus possibly enlarging the hole, we call this hole diffusion problem; on the other hand, it may incur data congestion if multiple communication sessions are bypassing the hole simultaneously. In this paper, we propose Efficient Hole Detour Scheme to solve the hole problems faced by geographic routing in wireless sensor networks. Simulation results show that the proposed protocol is superior to other protocols in terms of packet deliver ratio, control overhead, average delivery delay, and energy consumption.

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Elastic routing: a novel geographic routing for mobile sinks in wireless sensor networks

Park

Lee

et al. 2010

IET Commun.

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Dynamic Social Structure of Things: A Contextual Approach in CPSS

Hussein

Park

Han

et al. 2015

IEEE Internet Comput.

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Soochang Park

The Cluster Between Internet of Things and Social Networks: Review and Research Challenges

Efficient Hole Detour Scheme for Geographic Routing in Wireless Sensor Networks

Elastic routing: a novel geographic routing for mobile sinks in wireless sensor networks

Dynamic Social Structure of Things: A Contextual Approach in CPSS

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