Recent research at the Advanced Visualization and Interactive Systems Lab includes animal modeling and animation, environmental visualization, isosurfaces, d.v.r., hierarchies, irregular grids, massively parallel volume rendering through the net, uncertainty visualization, virtual reality in scientific visualization, nomadic collaborative visualization, tensor visualization, and flow visualization.
The research interests of the Applied and Nano-optics group cover a wide range with an emphasis on experimental nanoscale optics. We are developing new methods and devices for optical studies of single particles such as molecules, photons, or nanomagnets. To this end we are using a wide variety of optical and nanoscale characterization techniques such as time-correlated single photon counting, ultrafast laser spectroscopy, or scanning probe microscopy. Applications of our research include integrated biomedical sensors, high-density magnetic memory, or single-photon light sources and detectors.
The Autonomous Systems Lab (ASL) is one of the labs at UCSC that tackles problems of robotics and control, typically within the context of autonomous systems. This includes Guidance, Navigation and Control (GNC), GPS research, Path Planning for unmanned vehicles, Sensor Fusion, Attitude Estimation, System Identification, and Robust Software Design for Real-Time Reactive Systems. The overarching theme of ASL research has been to radically reduce cost (and hence increase the ubiquity) of Robotics and Autonomous Systems by adding increased sophistication and processing power (cheap) and reducing the quality and quantity of sensors (expensive). The ASL is directed by Professor Gabriel Hugh Elkaim of the Computer Engineering Department at UCSC.
The Computer Communication Research Group (CCRG) is dedicated to basic and applied research in computer communication. CCRG research focuses on new algorithms, protocols, and architectures for wireless networks based on packet switching (i.e., packet-radio networks), internetworking, multipoint communication, and the control of resources by multiple administrative authorities.
Database research, projects and seminars at the Baskin School of Engineering. [MORE]
Research in software and system design methods, embedded software design, software and system verification, game theory, formal methods.
We are creating a consistent 4-dimensional space-time visualization of geospatial data and intelligence associated with the environment. This task requires intelligent collection of data using various sensors including a variety of cameras, LIDAR data, and multispectral imagery in all kinds of frequenecy bands. The spatio-temporal GIS (Geographic Information System) visualization system will bring together several layers of information including terrain data, street maps, buildings, environment data, aerial images, and mobile objects data.
The GRASE laboratory performs research in the areas of software evolution and reengineering, and software configuration management. Current areas of research include identifying unstable areas of evolving software, automatic generation of software configuration management repositories, and development of Web-based versioning and configuration management infrastructure.
The Hybrid Systems Laboratory (HSL) focuses on the analysis of hybrid dynamical systems and the design of hybrid feedback control algorithms. The research approach is mainly theoretical with numerical validation via simulations (though experimental validations of findings at an on-site testbed are performed at times). Particular emphasis is given to dynamical systems with nonlinear hybrid dynamics, cyber-physical systems, and feedback systems with decision-making strategies emerging in the areas of robotics, aerospace, power systems, and biology.
The IRKM Lab is dedicated to basic and applied research in information retrieval and data mining. Current research projects include developing a proactive information retrieval, adaptive information filtering, and collaborative personalized search, recommendation and advertising.
The Internetwork Research Group ( i-NRG ) at UC Santa Cruz conducts research in the design, experimental evaluation, and implementation of network protocols for internetworks consisting of wired as well as wireless networks. Our research activities, span a number of areas in computer networks and distributed systems.
Research on computer architecture with special focus on are energy/performance trade-offs, thread level speculation, simulation tools, FPGAs, and design complexity.
The Multidimensional Signal Processing (MDSP) Research Group interests are in the area of inverse problems in imaging, statistical detection and estimation, and associated numerical methods. Current projects include image resolution enhancement and super-resolution, computationally efficient image motion estimation, shape reconstruction from local and global geometric data, multiscale modeling and analysis of signals and images, radon transform-based algorithms for deformation analysis and dynamic imaging, image processing and inverse problems in remote sensing, and automatic target detection and recognition. The MDSP group is directed by Visiting Professor Peyman Milanfar of the Electrical Engineering Department at UCSC.
The Network Management and Operations Laboratory (NMO Lab) is focused on addressing real-world problems in complex networks, in a variety of topics that include quality of service, customer support, and intelligent and automated management of network devices. Industry funding for the NMO Lab comes via a partnership with Cisco. Through Cisco support, students (undergraduate and graduate students) and faculty advisors in SOE are engaged with Cisco engineers to work on problems in operational networks.
Research includes stochastic control, multi-robot systems, redundant systems, and air traffic optimization.
Composed of faculty from both the computer science and computer engineering departments, the Computer Systems Laboratory focuses on caching, storage systems hierarchies, wide-area distributed systems, security and performance.
The Systems Research Lab (SRL) is part of the Jack Baskin School of Engineering at the University of California, Santa Cruz. The SRL is interested in a broad range of topics including real-time systems, performance management, and large-scale storage systems. We are particularly interested in the intersection of these topics, and in their application to problems requiring inter-disciplinary collaboration. The SRL is composed of a broad range of students and collaborators from industry, government research labs, and other universities.
Broadband communications research at the Baskin School of Engineering.
The UCSC Computer Vision Lab explores several aspects of computer vision, image processing, and sensor signal processing, including mobile vision, assistive technology for persons with visual impairment, visual tracking, 3-D vision, computational photography, and surveillance.
The UCSC Scientific Visualization Laboratory provides the means for creating visualizations from scientific data. Projects include a simulation of an "extensive air shower" striking the Milagro detector at Los Alamos National Lab, representing a subsonic flow over a delta wing aircraft, a demonstration of direct volume rendering on a multiply-gridded space shuttle launch vehicle, an N-body simulation of large-scale structure in the universe, and a representation of a diving whale based on location data from a Monterey Bay tagging experiment.
The VLSI Design Automation (VLSI-DA) group researches Integrated Circuit (IC) design and Computer-Aided Design of ICs. A specific emphasis is on the physical implementation and timing closure considering variability and reliability.