NJIT Strategic 研究 Plan
研究是一个强大的学术经验的组成部分. 2025战略计划,我们有5个研究集群代表我校的研究企业.
研究是强大的学术经验的一个组成部分,也是十大网赌平台2025年战略计划的一个关键优先事项. The university aims for national and international prominence in research through new discoveries in areas ranging from 医疗 传感器 and devices to robotics, to nanotechnology, to cybersecurity, to next-generation materials, 在其他至关重要的主题中, applied and translational research.
在过去的五年中,我们聘请了150名新教师,这大大加强了我们的努力. 他们包括生物医学科学和工程等领域的专家, 传感器, 能源, novel materials, machine learning, data analytics, and virtual reality. They arrive with impressive track records in securing grants from key funding agencies such as the National Science Foundation, the National Institutes of 健康, the Department of Energy, 和美国.S. Department of Defense. We are confident that their participation in our multidisciplinary centers will help NJIT reach its ambitious external funding benchmarks that has already more than doubled over the last five years.
实现我们的研究和教育目标, the university’s strategic plan calls for seamless multidisciplinary and transdisciplinary research collaborations and technology innovation-based entrepreneurship among faculty, staff and students, 谁都在推动科学发展中发挥着核心作用, 推动社会进步的工程和技术. 包括约克中心在内的十大网赌平台的核心研究设施, Life Sciences and Engineering Center and Microfabrication Innovation Center is designed to accelerate game-changing collaborations with new teaching and research labs, 进行项目的房间和教师和学生可以社交和分享想法的公共区域.
The NJIT’s 2025 研究 Strategic Plan organizes five research clusters of high significance and societal impact aligned with the global trends in science and technology research and development. 由核心和跨学科基础组成, 应用和转化研究兴趣, 十大网赌平台研究型企业五大集群包括:
BIOSCIENCE AND BIOENGINEERING: 该研究集群包括生物医学设备领域的多学科研究, 传感器 and instrumentation, brain health & 神经科学,组织工程,生物科学 & 行为学、分子生物学、进化科学、基因治疗及表型相关研究. 十大网赌平台的研究人员正在推进我们对正常情况下大脑和脊髓功能的理解, injured and diseased states at molecular, 细胞和功能水平通过实验, theoretical and computational methods. Imaging experts, 计算机科学家和生物医学工程师正在一起工作, for example, 设计能改善运动的疗法和设备, cognitive and organ functions. To this end, 我们的组织工程师专注于用再生细胞和组织替代功能失调的细胞. The Bioscience and Bioengineering cluster intersects with other research clusters including Material Science and Engineering, Robotics and Machine Intelligence and Data Science and Management in developing healthcare technologies and systems such as point-of-care 医疗 传感器, 涉及初级保健的设备和康复系统以及保健信息系统和管理, 医院和急救资源和协议.
拟议集群的范围包括与NSF的10大构想相一致的领域, and the National Academy of Engineering (NAE) and the National Academy of Sciences (NAS) Grand Challenges in “Reverse Engineering of the Brain,” “工具 for Scientific Discovery,“理解生命的规则:预测表型”和“设计更好的药物”.”
DATA SCIENCE AND MANAGEMENT: 这个研究集群包括数据科学和分析的研究和实践, 从数据中提取可用于医疗的信息和知识, 金融, 商业管理科学和工程应用. 这些小组进行生物信息学的研究, 医疗 informatics, image processing, data mining, solar-terrestrial physics, transportation, 金融 management, business administration and management, life sciences and healthcare.
The cybersecurity group designs secure cyber systems and improves cyber information and communications technology (ICT). 随着经济的快速发展,信息通信技术正在塑造社会的许多方面, 提供前所未有的海量信息, anytime and anywhere, from any type of device. By 2025, the number of global IoT (internet of Things) connections will increase from 12 billion in 2020 to more than 30 billion according to an estimate by IoT Analytics. Global spending on security hardware, 预计到2024年,软件和服务将达到1750亿美元, according to Statista. This cluster with a broader transdisciplinary scope with diverse applications also includes multidisciplinary research centers focused on mathematical sciences, transportation systems, 增材制造与无线通信技术及工商管理, 以及科学技术对社会的影响.
The Data Science and Management cluster spans over all other research clusters including Bioscience and Bioengineering, Environment and Sustainability, Material Science and Engineering and Robotics and Machine Intelligence for developing data driven approaches in almost all applications from healthcare information systems to industry automation, and to finance and business management.
NAE和NAS的大挑战和NSF的大构想在这个集群的范围内包括“安全网络空间”, “Advance Personalized Learning”, “增强虚拟现实”“修复和改善城市基础设施”, “设计科学发现的工具”, 和“人类技术前沿工作的未来”, “Harnessing the Data Revolution”, “不断增长的融合研究”和“量子飞跃:引领下一次量子革命”.
ENVIRONMENT AND SUSTAINABILITY: 这个集群代表了城市生态学的跨学科研究领域, space weather, solar terrestrial, environmental 传感器, sustainable infrastructure, intelligent transportation systems, global climate change, biodiversity and conservation, clean water, waste management, renewable 能源, and smart grid systems. 城市生态和可持续性领域强调可持续的基础设施, smart transportation, ecological communities, and urban modeling and simulation. Space weather sciences and impact of evolutionary changes in the solar system impacts directly our environmental ecosystem and global climate changes. 该领域还侧重于水能关系和海平面对环境的影响, 以及清洁水和提供绿色能源技术的发展, such as biofuel cells and powerful, long-lasting batteries. The Environment and Sustainability cluster intersects with other research clusters including Material Science and Engineering, Robotics and Machine Intelligence and Data Science and Management in developing smart and green buildings and sustainable communities, 了解太空天气和气候变化.
NAE和NAS的大挑战和NSF的大创意在这个集群的范围内包括“太阳能”, “恢复和改善城市基础设施”, “Access to Clean Water”, “Provide Energy from Fusion”, “Develop Carbon Sequestration Methods”, 和“人类技术前沿工作的未来”, “探索新北极”和“宇宙之窗”.
MATERIAL SCIENCE AND ENGINEERING: This cluster represents transdisciplinary research areas in advanced materials including smart energetic and campsite materials, quantum materials, and biomaterials, polymers and membrane technologies, nanotechnologies, 以及增材制造/先进制造系统. The scope of nanotechnology research includes scientific and engineering phenomena at the minutest and most fundamental levels in order to develop technologies for environmental and pharmaceutical applications. The interdisciplinary group on engineered materials and particulates focuses on technology development for the preparation, 加工和使用工程颗粒材料及其复合材料的一系列应用. 研究 in the manufacturing systems group involves developing new methods and technologies for design innovation and process automation. 特别强调的是为制药制造设计新的工艺和工具.
The Material Science and Engineering cluster spans over almost all research clusters including Bioscience and Bioengineering, Environment and Sustainability, Robotics and Machine Intelligence and Data Science and Management in developing environmental and 医疗 传感器 and devices, 组织工程、智能机器人和康复系统, additive and pharmaceutical manufacturing, 智能建筑和可持续社区, 以及数据驱动的建模和仿真,用于智能材料的开发和表征.
NAE and NAS Grand Challenges and NSF Big Ideas within the scope of this cluster include “恢复和改善城市基础设施”, “Solar Energy”, “Provide Energy from Fusion”, “Develop Carbon Sequestration Methods”, 和“人类技术前沿工作的未来”, 和《十大网赌平台》.
ROBOTICS AND MACHINE INTELLIGENCE: 本研究集群包括人机界面, cyber-human systems, robotics: bioinspired, 医疗, social and industrial autonomous systems, intelligent infrastructure, artificial intelligence, machine learning, and augmented and virtual reality. Robotics and bioinspired autonomous systems are making a significant impact in the society in many areas including rehabilitation, manufacturing, navigation and transportation, and 医疗 and home-based care. The artificial intelligence and augmented/virtual reality applications have been evolving rapidly with the futuristic vision for new modes of automation, discoveries, social networking and even co-evolution of machine and human intelligence making important decisions in our daily life from finance to healthcare.
The Robotics and Machine Intelligence cluster also interacts with other research clusters including Bioscience and Bioengineering, Environment and Sustainability, Material Science and Engineering and Data Science and Management in developing smart automation and navigation systems, smart healthcare information systems, 增材制造系统中的智能自适应和数据驱动自动化, and intelligent systems for almost every application from education and learning to smart cities and living-assist systems.
NAE and NAS Grand Challenges and NSF Big Ideas within the scope of this cluster include “Advance Personalized Learning”, “增强虚拟现实”“修复和改善城市基础设施”, “设计科学发现的工具”, 和“人类技术前沿工作的未来”, “Harnessing the Data Revolution”, “不断增长的融合研究”和“量子飞跃:引领下一次量子革命”.