School of Engineering at Vanderbilt University

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	Research centers, institutes & groups Center for Intelligent Mechatronics The Center focuses on the design and control of electromechanical devices. Research areas include Design, modeling and control of electromechanical devices and systems Modeling and control of smart material actuators such as piezoelectric ceramic and shape memory alloy Control of bilateral and scaled bilateral telemanipulation systems Design and control of haptic interfaces Conventional-scale and small-scale manipulator design and control Design and characterization of compliant-mechanism-based robots and devices Design and control of self-contained pneumatic actuation systems.
	Center for Intelligent Systems (CIS) CIS conducts research into intelligent systems, including topics of: Human-robot symbiosis Humanoid robots Personal and service robots Human-robot interface Sensory Ego-Sphere Mobile robot navigation Vision, image and signal processing systems Biologically inspired robot control Affect-based robot control Modeling, simulation, and diagnosis Holonic manufacturing Remote manufacturing systems Center for Technology-Guided Therapy is a multidisciplinary partnership between the School of Engineering and the School of Medicine. Research areas include: Spatial extent, location and structure of diseased area Guidance of the delivery of therapy in space and time; Tracking of tissue changes in time and space during the course of therapy Consortium for Risk Evaluation with Stakeholder Participation (CRESP) Vanderbilt leads the Remediation and Mitigation Technology center of expertise CRESP, which works to advance cost-effective cleanup of the nation's nuclear weapons production waste sites and test facilities. Research areas include: Exposure assessment Remediation and mitigation technology Socioeconomic impact assessment Public policy Human health Ecology Institute for Software Integrated Systems (ISIS) conducts research on: Embedded system tools and applications Adaptive hardware and software systems Diagnostics of complex systems Generic support for visual modeling Model integrated computing Modeling languages Semantic integration of design tools Synthesis and generation of software and hardware Techniques for managing complex design spaces Verification of complex finite-state systems Institute for Space and Defense Electronics studies radiation effects for strategic applications for government and commercial customers. Topic areas include: Design and analysis of radiation-hardened electronics Development of test methods and plans for assuring radiation hardness Development of solutions to system-specific problems related to radiation effects Laser Diagnostics and Combustion Group studies the phenomenon of combustion. The Group studies and develops techniques related to: Laminar flames Turbulent combustion Ozone Tagging Velocimetry Radiation Effects and Reliability Group studies the performance of advanced integrated circuits in space environments. Topics of study include: Analysis of single event phenomena in submicron CMOS complex combinational circuitry Total dose ionizing radiation effects on advanced CMOS and bipolar devices and circuits Modeling off the single-event collected charge and current pulse at the device and circuit levels Low-dose rate effects in solid-state devices and circuits Development of simulation tools to understand and predict single-event probabilities at the circuit level Application of computer simulation tools to radiation effects Characterization of devices and parameter extractions Measurement and analysis of ionization radiation effects on interface traps and carrier mobilities in solid-state devices Test methods for predicting survival of electronics in space Design and simulation of termination structures Heavy ion single-event burnout and single event gate rupture modeling for MOSFET and bipolar power devices Vanderbilt Center for Environmental Management Studies (VCEMS) VCEMS conducts research into: Methods and management practices to reduce environmental risk Environmental management executive knowledge and awareness training National leadership summits that address emerging environmental management topics Environmental management fundamentals that are currently not well-established in organizations. Vanderbilt Engineering Center for Transportation Operations and Research (VECTOR) VECTOR conducts research on: Geographical information systems for transportation Intelligent transportation systems Routing and logistics Hazardous materials transport Traffic engineering Highway safety Mass transit planning Vanderbilt Institute for Integrative Biosystems Research and Education conducts research on: Instrumenting and Controlling the Single Cell will provide new insights into post-genomic and post-proteomic physiology, drug delivery and toxicology Technology Guided Therapy gathers information about the patient and the disease and directs therapy to maximize the treatment of the disease while minimizing the effect on the patient Biomedical Imaging uses functional MRI and other modalities to learn about human and animal anatomy, physiology and pathology The VaNTH NSF ERC is aimed at developing the bioengineering educational system of the immediate future. It seeks to integrate learning science, learning technology and the domain areas of bioengineering Vanderbilt Institute of Imaging Science supports research leading to the development and application of new and enhanced biomedical imaging techniques. Research areas include: Functional and structural brain imaging Radiation dosimetry NMR fundamentals Diffusion and perfusion NMR spectroscopy Metabolic imaging Image analysis and processing Clinical MRS and MRI Vanderbilt Institute of Nanoscale Science and Engineering conducts research on: Properties affected by nanoscale dimensions Atomic manipulation, coupling of properties at the nanoscale Controlled synthesis, fabrication and processing at the nanoscale Nanoscale precursors and assembly, nanostructure arrays, fullerenes, carbon nanotubes and organic nanostructures Quantum dots, quantum wires, quantum wells, superlattices Nanoelectronics, single electron electronics and devices, molecular electronics, quantum computing Nanomechanics, nanobiological function and life sciences Nanoscale instrumentation and characterization Nano-optics, photonic crystals with nanoscale structural fidelity Vanderbilt-Northwestern-Texas-Harvard/MIT (VaNTH) Engineering Research Center for Bioengineering Educational Technologies conducts research on: Intersection of learning science, learning technologies, and the domains of bioengineering Determination of range of knowledge encompassed by bioengineering Structure of knowledge in major bioengineering domains Principles of modular design for teaching materials Development of assessment methods to determine the effectiveness of new learning materials Development of technology to support courseware authoring and delivery Vanderbilt's School of Engineering is also home to: Biomedical Modeling Laboratory Biomedical Optics Computational Nanoscience and Molecular-Based Engineering Medical Image Processing Laboratory Tennessee Space Grant Consortium Complete list of School laboratories