Research

The Infrastructure Sustainability and Assessment Center (ISAC) is the leading source for regional expertise in material durability and service life assessment. The Center, established in 2010, is headed by Dr. Mohamad Nagi, an internationally-renowned expert in durability of concrete material.

At the individual faculty level, the research programs in the School of Engineering build upon partnerships between the faculty and a number of industry, government, and international agencies. The School of Engineering faculty members boast a strong record of publications in refereed journals and international conferences, and are at the forefront of local and regional research activities. Our strategic objective is to conduct research that is relevant to the local and regional communities while contibuting to science and our profession. Below are representative research projects that are underway in the School of Engineering.

Wireless Cooperative Sensor Networks

Dr. Hamid Shafiee’s research work encompasses various issues in wireless communication, especially in wireless cooperative/sensor networks. Space-time codes over multiple antenna systems provide diversity and coding gains over wireless fading channels. When employing more than one antenna at each node of a wireless network is not feasible, data transmission from a source node to the destination can be carried out using relay terminals. Such a cooperative strategy in effect forms a virtual antenna array with potentially substantial diversity gains. Since cooperative networks are inherently power-limited, communication from the source to the destination should be done with minimum transmission power, subject to the network Quality of Service (QoS) measure being maintained. Of special importance in the development of cooperative/sensor networks is the design of efficient and practical algorithms for network configuration. This means that, for transmitting data from a source to a destination, a set of terminals need to be selected as relays, so that the desired QoS measure is maintained. One of the objectives of this research work is to develop novel routing strategies for wireless cooperative/sensor networks.

Satellite-Based Environmental Monitoring System

Professor Hosni Ghedira is partnering with the Emirates Institution for Advanced Science and Technology (EIAST) to establish a world-class environmental observation and monitoring program. Dr. Ghedira's current research activities with EIAST focus on developing new satellite-based tools to forecast detect and monitor different environmental hazards in the UAE and the Gulf region. Currently, four engineers and graduate students are working on 3 different research projects: sandstorms, fogs and coastal water pollution. One of the ongoing research projects is the development of a satellite-based tool for forecasting, detection and classification of fog events in Dubai metropolitan area and in UAE main roads and highways. Fog maps are generated for reflectance values in order to classify each fog event into different density levels. The DubaiSat satellite system, the first spatial program in the Middle East dedicated to environmental observation and monitoring, will launch its first platform, DubaiSat-1, in early 2009. The new satellite data, combined with existing earth observation satellites, will provide potentially significant enhancements to the predictive capabilities of the existing environmental models as well as improved capabilities for monitoring and predicting natural hazards such as sandstorms, land degradation, desertification and droughts.

Strength and Deformation Response of Calcareous Sand

Calcareous sand is abundant in the Gulf region and is used for construction of reclaimed land off the shore of Dubai. Dr. Alaa Ashmawy is examining the effect of shape and angularity of highly angular calcareous sand on the mechanical response using Discrete Element Methods (DEM). One limitation of currently-available DEM software is its inability to model irregular particle shapes. To this end, angular particle tranformation algorithms have been developed to reconstruct each particle into clumps of spherical elements for use in DEM models. In addition, Dr. Ashmawy is conducting collaborative research with Keller Grundbau to examine the in-situ shear strength of calcareous sand deposits using CPT.