The Georgia Institute of Technology, also known as Georgia Tech, is a top-ranked public college and one of the leading research universities in the USA.Georgia Tech provides a technologically focused education to more than 25,000 undergraduate and graduate students in fields ranging from engineering, computing, and sciences, to business, design, and liberal arts.
Our main campus is in Atlanta, Georgia.International campuses are located in Metz, France and Shenzhen, China.Georgia Tech has many nationally recognized programs, all top-ranked by peers and publications alike, and is ranked in the nation’s top 10 public universities by U.S. News and World Report.Degrees are offered through the colleges of Design, Computing, Engineering, Sciences, the Scheller College of Business, and the Ivan Allen College of Liberal Arts.The strong academic work ethic at Tech is balanced by a collegiate atmosphere incorporating both intercollegiate and intramural sports, campus traditions, and some 400 student organizations.Alongside their academic achievements, Tech students are also active in the community, earning a well-rounded education through community service activities.
佐治亚理工学院也被称为佐治亚理工大学是美国排名,最高的公立学院和领先的研究型大学之一。佐治亚理工学院为来自工程、计算和科学领域的25,000多名本科和研究生提供技术专业的教育,其中包括商业、设计和文科课程。我们的主校区位于佐治亚州亚特兰大。国际校区位于法国梅斯,中国深圳。 News 国家公立大学排名中排名第十。我们提供设计、计算机、工程、科学、谢尔商学院和伊万·艾伦人文科学学院等相应的课程。科技的强大的学术工作伦理学是通过大学的气氛相结合的,其中包括校际和校内体育,校园传统以及约400个学生组织。除了学术成就外,科技学生也积极参与社区活动,通过社区服务活动获得全面的教育。
Founded on Oct. 13, 1885, the Georgia School of Technology opened its doors in October 1888 to 84 students.The School’s creation signaled the beginning of the transformation of the agrarian South to an industrial economy.During its first 50 years, Tech grew from a narrowly focused trade school to a regionally recognized technological university.In 1948, the School’s name was changed to the Georgia Institute of Technology to reflect a growing focus on advanced technological and scientific research.
Women students were admitted in 1952, and in 1961 Georgia Tech became the first university in the Deep South to admit African-American students without a court order.In recent years, Georgia Tech has been a national leader in managing the global transition from an industrial economy to an information economy.Throughout its long history, Georgia Tech has always focused its efforts on preparing students to use their innovative skills and strong work ethic to solve real-world problems and improve the lives of people around the globe.From the world-famous “Ramblin’ Wreck” fight song to the fun and festivities of RATS Week, the Tech campus is steeped in time-honored traditions that students embrace from generation to generation.
佐治亚理工学院成立于1885年10月13日,于1888年10月开放,共有84名学生。学校的创立表明了南方农业向工业经济转型的开始。在过去的五十年中,科技从狭隘的贸易学校成长为地区认可的技术大学。1948年,学校的名称改为佐治亚理工学院,以反映日益重视先进的技术和科学研究。女学生1952年入学,1961年,佐治亚理工学院成为深南大学第一所接受非裔美国学生而没有法院命令的大学。近年来,佐治亚理工学院一直是管理从工业经济向信息经济转型的全球领导者。佐治亚理工学院长期以来一直致力于准备学生运用他们的创新技能和强大的工作伦理来解决现实世界中的问题,改善全球人们的生活。从世界着名的“兰布林残骸”战歌到RATS周的乐趣和庆祝活动,科技校园沉浸在历史悠久的传统中,代代相传,经久不息。
Learn more about areas in which Georgia Tech is creating the next big breakthroughs.The teamwork at Georgia Tech is second to none. Scientists and engineers from various research areas, students, and partner organizations work together to find answers to some of society’s most challenging questions.We offer a diverse portfolio of groundbreaking fundamental research, as well as applied research that has immediate application and demand in the real world.
1.概况
了解更多关于佐治亚理工大学创造下一个重大突破的领域。佐治亚理工大学的团队合作是首屈一指的。来自不同研究领域,学生和合作伙伴组织的科学家和工程师共同努力,找出一些社会最具挑战性的问题的答案。我们提供多样化的突破性基础研究组合,以及在现实世界中立即应用和需求的应用研究。
Creating the next big breakthroughs to improve patient care and the quality of life.Within Georgia Tech's 1 million-square-foot, state-of-the-art bioengineering and biosciences research complex, engineers, biologists, chemists, physicists, computer scientists, mathematicians, and other experts partner on basic, applied, and clinical research.These efforts involve more than 180 faculty members and hundreds of trainees from across the entire campus. Supported by our entrepreneurial tradition and strong collaborative interdisciplinary approach, these efforts increasingly involve industry partnerships that help move research innovations into clinical applications.
Research Portfolio:Medical devices,Pediatric technologies,Biomaterials,Bioinformatics
Immunoengineering,Neuroscience,Regenerative medicine applications,Pharmaceutical technologies,Diagnostic devices,Health care robotics,Accessibility and rehabilitation tools,Drug design, development and delivery,Disease research and treatments,Cancer biology research.
2.部分研究成果介绍
创造下一个重大突破,以改善患者护理和生活质量
在佐治亚理工学院拥有100万平方英尺的最先进的生物工程和生物科学研究综合体,工程师、生物学家、化学家、物理学家、计算机科学家、数学家和其他基础课程的专家,应用和临床研究方面的合作伙伴。这些工作涉及整个校园的180多名教职员工和数百名学员。在我们的创业传统和强大的协作跨学科方法的支持下,这些努力越来越多地涉及到将研究创新转化为临床应用的行业合作关系。研究组合:医疗设备、儿科技术、生物材料、生物信息学、神经科学、再生医学应用、制药技术、诊断设备、保健机器人、无障碍和康复工具、药物设计、开发和交付、疾病研究与治疗、癌症生物学研究.
Transforming the ability of individuals and organizations to analyze large and complex sets of data.Multidisciplinary research teams are developing innovations in computational methods and applying these techniques to industry, business, and the public sector. Research is conducted through a number of campus units, including the Institute for Data and High Performance Computing and the Georgia Tech Research Institute,Research Portfolio,Big Data Foundations:High Performance Computing,Machine Learning,Algorithms for Data Analysis,Social Networks,Systems and Infrastructure,Visual Analytics,Information security and privacy,Public PolicyData Driven Discoveries:Business Analytics,Precision Medicine,Health Analytics,Energy Informatics
Materials Informatics:Computational Neuroscience、Transportation、Sustainability
Research Partnerships and Outreach
Georgia Tech has taken a leadership role in creating an NSF Big Data Innovation Hub for the Southern United States for transforming big data research into practical applications and making end-user impact. We engage in multi stakeholder partnerships and are willing to act as data hubs for spurring innovation and discovery.
转变个人和组织分析大型和复杂数据集的能力
多学科研究团队正在开发计算方法的创新,并将这些技术应用于工业,商业和公共部门。研究由多个校园单位进行,包括数据和高性能计算研究所 和佐治亚理工大学研究所,研究组合 大数据基础:高性能计算、机器学习、数据分析算法、社交网络、系统和基础设施、视觉分析、信息安全和隐私、公共政策。数据驱动发现:业务分析、精密医学、健康分析、能量信息学、材料信息学、计算神经科学、运输、可持续发展、研究伙伴关系和外联。佐治亚理工在为美国南部创建NSF大数据创新中心方面发挥了领导作用,将大数据研究转化为实际应用,并对最终用户产生影响。我们从事多方利益相关方合作伙伴关系,并愿意作为促进创新和发现的数据中心。
Revolutionizing the way humans collaborate with robots and charting the course for autonomous systems to enhance our society, economy, and culture.Through interdisciplinary research across technological and sector-specific fields, more than 70 robotics faculty members and research scientists drive innovation and new discoveries across the robotics spectrum — from large-scale automation and autonomous vehicles to personalized robotic learning and engagement applications or systems.Our researchers advance the adoption of robotic technology in the workplace and address issues such as improving care for aging in place, increasing productivity and efficiency in manufacturing, developing onboard sensors and applications for enhancing safety of personal vehicles, and creating new methods to improve the social interactive abilities of personal and service robots.
Research Portfolio:Mechanics,Control,Perception,Artificial intelligence and cognition,Interaction,Systems,Autonomous vehicles and machines for defense, homeland security, and first responder security applications,Specialized techniques for testing and evaluating unmanned vehicles and other robotic platforms,Research Partnerships and Outreach.
Georgia Tech was awarded more than $2 million from the National Science Foundation and other agencies to fund projects for the National Robotics Initiative program.
革新人类与机器人合作的方式,并绘制自主系统的过程,以增强我们的社会,经济和文化。通过跨技术和行业特定领域的跨学科研究,70多名机器人教师和研究科学家推动了机器人技术领域的创新和新发现 - 从大型自动化和自主车辆到个性化机器人学习和参与应用或系统。我们的研究人员推动了机器人技术在工作场所的应用,解决了如何改善老龄化护理,提高生产率和制造效率,开发车载传感器和应用,增强个人车辆的安全性,并创造出改善社会的新方法个人和服务机器人的互动能力。研究组合:机械学、控制、知觉、人工智能和认知、相互作用、系统、自主车辆和防御机器,国土安全和第一响应者安全应用、专用技术,用于测试和评估无人驾驶车辆和其他机器人平台、研究伙伴关系和外联。佐治亚理工学院获得了超过200万美元的国家科学基金会和其他机构资助国家机器人计划的项目。
Bioproducts research and the development of forest-based chemicals, biofuels, and new material products.Building on nearly a century of lignocellulosics research, the Renewable Bioproducts Institute (RBI) transforms biomaterials into new products, including traditional and new forest products, renewable energy, chemicals, advanced materials, and pharmaceuticals.
With the development of each new generation of products, we answer the call of industry to make those products more durable, reliable, lighter, and temperature resistant.The brightest minds in research, hand-in-hand with our industry partners, are pursuing performance breakthroughs in the refining of forest and agricultural biomass into new, cost-effective products with enhanced performance.
Research Portfolio:Biochemicals,Biomaterials.Pulp, paper, packaging, and tissueBiorefining.Biotechnology,Pulp and paper manufacturing,Sustainable manufacturingResearch Partnerships and Outreach.In 2014, the Georgia Institute of Technology received a $43.6 million gift from the Institute of Paper Chemistry Foundation (IPCF). This major grant, one of the single largest gifts in Georgia Tech’s history, affirmed the Institute’s position as the leading driver in the forest bioproducts arena.In addition, the Renewable Bioproducts Institute works with several member companies.
生物产品研究和发展森林化学品,生物燃料和新材料产品
基于近一个世纪的木质纤维素研究,可再生生物产品研究所(RBI)将生物材料转化为新产品,包括传统和新型森林产品,可再生能源,化学品,先进材料和药物。随着新一代产品的发展,我们回答了行业的呼声,使这些产品更耐用,可靠,更轻,耐温。与业界合作伙伴携手共同研究的最聪明的人才是将森林和农业生物质能改善成为具有更高性能的新的,具有成本效益的产品的性能突破。研究组合:生化、生物材料、纸浆,纸,包装和纸巾、生物炼制、生物技术、纸浆和造纸、可持续制造、研究伙伴关系和外联。2014年,佐治亚理工学院获得纸化学基金会研究所(IPCF)的4360万美元赠款。佐治亚理工大学历史上唯一最大的礼物之一,这一重大补助金,肯定了该研究所作为森林生物产品领域的领军者的地位。此外,可再生能源生物产品研究所与几家会员公司合作。
At Georgia Tech, research in the complementary fields of electronics and nanotechnology provides the foundation for a broad range of advances in health care, consumer, industrial, transportation, and national security applications.Georgia Tech is well known for its deep expertise in electronic and semiconductor devices, components, micro and nano systems packaging, testing, and circuits. The Institute has also become a national leader in nanoscience, nanomaterials, and nanotechnologies.
Research Focus Areas:Micro and nano device fabrication and processing.Organic materials and device functionalization.Characterization and imaging.UV and IR laser micro-machining.Bond, assembly and reliability testing.RF mm-wave and photonic testing and characterization.Semiconductor materials and devices.Photovoltaic materials and devices.Microfluidics.Biosensors.Nanoparticles for drug delivery.Biophotonics.Optical materials systems and technologies.Diffractive and holographic optics.Non-linear optics.
在佐治亚理工大学,电子和纳米技术的互补领域的研究为医疗保健、消费者、工业、运输和国家安全应用方面的广泛进展奠定了基础。Georgia Tech以其在电子和半导体器件,元件,微纳和纳系统封装,测试和电路方面的专业知识而闻名。该研究所也成为纳米科学,纳米材料和纳米技术的国家领导者。研究重点领域:微和纳米器件的制造和加工、有机材料和器件功能化、表征和成像、UV和IR激光微加工、债券,装配和可靠性测试、RF毫米波和光子测试和表征、半导体材料和器件、光伏材料和设备、微流控、生物传感器、用于药物输送的纳米颗粒、生物光子学、光学材料系统和技术、衍射和全息光学、非线性光学。
Georgia Tech’s research initiatives in energy and sustainable infrastructure focus on a broad range of challenges involving energy production, conversion, and efficiency; water resource management; infrastructure development; and the issues associated with a changing economic analysis and policy assessment with fundamental and applied research, Georgia Tech’s framework for energy and sustainability research embraces a holistic approach to solving complex problems. Working with experts across the Georgia Tech community and with partners in both industry and government, Georgia Tech researchers focus on interdisciplinary efforts to analyze, model, and develop innovative technologies designed to provide an economically viable and environmentally friendly future.
Research Portfolio:Clean and sustainable fuels,Combustion process optimization and pollution control,Carbon capture and mitigation,Next generation water purification technology,Solar power and photovoltaics,Sustainable urban infrastructure systems,Energy management programs,Power grid management,Electrical testing,Water-Energy-Transportation nexus,Research Partnerships and Outreach.Georgia Tech researchers collaborate with local, regional, national, and global energy companies. The campus is also home to the University Center of Excellence for Photovoltaics Research and Education and the National Electric Energy Testing, Research and Applications Center (NEETRAC), a membership-based research and testing center focused on improving the efficiency and reliability of our power transmission and distribution systems.
佐治亚理工学院在能源和可持续发展基础设施方面的研究重点是涉及能源生产,转换和效率的广泛挑战, 水资源管理、基建发展 以及与气候变化相关的问题。将经济分析与政策评估与基础与应用研究结合起来,佐治亚理工大学能源与可持续发展研究框架采用整体解决复杂问题的方法。佐治亚理工大学与佐治亚理工大学的专家和行业和政府的合作伙伴合作,Georgia Tech的研究人员专注于分析,建模和开发旨在提供经济可行和环保未来的创新技术的跨学科研究。
研究组合:清洁和可持续的燃料、燃烧过程优化和污染控制、碳捕获和减轻、下一代净水技术、太阳能发电和光伏发电、城市可持续发展系统、能源管理计划、电网管理、电气测试、水能交通枢纽、研究伙伴关系和外联。佐治亚州科技研究人员与当地,地区,国家和全球能源公司合作。校园也是大学光伏研究和教育大学中心和国家电力测试与研究和应用中心(NEETRAC)的所在地,该中心是一个以成员为本的研究与测试中心,致力于提高传输效率和可靠性和分销系统。
Basic and applied research in manufacturing, trade, and logistics, supported by our strengths in materials and management.Georgia Tech is home to some of the best engineering, manufacturing, and logistics programs in the world. We lead the drive toward a manufacturing renaissance by taking advantage of the synergy that exists in our innovation ecosystem and working closely with industry and government.Industrial sponsors tap into comprehensive expertise from manufacturing processes and factory automation to supply chain management and enterprise transformation. Sponsors also benefit from our experience in moving research innovations from the lab to the marketplace.
Research Portfolio:Additive manufacturing、Sustainable design and production、Precision machining、Factory information systems、Model-based systems engineering、Advanced composites、Nanotechnologies、Robotics and automation、Integrated and remote sensors、Information systems、Wireless communications、Research Partnerships and Outreach.Georgia Tech provides leadership through the Advanced Manufacturing Partnership, a national initiative designed to help U.S. companies improve cost, quality, and speed of production so they can remain globally competitive. President G.P. “Bud” Peterson serves on the steering committee, collaborating with the nation’s top industry, government, and higher-education leaders.Using our advanced manufacturing technologies, companies partnering with Georgia Tech gain a competitive edge based on proprietary design, superior supply chain, and personalized post-sale services.
在制造,贸易和物流方面的基础和应用研究得到我们在材料和管理方面的优势的支持。佐治亚理工学院是世界上最好的工程,制造和物流项目的所在地。利用创新生态系统中存在的协同效应与行业和政府紧密合作,引导制造业复兴。工业发起人利用从制造过程和工厂自动化到供应链管理和企业转型的综合专业知识。赞助商也从我们将研究创新从实验室转移到市场的经验中获益。
研究组合:添加剂制造、可持续的设计和生产、精密加工、工厂信息系统、基于模型的系统工程、高级复合材料、纳米技术、机器人与自动化、集成和远程传感器、信息系统、无线通信、研究伙伴关系和外联。佐治亚理工大学通过先进制造合作伙伴关系(Advanced Manufacturing Partnership)提供领导,该计划旨在帮助美国公司提高成本,质量和生产速度,从而保持全球竞争力。总裁GP“Bud”彼得森担任指导委员会,与全国顶尖的行业,政府和高等教育领导人合作。凭借先进的制造技术,与Georgia Tech合作的公司凭借专有设计,卓越的供应链和个性化的售后服务赢得了竞争优势。
Discovering, developing, and improving materials that lead to technological advances。Georgia Tech researchers conduct basic and applied research to understand and develop innovative materials that hold great promise for improving daily living conditions around the world.Interdisciplinary research teams balance synthesis and processing; materials theory and simulation; characterization; and property measurement to create, design, explore, advance, and exploit materials to address 21st century grand challenges. Our ability to combine Georgia Tech's strengths in engineering and the sciences has solidified our reputation as a leader in materials research.Research Portfolio:Electronic and optical functional materials,High-performance aerospace and automotive materials,Sustainable infrastructure materials,Nanomaterials,Biomaterials,Materials for energy storage and harvesting,Research Partnerships and Outreach.Faculty from the Georgia Tech Research Institute and the College of Computing are key contributors to Georgia Tech’s materials-driven interdisciplinary research. Georgia Tech also partners with government and industry to translate transformative technologies into real-world applications.
发现,开发和改进导致技术进步的材料。佐治亚理工大学研究人员进行基础和应用研究,以了解和开发创新材料,对改善世界各地日常生活条件具有十分重要的意义。跨学科研究团队平衡合成和处理; 材料理论与模拟; 表征; 物业测量,以创造,设计,探索,推进和利用材料来应对21世纪的巨大挑战。我们结合佐治亚理工在工程和科学方面的优势的能力巩固了我们作为材料研究领导者的声誉。
研究组合:电子和光学功能材料、高性能航空航天和汽车材料、可持续的基础设施、纳米材料、生物材料、储能材料、研究伙伴关系和外联。佐治亚理工研究院和计算机学院的学院是佐治亚理工大学材料驱动跨学科研究的主要贡献者。佐治亚理工大学还与政府和行业合作,将变革型技术转化为现实世界的应用。
Designing, testing, validating, and managing systems as they grow increasingly more complex.Georgia Tech’s expertise in systems methods and tools and its national-asset facilities provide a depth of knowledge that few companies or agencies can afford to maintain independently. Systems research and education at Georgia Tech address the needs of both government and industry, focusing on the systems themselves, as well as the underlying development processes.
Each year, Georgia Tech works with dozens of major industrial companies on systems issues, providing an independent view of systems issues, and serving as advisors and evaluators.
Research Portfolio:Requirements derivation,Design methods,Networking,System interfaces
Modeling and simulation,Testing,Advanced manufacturing,Production and plant processes,Operations research,Cycle time reduction,Decision processes.Research Partners and Outreach.Georgia Tech Research Institute, Aerospace Systems Design Laboratory and the School of Industrial and Systems Engineering.
Additionally, Georgia Tech’s academic systems engineering programs, professional education courses, and the Professional Master’s Degree in Applied Systems Engineering offer government and industry a unique opportunity to assist in developing the talented professionals who will help build the future of systems disciplines.
随着系统越来越复杂,设计,测试,验证和管理系统。
佐治亚理工在系统方法和工具及其国家资产设施方面的专业知识提供了很少的公司或机构能够独立维护的知识。佐治亚理工大学的系统研究和教育解决了政府和行业的需求,侧重于系统本身以及基础开发过程。Georgia Tech每年都会与数十家主要工业公司就系统问题进行合作,提供对系统问题的独立观点,并担任顾问和评估人员。研究组合:需求推导、设计方法、联网、系统接口、建模与仿真、测试、先进制造、生产和工厂流程、行动调查、循环时间缩短、决策过程、研究伙伴和外联。佐治亚理工研究院, 航空航天系统设计实验室和工业与系统工程学院,此外,佐治亚理工学院的学术系统工程课程,专业教育课程和应用系统工程。
1.周边环境介绍
About Atlanta, Georgia
Atlanta, Georgia, combines the entertainment, educational, and economic opportunities of an international city with the flavor and personality of close-knit, eclectic neighborhoods.Our Midtown neighborhood is a thriving place to create, learn, live, work, and play. The city's network of diverse neighborhoods offers a taste of home for everyone — from apartments, lofts, and high-rises to small bungalows or impressive mansions. As the state's economic and cultural hub, Atlanta is packed with attractions, small businesses, high-tech startups, and multinational corporations, along with restaurants, theaters, museums, and concert venues.
Within an easy walk to campus are green spaces and parks, including Centennial Olympic Park, Piedmont Park, and the Atlanta BeltLine — a network of public parks, multi-use trails, and multiple public transit options.Atlanta is home to many of the best, and arguably the most, restaurants in the Southeast. The city's food scene creates an adventure of eating out and finding food from every culture at every price.Braves baseball, Atlanta Hawks and Atlanta Dream basketball, Falcons football, Silverbacks Soccer, plus the Georgia Tech Yellow Jackets? Atlanta is a sports town for every season.Big-name stars at Philips Arena. Atlanta Symphony Orchestra at Woodruff Arts Center. Music festivals all over town. Hip-hop, DJs, and electronic music at nearby clubs. Indie artists at the Fox Theater and the Tabernacle.Business, industry, government, health care, media, entertainment, high-tech — Atlanta has it all. And Midtown's innovation hub is where businesses collaborate on creating the next big breakthroughs.
关于亚特兰大,格鲁吉亚,佐治亚州亚特兰大将国际城市的娱乐,教育和经济机会与紧密的,社区的味道和个性结合在一起。我们的中城区是一个繁荣创造、学习、生活、工作和玩耍的地方。城市的各种社区网络为每个人提供了一个家的味道 - 从公寓,阁楼和高层到小平房或令人印象深刻的豪宅。作为国家的经济和文化中心,亚特兰大拥有景点,小企业,高科技创业公司和跨国公司,以及餐馆,剧院,博物馆和音乐会场地。
在一个轻松的步行到校园是绿色的空间和公园,包括百年奥林匹克公园,皮埃蒙特公园和亚特兰大BeltLine - 一个公共公园,多用途小径和多个公共交通选择网络。亚特兰大是东南亚最好的,也是最多的餐馆的所在地。城市的美食场景创造出一种冒险,每一种价格都能从每一种文化中消磨和寻找食物。勇士棒球,亚特兰大鹰队和亚特兰大梦幻篮球,猎鹰足球,Silverbacks足球,以及佐治亚州技术黄色夹克?亚特兰大每个季节都是一个体育城市。飞利浦竞技场的大名星。亚特兰大交响乐团在伍德拉夫艺术中心。各地的音乐节 嘻哈,DJ和附近俱乐部的电子音乐。独立艺术家在福克斯剧院和帐幕。商业、工业、政府、保健、媒体、娱乐、高科技 - 亚特兰大拥有这一切。而中城的创新中心是企业合作创造下一个重大突破的地方。
2.住宿及饮食
Georgia Tech Student Housing:More than just places to sleep and study, Tech’s residence halls offer a supportive environment designed to promote positive relationships, personal growth, and academic success.
佐治亚理工学院住房:Tech不仅仅是睡觉和学习的地方,而是为了促进积极的关系,个人成长和学业成功,提供了一个支持性的环境。
Georgia Tech Dining:Georgia Tech dining offers several meal plans with a variety of options for convenient, flexible dining and snacking. Our three dining halls offer a wide variety of cuisines, including vegan and vegetarian dishes, with an all-you-care-to-eat policy.
佐治亚科技餐饮:佐治亚理工学院餐饮提供多种餐饮计划,提供各种选择,方便灵活的餐饮和零食。我们的三个餐厅提供各种各样的美食,包括素食和素菜,以及全心全意的食品政策。
3.校园安全
Georgia Tech Safety and Health
Our students' safety, health, and wellbeing are extremely important, and the Institute takes a very proactive stance on campus health and safety. Tech students have access to comprehensive medical and mental health care, plus healthy-lifestyle education.The Georgia Institute of Technology Police Department is a fully operational state certified law enforcement agency. Police officers patrol the campus 24/7, and provide an extensive range of public safety services to reduce crime and create a safer environment.
佐治亚理工学院安全与健康
我们学生的安全、健康和福祉非常重要,学院对校园的健康和安全非常积极。我们大学的学生可以获得全面的医疗和精神保健,加上健康生活方式的教育。佐治亚理工学院警察局是一个全面运作的国家认证执法机构。警务人员24/7全天候巡视校园,并提供广泛的公共安全服务,以减少犯罪行为,营造安全环境。
1.政治和公共服务
Jimmy Carter (1946)吉米·卡特;第39任美国总统,2002年诺贝尔和平奖获得者;
G. Wayne Clough (1964) 佐治亚理工学院校长,史密森学会(Smithsonian Institution)主管;
Timothy C. Batten, Sr. (1981)美国联邦法院法官;
Max Burns (1973) 美国众议院议员;
Howard Callaway (1945) 美国众议院议员,陆军部部长;
Phil Gingrey (1965) 美国众议院议员;
Stephen Pace (1912) 美国众议院议员;
Sam Nunn (1956) 美国参议院议员;
Mario Canahuati (1977)洪都拉斯外交部部长,前驻美国大使;
J. Owen Forrester (1961) 美国联邦法院法官;
Jack Guynn (1969) 美联储(亚特兰大)主席;
Paul Craig Roberts (1961) 经济学家,前财长部副部长;
Daniel Webster (1971)佛罗里达州众议院议长;
Juan Carlos Varela (1985)巴拿马副总统;
2.军事
Admiral James A. Winnefeld, Jr. (1978) 海军四星上将,现任美国参谋长联席会议副主席;
Edward C. Aldridge, Jr. (1962) 第16任空军部部长;
William L. Ball (1969) 第67任海军部部长;
Philip M. Breedlove (1977) 空军四星上将,空军副参谋长;
John M. Brown III 陆军太平洋司令部司令;
Pete Geren (1973) 第20任陆军部部长;
John W. Hendrix (1965) 陆军四星上将,原美国陆军司令部司令。
3.商业
Gil Amelio (1965) 美国国家半导体、苹果公司前CEO;
Charles Betty (1979) EarthLink总裁;
John F. Brock (1971) 可口可乐董事长兼CEO;
George G. Crawford (1890) 首届毕业生,创立田纳西煤铁及铁路公司;
Cecil B. Day (1958) Days Inn酒店连锁创始人;
David Dorman (1975)
Mike Duke (1971) 沃尔玛总裁;
David C. Garrett, Jr. (1955) 达美航空原CEO;
Ed Iacobucci (1975) IBM OS/2研发小组主管,Citrix Systems创始人,DayJet总裁;
Robert Milton (1983)加拿大航空(Air Canada)原总裁;
James D. Robinson III (1957) 美国运通(American Express)CEO,可口可乐公司主管;
4.科学、工程与数学
共有数十位美国国家宇航局(NASA)宇航员毕业于佐治亚理工学院;
Bascom S. Deaver (1952)物理学家,以研究超导现象的应用闻名;弗吉尼亚大学物理系副主席;
Arnold Hardy (1945)
W. Jason Morgan (1957) 对板块构造论和地球动力学理论作出了重要贡献,2003年国家科学奖章得主,普林斯顿大学地球科学教授;
Kary Mullis (1964) 1993年诺贝尔化学奖获得者,发明聚合酶链式反应(PCR);
Linda Griffith (1982) 生物医学工程师,麻省理工学院生物工程及机械工程教授;
Michel G. Malti (1922) 电子工程师,以一系列关于电路分析的论著闻名;
Robert C. Michelson (1974) 机器人学家,2001年Pirelli奖获得者,Entomopter发明者;
Herbert Saffir (1940) 提出萨菲尔-辛普森飓风等级;
Herbert Keller (1945) 应用数学家,数据分析师,加州理工学院应用数学系荣誉教授;
Daniel P. Sanders (1993) 提出四色问题新的高效证明;
李鲁宁 (2011) (上海交大联合培养双学位) 在激光与原子分子相互作用理论方面作出贡献;
5.计算机科学
吉姆·阿尔金(Jim Allchin) (1984) 微软前副总裁、平台部主管,负责Windows NT系列、XP及Vista的研发工作;
Krishna Bharat (1996) Google研究科学家,开发了Google新闻;
Tom Cross (1999) 企业家,计算机安全专家,黑客;
Jim Davies (1997) 认知科学家,剧作家和艺术家;
D. Richard Hipp (1984) SQLite架构师及主要的开发者;
Ed Iacobucci (1975) IBM OS/2研发小组主管;
Craig Mundie (1972) 微软首席研究及战略官;
James F. O'Brien (2000) 加州大学伯克利分校计算机科学教授;
Rosalind Picard (1984) 麻省理工学院情感计算研究组创始人及主管;
Mike Pinkerton (1997) Mozilla浏览器和Google Chrome浏览器合作开发者;
Jeff Trinkle (1979)伦斯勒理工学院计算机科学系主席;
6.艺术与设计
Michael Arad (1999) 纽约世贸中心纪念碑设计者;
John C. Portman (1950)上海金茂大厦设计者,SunTrust广场设计者;
Hugh Stubbins Jr. (1933) 花旗中心设计者;
Bones Howe (1956) 格莱美奖获得者;
Jorge Cham (1997) 漫画家,加州理工学院博士后讲师及研究员;7.体育运动
Stephon Marbury (1995)职业篮球运动员,前NBA全明星球员,曾效力于北京首钢队,现效力于北京北控,司职控球后卫
Chris Bosh(2002)职业篮球运动员,NBA著名球星,效力于迈阿密热火 司职中锋