Research Centers and Labs
Laboratories
Campus Location: CAMP 228
Faculty: Michael Bazzocchi
Description: The Astronautics and Robotics Laboratory explores advanced concepts and performs innovative and transformative research in science and engineering. ASTRO实验室培养高素质的研究人员和工程师, develops new technologies, 并为航天问题提供了新的解决方案, robotics, and society.
Campus Location: Clarkson Science Center 250
Faculty: Erik Bollt
Description: 我们专注于应用动力系统, 特别是从数据集得知, computation and experiments. 这与数据科学有很大的重叠, big data, network science, 反问题方法(包括优化), 不确定性量化和贝叶斯观点, information theory, 机器学习和模型简化相关的问题. 我们对动力系统的兴趣, data analysis and scientific computing have included both topical developments and pursuant scientific applications. 这使我们能够与许多令人兴奋的领域的科学家和问题进行互动. Topical interests in dynamical systems and complex systems come through “data enabled science” that combines traditional applied mathematics and data analytics. Applications include oceanography, physiology, civil and mechanical engineering, bio-informatics, social science, mathematical biology, physics and brain science. 我们的发起人包括ARO, Office of Naval Research (ONR), 国防高级研究计划局(DARPA), National Science Foundation (NSF), 美国国立卫生研究院, 美国国家航空航天局和能源部(DOE).
Campus Location: CAMP 275
Faculty: Chunlei Charles Liang
Description: The 可压缩高阶非结构化谱差(CHORUS) Lab is a team for computational solar physics with main computer facilities located in CAMP 275. In the CHORUS lab, fast and accurate computational codes were developed on unstructured grids for predicting convection and dynamo in stars and planets. The PI is an expert in the high-order Spectral Difference method for solving compressible flow equations. Both graduate and undergraduate students are trained to become computational scientists and engineers. Furthermore, the team is building a reduced-order modeling tool for predicting solar magnetic cycles.
Campus Location: CAMP 275
Faculty: Chunlei Charles Liang
Description: The 计算海洋流体力学 (CMH)实验室是一个计算团队,其主要计算机设施位于CAMP 275. In the CMH lab, both Large Eddy Simulation (LES) and Unsteady Reynolds-Averaged Navier-Stokes (URANS) techniques are used on unstructured grids. The PI is an expert in both the high-order Spectral Difference method and the pressure-based Finite Volume Method. Both graduate and undergraduate students are trained to become computational engineers for marine hydrodynamics and wind turbine aerodynamics. Furthermore, the team optimizes designs of canoe paddles, marine propellers, and wind turbines.
Campus Location: Clarkson Science Center 176G
Faculty: Andreas Wilke
Description: 在进化和认知实验室, we examine how natural selection has shaped the cognitive mechanisms underlying human decision-making behavior during periods of risk and uncertainty. 我们研究这些机制在风险承担等领域是如何运作的, 择偶和觅食获取食物和信息.
Campus Location: Science Center 170A
Faculty: Dipankar Roy
Description: This research lab is equipped with a broad range of modern instruments and facilities for quantitative electroanalytical characterizations of a broad range of functional materials and devices based on these materials. Research conducted in the lab is focused primarily on novel materials for electrochemical energy storage/conversion and semiconductor device fabrication. 电化学表征技术经常与光学方法相结合, 如表面等离子体共振光谱, as well as with CAMP-based analytical facilities of electron microscopy and X-ray diffraction. The Electroanalytical Characterization Lab provides comprehensive hands-on research opportunities to graduate and undergraduate students at Clarkson University.
Faculty: Lisa Legault
Description: In the Motivation & 情感实验室,我们研究动机如何影响社会认知、关系和行为. 我们会问这样的问题:“什么样的动机能促进他人的思想开放??以及“激励人们减少偏见的最佳方式是什么??". 我们研究这些问题与适应性自我调节, 比如对偏见和负面情绪的调节.
Campus Location: Technology Advancement Center 103 & Schuler ERC 2012
Faculty: Elizabeth Pienkos
Description: 现象学实验室的成员探索精神障碍的主观体验, 以及更普遍的人类经验. 通过仔细检查体验自己是什么样子, other people and the world, 我们可以提高预测的能力, prevent and treat mental illness.
Campus Location: Science Center 262
Faculty: Michael Ramsdell
Description: The Physics Team Design Lab provides first-year STEM students with advanced group projects designed around a challenging real-world laboratory design experience. 大约有10%的学生被录取. Students usually work in groups of four throughout the semester to develop a model that can accurately predict the motion of a toy car traveling along an arbitrarily shaped track (Physics I) and the motion of an electric train powered by an arbitrary voltage source (Physics II). 在学期的最后一周, groups compete to test the predictive capability of their models during a series of challenge sessions.
Campus Location: CAMP-CB2210
Faculty: Maria Gracheva
Description: This computational laboratory is equipped with several multicore workstations adapted for high performance computational work with the use of MPI (parallel computing) in a Linux environment. 我们用定制代码和商业软件开发物理计算模型. The research conducted on these workstations mostly deals with problems related to biotechnology and nanotechnology, such as the identification and characterization of biomolecules with nanopore-based solid-state devices, 包括DNA测序和纳米颗粒的表征. Other projects include filtering, 生物分子和纳米颗粒的操作和分离. 在我们实验室工作的esball国际app和本科生学习现代超级计算机, gain access to national computational resources through our lab and work at the cutting edge of computational nanotechnology, 生物物理学和计算建模与仿真.
Campus Location: Near the Potsdam Airport
Faculty: Michael Ramsdell
Description: esball国际平台客户端的雷诺兹天文台有两个望远镜. The 12-inch telescope is used for both bright star spectroscopy and narrow-field-of-view imaging. The smaller 5-inch telescope, 哪个的视野比满月略大, 用于宽视场成像. 精密的望远镜支架使观测深空物体所需的长时间曝光成为可能. Current projects include studying the time variability of various types of binary stars using both spectroscopy and photometry, as well as photometric studies of nebula in the search for emissions caused by polycyclic aromatic hydrocarbons.
Faculty: Tom Langen, Acting Chair
Description: 在社会发展与健康心理学研究实验室, 我们研究社会痛苦如何对心理和身体健康产生负面影响, as well as how people determine when to offer help or express concern when they see someone experiencing health problems.
Faculty: Sean Banerjee and Natasha Banerjee
Description: esball国际平台客户端的泰斯卡尔全传感研究工作室(TARS),由Dr. Sean Banerjee and Dr. Natasha Banerjee, 进行人类驱动的人工智能研究, using capture and analysis of dense multi-person interactions in online and real-world environments. TARS的研究跨越了计算机视觉领域, linguistics, deep learning, robotics, computer graphics, 人机交互与软件工程. TARS获得了esball国际平台客户端的第一笔NSF CISE研究基础设施资助, in the amount of $746,这笔钱被用来建造esball国际平台客户端的第一个无标记动作捕捉设备. 工作室的全部设计和建造都是由Dr. Sean Banerjee, Dr. Natasha Banerjee和学生Nikolas Lamb. 该工作室满负荷运转时将容纳240台高速摄像机, 16 multi-modal sensors, 16 microphones, 16 thermal sensors and a dense array of force plates for full-range understanding of multi-person human interactions. 工作室里还有多台3d打印机(包括直角和三角)。, 3-D scanners, 虚拟现实系统和单板计算机捕捉系统. At any given time, the studio supports the research of 30+ undergraduate students who have gone on to receive internships and full-time positions at GE, Google, Epic, Ensign-Bickford Industries, AIS, Air Force Research Laboratory, CACI International, Kitware, SRC, Qualcomm, Veritas Prime, and Hewlett-Packard. 学生们还在卡内基梅隆大学获得了reu(本科生研究经历), Lehigh, 达姆施塔特大学和坦普尔大学,并进入esball国际app院, such as Duke, 利哈伊大学和密歇根大学.
Campus Location: CAMP 275
Faculty: Goodarz Ahmadi
Description: The 湍流与多相流实验室(TMFL) 虚拟实验室的主要计算机设备是否位于CAMP 275. The primary objective of the TMFL is to provide a fundamental understanding of the mechanisms that control turbulent multiphase flows, including the transport, 微粒物质的沉积和去除. TMFL develops predictive models for the behavior of dilute and dense turbulent multiphase flows, 包括气溶胶和颗粒流. Another main goal is to provide a detailed understanding of the effect of particle shape and size on particle deposition and removal, 以及多相系统的动力学.