Academic Profile : Faculty

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Assoc Prof Soong Boon Hee
Associate Professor, School of Electrical & Electronic Engineering
Dr. Soong Boon-Hee received his B.Eng. (Hons I) degree in Electrical and Electronic Engineering from University of Auckland, NEW ZEALAND and a Ph.D. degree from the University of Newcastle, AUSTRALIA, in 1984 and 1990 respectively. He is currently an Associate Professor with the School of Electrical and Electronic Engineering, Nanyang Technological University. From October 1999 to April 2000, he was a Visiting Research Fellow at the Department of Electrical and Electronic Engineering, IMPERIAL COLLEGE, UK under the Commonwealth Fellowship Award. He was awarded the Tan Chin Tuan Fellowship in 2004 and visited DUKE University, USA. He also served as a consultant for Mobile IP in a technical field trial of Next-Generation Wireless LAN initiated by IDA (InfoComm Development Authority, Singapore) and other organisations e.g. Singapore Technologies and Defence Science Organisation. He has supervised a number of postgraduate students and postdoctoral researchers in the area of mobile and wireless communication networks. He has been teaching a number of subjects related to the field of Network Performance Analysis, Wireless Communications and Digital Communications. He has published a total more than 100 international journals and conferences papers. He is a Senior member of IEEE and a member of ACM.
Research interests in the area of Ad Hoc and Wireless Sensors Networks, Mobility Management, Network Planning and Capacity Optimisation, and Adaptive Video Rate Control.
 
  • Enhanced Cementitious Matrix for Beyond 5G and 6G Networks
US 2016/0242244 A1: Lighting Control Method And System (2017)
Abstract: Various embodiments provide a method of controlling a lighting device to generate light of a desired natural scene. The lighting device may include a plurality of warm white LEDs having a first intensity range and a plurality of cool white LEDs having a second intensity range. The method may include dividing each of the first intensity range and the second intensity range into a predetermined number of intensity levels; initializing the plurality of warm white LEDs to a first intensity level and initializing the plurality of cool white LEDs to a second intensity level, the first intensity level and the second intensity level being determined based on the desired natural scene; iteratively adjusting at least one of the intensity level of the warm white LEDs or the intensity level of the cool white LEDs by at least one level in each iteration, until the light generated by the lighting device matches a desired correlated color temperature predetermined for the desired natural scene; and iteratively adjusting at least one of the intensity level of the warm white LEDs or the intensity level of the cool white LEDs, until the light generated by the lighting device matches a desired illuminance predetermined for the desired natural scene.