At NYUAD research crosses the boundaries of traditional engineering disciplines and encompasses broad interdisciplinary areas that embody key characteristics of our age. The faculty are involved in new and emerging technological fields, such as bioengineering, nanotechnology, microfabrication, smart materials, and cyber security. Their research is built around the three thematic research areas discussed below.
Biomedical and Health Systems concerns the science of health and wellness to unlock the mysteries of disease and genetic maladies and the engineering technology that is the bridge to deliver healthcare to people. The engineering aspects of this vast field of study include the interfacing of engineered systems with biological and anatomical systems; the measurement of physiological parameters; bio-sensing and detection of disease, disease agents, and impending failures; imaging; delivery of targeted therapeutics; and others. The use of computational techniques in organizing and interpreting the great volume of data being collected worldwide, including genetic information, and algorithms to predict disease markers and therapeutic molecules is a new and powerful technological advance in this field. Biomaterials, bio-compatible materials and bioresorbable materials, micro-biodevices, and use of wireless and computer technologies in patient care round out some of the multidisciplinary areas that draw from several different traditional engineering disciplines.
Information, Communication, and Electronic Systems (ICE) concerns electronic hardware and software technologies of the global information economy. These technologies are the enablers of social and economic change, and provide the tools to manage such change and institutional complexity in a digital environment. Systems that use electronic and computational hardware and software permeate every sphere of human life and are at the core of every modern engineered system. This exciting area includes the design of circuits, chips, and devices; integration and interfacing of component building blocks into large systems and networks; and development of data management and manipulation algorithms, database systems, communication protocols, computer architecture, signal processing, and the like. Applications such as network security, information and cyber security, telecommunications, automation, measurement and actuation, digital control, and digital robotic systems are also considered in the set of offerings in the curriculum.
Urban Systems concerns the technological challenges and innovations for the smooth functioning and sustaining of urban centers. Earth is increasingly becoming an urban planet; for the first time in history, more than 50 percent of the world's population now lives in cities. The challenges associated with a sustainable, engaging, and harmonious urban environment require a multidisciplinary approach that integrates various technologies and disciplines. The program examines urban infrastructure design, monitoring, and management; smart materials; power systems; energy efficiency; transportation planning and management; security and safety; telecommunications; resource usage and recycling; supply chains; environmental engineering; and other engineered systems that have an impact on urban living.
Explore NYUAD Engineering Research
- Advanced Microfluidics and Microdevices Laboratory
Mohammed A. Qasaimeh, Assistant Professor of Mechanical & Biomedical Engineering
- Applied Interactive Multimedia Lab
Mohamad Eid, Assistant Professor of Practice of Electrical Engineering
- Micro- and Nanoscale Bioengineering Group
Yong A. Song, Assistant Professor of Mechanical & Biomedical EngineeringDesign for Excellence Lab