Jung-Mo Yang scite author profile

Jung-Mo Yang

4Publications

5Citation Statements Received

90Citation Statements Given

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Affiliations

Loughborough University, Burroughs Wellcome Fund, Kookmin University

Publications

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Volumetric Concentration Maximum of Cohesive Sediment in Waters: A Numerical Study

Byun

Son

Yang

et al. 2014

Water

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Cohesive sediment has different characteristics compared to non-cohesive sediment. The density and size of a cohesive sediment aggregate (a so-called, floc) continuously changes through the flocculation process. The variation of floc size and density can cause a change of volumetric concentration under the condition of constant mass concentration. This study investigates how the volumetric concentration is affected by different conditions such as flow velocity, water depth, and sediment suspension. A previously verified, one-dimensional vertical numerical model is utilized here. The flocculation process is also considered by floc in the growth type flocculation model. Idealized conditions are assumed in this study for the numerical experiments. The simulation results show that the volumetric concentration profile of cohesive sediment is different from the Rouse profile. The volumetric concentration decreases near the bed showing the elevated maximum in the cases of both current and oscillatory flow. The density and size of floc show the minimum and the maximum values near the elevation of volumetric concentration maximum, respectively. This study also shows that the flow velocity and the critical shear stress have significant effects on the elevated maximum of volumetric concentration. As mechanisms of the elevated maximum, the strong turbulence intensity and increased mass concentration are considered because they cause the enhanced flocculation process. This study uses numerical OPEN ACCESSWater 2015, 7 82 experiments. To the best of our knowledge, no laboratory or field experiments on the elevated maximum have been carried out until now. It is of great necessity to conduct well-controlled laboratory experiments in the near future.

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An architecture for control and communications in distributed artificial intelligence systems

Yang

Huhns

Stephens

1985

IEEE Trans. Syst., Man, Cybern.

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A Study on the Enhancement of Network Survivability through Smart Sensor Technologies Convergence

Yang¹,

Kim²

2016

Journal of Digital Convergence

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Public Safty-LTE(Long Term Evolution) is being deployed in the direction of reducing cost by using both of municipal network and commercial network. However, LTE Network is difficult to ensure the survivability during the information communication infrastructure failures. In addition, it is vulnerable in communication coverage of inside buildings and underground. In this study, we propose to implement effectively the network survivability technique through the convergence to the proven technology. As the advent of the IoT Age, smart sensors which are embedded in the environment and the things will be able to provide a useful infrastructure for ensuring the network survivability. Based on the feature of the smart sensor, we designed the sink node architecture to guarantee the network survivability in disaster situation through the convergence of the small cell technology and extension of wireless network coverage technology. The computing power inherent in the environment is a valuable resource that can be utilized in the disaster situation.

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The Establishment of Disaster Communication System Through IoT Technology Convergence

Yang

Jeongho

2016

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Jung-Mo Yang

Volumetric Concentration Maximum of Cohesive Sediment in Waters: A Numerical Study

An architecture for control and communications in distributed artificial intelligence systems

A Study on the Enhancement of Network Survivability through Smart Sensor Technologies Convergence

The Establishment of Disaster Communication System Through IoT Technology Convergence

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