The Grove School of Engineering offers programs of study leading to Master of Science and Master of Engineering degrees in six areas:
Areas of study include arterial disease, bioheat transfer, bioimage processing and medical instrumentation, biomechanics of cervical spine, head, and neck injuries, biosignal processing, design and structural studies of biomaterials, hydrogels for controlled drug release, image perception, intercellular communication, microvascular exchange, orthopaedic biomechanics, rehabilitation engineering, renal transport, and soft tissue mechanics. Graduate students have the unique opportunity to conduct their dissertation research with mentors from either CUNY of any one of the hospitals partners in the New York Center for Biomedical Engineering Consortium in rapidly growing areas.
Areas of study include biomedical engineering, controlled drug release; transport phenomena, fluid mechanics, interfacial phenomena, boiling heat transfer, air pollution control, fluidization; powder technology; chemical reaction engineering; separation with partially miscible fluids; polymers and polymer films; computer-aided process design, simulation, economics; clean fuels, coal gasification.
Areas of study include transportation, earthquake engineering, reliability of bridges, soil-structure interaction, foundation engineering, wave propagation, fracture mechanics, composite structures, leachate treatment, municipal and industrial waste treatment including physicochemical and biological processes, water resources, surface water hydraulics and hydrology, remote sense application in natural resources forcasting, reservoir modeling, nonpoint source pollution, modeling of groundwater.
The Ph.D. Program in Computer Science is conducted as a consortium of seven senior colleges within the CUNY system, as well as the Graduate Center.
Areas of study include communications; computer networks engineering; photonics engineering, including optical communications, nonlinear optics, remote sensing and lidar for atmospheric and environmental studies; atmospheric solid state lasers; optical engineering; parallel processing; VLSI design; control and control system engineering; image and signal processing; multidimensional filter design.
Areas of study include fluid mechanics and turbulence, biomedical engineering, dynamics, machine dynamics, stress analysis, vibrations, microelectronic cooling, heat transfer, aerodynamics, turbo-machinery, robotics, computer simulation in manufacturing, materials, fracture mechanics, composite materials, and solid mechanics.