瑞典的查尔姆斯理工大学始建于1829年,是一所以工程技术、自然科学和建筑学为主旨的顶尖理工类大学,跟着出国留学网一起来了解下瑞典查尔姆斯理工大学基本概况吧,欢迎阅读。
一、关于查尔姆斯理工大学(源自网络,非本网站翻译)
查尔姆斯理工大学(Chalmers University of Technology)是欧洲顶尖的一所理工大学。自1829年成立以来,学校的主旨就是将研究热情和工程、建筑、数学和自然科学教育的悠久传统相结合,从探索的乐趣和学习新知的渴求中激发灵感。学校所做的一切都是希望能够对瑞典和世界的可持久发展有所裨益。Chalmers的硕士专业项目与实力特别强的研究领域紧密联系,其设计旨在满足社会和工业的需求。Chalmers的硕士专业课程几乎都采用英语教学。瑞典全国大约40%左右的工程师和建筑师都是该校毕业生,是瑞典就业率最高的大学。该校拥有强大的环境科技、IT科技、纳米技术、生物工程、汽车工程与建筑学系,是欧洲著名的研究型大学。在QS世界大学排名(THE QS World University Rankings)中,该校与KTH一起被列为瑞典最优秀的理工大学,和北欧地区最优秀的理工研究所之一,该校在QS世界大学排名理工科排名中一直保持在前百强。此外,在2011年一项以校友担任世界五百强CEO的数量为标准的大学排名中,Chalmers位列瑞典第1,欧洲第16,世界第38位。
二、历史沿革
Chalmers was founded in 1829. The university is named after the major benefactor, William Chalmers, one of the directors of the successful Swedish East India Company in Göteborg.William Chalmers (1748-1811) had created a greater wealth from his work within the Swedish East India Company during the late 1700's. Influenced by Pehr Dubb he then bequeathed all his estate to the Sahlgrenska Hospital in Gothenburg and to the creation of an industry school for poor children who learned to read and write. "Chalmersska Slöjdeskolan", which opened in Gothenburg, November 5, 1829, and became the beginning of Chalmers University of Technology. The first president was the industrialist Carl Palmstedt. The connections with industry and commerce has therefore been natural from the very beginning.The Avancez emblem has its origin in the donor William Chalmers seal.
查尔姆斯成立于1829年。该大学以主要捐助瑞典东印度公司在哥德堡成功的成员之者一威廉·查默斯(William Chalmers)命名。William Chalmers(1748-1811)在17世纪后期在瑞典东印度公司工作中创造了更大的财富。受到Pehr Dubb的影响,他随后把所有遗产遗赠给了哥德堡的Sahlgrenska医院,并为学习阅读和写作的贫困儿童创建了一所工业学校。“ChalmersskaSlöjdeskolan”,于1829年11月5日在哥德堡开业,并成为查尔姆斯理工大学的开始。第一任总统是实业家卡尔帕斯特。因此,与工商业的联系从一开始就是自然的。Avancez徽标的起源于授权人William Chalmers封印。
三、教研优势
1.先进领域
The vision of a sustainable future is what drives Chalmers. When we brought cross-border research, training and creative innovation together, eight areas were formed. Here, we have a special responsibility.Using the fundamental sciences as a base, we use our eight Areas of Advance to address the major challenges being faced by the world. We are already at the forefront of research within certain areas, and within others we are well on the way. By coordinating our resources and competencies we become stronger, are able to handle larger tasks than before and can reach further.Chalmers’ Areas of Advance are all about interaction between people; between researchers within and outside Chalmers, between researchers and students at Chalmers, between Chalmers and the surrounding world. We create meetings where ideas are conceived and people take the initiative. This is how we work with the change to a sustainable society.Our eigth Areas of Advance are:Building Futures,Energy,Information and Communication Technology,Life Science,Materials Science,Nanoscience and Nanotechnology,Production,Transport.
走向可持续未来的八条道路。挑战可持续未来的愿景是什么驱动Chalmers。当我们一起带来跨境研究,培训和创新创新时,共形成了八个领域。在这里,我们有特别的责任。以基础科学为基础,利用我们的八大领域来应对世界面临的主要挑战。我们已经在某些领域处于研究的前沿,而在其他领域,我们正在顺利进行。通过协调我们的资源和能力,我们变得更强大,能够处理比以前更大的任务,可以进一步扩大。查尔姆斯先生的领域是人与人之间的互动; Chalmers内外的研究人员,Chalmers的研究人员和Chalmers和周边世界的学生之间。我们创建会议,想法被设想,人们主动。这就是我们如何应对可持续发展社会的变化。我们的优先领域是:建筑未来、能源、信息与通信技术、生命科学、材料科学、纳米科学与纳米技术、生产运输。基础科学:哥德堡科技高级研究中心。
2.设施完备的研究中心
Research infrastructure at Chalmers.The concept of a research infrastructure includes everything from advanced real or virtual labs to large databases, computer capacity for large-scale calculations and magnificent research facilities. In short, everything necessary to conduct truly outstanding research.Here you will find the facilities which meet the criteria necessary to be referred to as Chalmers infrastructure. This means that the facility is available to all researchers at Chalmers University of Technology on an equal footing. The facility will also be owned and controlled, in whole or in part, by Chalmers.
研究基础设施的概念包罗万象,从先进的实体或虚拟实验室到大型数据库、大规模计算的计算机能力以及宏伟的研究设施。简而言之,所有的一切都需要进行真正出色的研究。在这里,你将找到符合Chalmers基础设施所需要的标准的设施。这意味着该设施对Chalmers技术大学的所有研究人员来说都是平等的。这一设施也将由Chalmers所有或部分地拥有和控制。
C3SE:C3SE (Chalmers Centre for Computational Science and Engineering) is Chalmers' infrastructure for demanding computing calculations and data storage. It provides researchers at Chalmers University of Technology, University of Gothenburg and in the rest of Sweden with hardware resources as well as software and knowledge of numerical modelling, simulation and analysis. The facility is one of the nodes of the Swedish supercomputer Swedish National Infrastructure for Computing, SNIC.Currently, C3SE has some 800 active users, half of whom are from Chalmers. The number of users and assignments with large-scale storage needs and a data intensive work flow is steadily increasing. Consequently, a new resource for calculations is under construction. The maximum performance of the new system is expected to be around 300 teraflops, i.e. 300 trillion floating-point operations per second.In order to gain access to the facility's resources, it is mandatory for new users to participate in one of the introductory seminars that C3SE regularly arranges.
C3SE:(查尔莫斯计算科学与工程中心)是查尔默斯要求计算的计算和数据存储的基础设施。它为查默斯大学、哥德堡大学和瑞典其他地区的研究人员提供了硬件资源以及数字建模、模拟和分析的软件和知识。该设施是瑞典超级计算机瑞典国家计算机技术基础设施的节点之一。目前,C3SE拥有约800名活跃用户,其中一半来自Chalmers。大量存储需求和数据密集型工作流的用户和作业数量正在稳步增加。因此,一个新的计算资源正在建设中。新系统的最大性能预计为300万亿次浮点运算,即每秒300万亿浮点运算。为了获得该设施的资源,新用户必须参加C3SE定期安排的一个介绍性研讨会。CMSI:查尔莫斯质谱基础设施是查尔默斯的基础设施,提供了研究人员获得质谱分析内外查尔默斯。质谱分析是一种可以用来测量分子数量(量化)和结构的分析技术。在研究中,质谱分析有许多不同的应用,从分析食物样品中的金属,确认新合成的分子的结构,或测量血液中的代谢物。定量质谱法是一种广泛的研究领域,根据分子的分子量和化合物的分裂模式来测定和鉴定化合物。通过质谱分析,可以用非常小的量(例如0.0000000001 g)来测量化合物,使用的方法可以有很大的差异,用来测量极性(溶于水)的化合物,而非极性(溶于水)化合物。
The CMSI is mainly focused on measuring small molecules (<1000 Da) in biological samples, and measuring the molecular weight to identify synthesised chemicals. The instruments at CMSI gives biology and chemistry researchers access to state of the art methods with which to carry out their research, and the ability to stay at the forefront of their research fields.It is important to note that the type of mass spectrometers used at the CMSI are not the same as those used by the infrastructure for Chemical Imaging. While both infrastructures use mass spectrometry, the instruments are very different and have very different research applications. For more information about the Chemical Imaging infrastructure at Chalmers, please go to the Swedish page (and read about Infrastruktur för kemisk avbildning).Chalmers Power Central:Chalmers Power central is an advanced energy research facility based at the Johanneberg campus. Cutting edge research in combustion, gasification, gas cleaning, carbon capture, energy storage and material science is carried out here in a large-scale facility along with pilot scale units. The Power central also supplies the campus with electricity, heating, cooling and compressed air.The Power central attracts users from around the world. In the open collaboration concerning this unique facility, researchers, industry and the public sector are engaged in efforts to contribute to a sustainable, climate-neutral future. Based on thorough intelligence analysis, operations are steered towards the most relevant research questions and the equipment is being continuously updated accordingly. The Power central is a joint project between Akademiska hus (property company), Chalmers University of Technology and Göteborg energi (utility company). The Division of Energy Technology at Chalmers coordinates the experimental work that runs together with the operation of a large-scale boiler. The resource is open to all researchers at Chalmers after they have undergone a safety course and been granted access by Akademiska hus.Chalmers Materials Analysis Laboratory:CMAL, is an experimental infrastructure for advanced materials research and characterization. It is open to scientists at Chalmers University of Technology and also users from all universities as well as industries, institutes and the society. The purpose is to provide analysis capabilities in a broad spectrum. The laboratory is equipped with cutting-edge instruments and also with equipment suitable for routine analysis of a wide range of materials. CMAL provides a meeting place and contributes to increased interaction and exchange of ideas across disciplinary boundaries and between university and society. The laboratory staff works closely together with experienced users to provide guidance to new users and to ensure that the equipment is kept in a good condition.The laboratory has world class equipment for structural characterization. There is, for example, a combination of world class electron microscopes including state-of-the-art high-resolution electron microscopes for quantitative imaging, diffraction and spectroscopy and where we also can perform in-situ studies. Moreover, the lab features a state-of-the-art SAXS instrument, a Raman- and an FTIR microscope and spectrometer, as well as a confocal scanning laser microscope. We also have equipment for optical spectroscopy, surface analysis and chemical characterization, as well as equipment for sample preparation.
CMSI:查尔莫斯质谱基础设施是查尔默斯的基础设施,提供了研究人员获得质谱分析内外查尔默斯。质谱分析是一种可以用来测量分子数量(量化)和结构的分析技术。在研究中,质谱分析有许多不同的应用,从分析食物样品中的金属,确认新合成的分子的结构或测量血液中的代谢物。定量质谱法是一种广泛的研究领域,根据分子的分子量和化合物的分裂模式来测定和鉴定化合物。通过质谱分析,可以用非常小的量(例如0.0000000001 g)来测量化合物,使用的方法可以有很大的差异,用来测量极性(溶于水)的化合物,而非极性(溶于水)化合物。CMSI主要关注于在生物样本中测量小分子(小于1000),并测量分子的重量以识别合成的化学物质。CMSI的仪器使生物学和化学研究人员能够接触到进行他们研究的艺术方法的状态,并且能够保持在他们研究领域的前沿。需要注意的是,在CMSI中使用的质谱仪的类型与用于化学成像的基础设施不同。虽然这两种基础设施都使用质谱分析法,但仪器却有很大的不同,而且有非常不同的研究应用。要了解更多关于查尔默斯的化学成像基础设施的信息,请访问瑞典的页面(并阅读有关基础设施的信息)。Chalmers能源中心:Chalmers能源中心是一所位于约翰内堡校区的先进的能源研究机构。在一个大规模的设施和试点规模的装置中在燃烧、气化、气体清洁、碳捕获、能源储存和材料科学方面的前沿研究是在这里进行的。该中心还为校园提供电力、加热、冷却和压缩空气。权力中心吸引着来自世界各地的用户。在有关这一独特设施的公开合作中,研究人员、工业和公共部门正在努力为一个可持续的、气候中立的未来做出贡献。基于全面的情报分析,操作被导向最相关的研究问题,设备也在不断地更新。权力中心是Akademiska的(房地产公司)、查尔莫斯科技大学和堡能源公司(公用事业公司)的联合项目。在查尔默斯的能源技术部门协调了与大型锅炉的运行相结合的实验工作。这一资源对Akademiska的所有研究人员都是开放的。
Chalmers Simulator Centre:The Lindholmen campus has the most comprehensive simulation equipment for training and research in maritime operations. There are a number of different simulators here representing different parts of a vessel and functions on shore. Several of the simulators are connected together which makes it possible to simulate complex scenarios, such as entire shipping lanes with several operators involved.For training courses, the Simulation Centre is used for training aspiring marine officers in advanced operations, including preventing and mitigating the consequences of accidents at sea. The simulators are also used in the training of professional active marine officers.The simulation centre is linked to the Lighthouse maritime competence centre and is used in domestic and international research projects with participants from academia, maritime authorities and maritime industries. The simulators also serve as test platforms for a range of projects, such as the evaluation of newly developed e-navigation services.
Chalmers材料分析实验室:CMAL是先进材料研究和表征的实验基础设施。它面向的是Chalmers技术大学的科学家,同时也是来自所有大学以及工业、研究所和社会的用户。其目的是在广泛的范围内提供分析能力。实验室配备了先进的仪器设备,并配备了适用于各种材料的常规分析的设备。CMAL提供了一个会议场所,并促进了跨学科界限和大学和社会之间的思想交流和交流。实验室工作人员与有经验的用户紧密合作,为新用户提供指导并确保设备处于良好状态。该实验室具有结构特征的世界级设备。例如,有世界一流的电子显微镜,包括最先进的高分辨率电子显微镜用于定量成像,衍射和光谱,我们也可以在现场进行现场研究。此外,该实验室还配备了一种最先进的萨克斯仪器、拉曼和红外光谱显微镜和光谱仪以及一种共聚焦扫描激光显微镜。我们还拥有光学光谱、表面分析和化学特性的设备,以及样品制备的设备。
Chalmers模拟器中心:林德霍尔曼校园拥有最全面的海事模拟训练和研究设备。这里有许多不同的模拟器,分别代表不同的容器和岸上的功能。有几个模拟器连接在一起,这使得模拟复杂的场景成为可能,比如包含多个操作符的整个航线。在训练课程中,模拟中心用于训练有抱负的海军高级军官,包括预防和减轻海上意外事故的后果。这些模拟器也用于训练专业的海军陆战队军官。该模拟中心与灯塔海事能力中心有关,并与来自学术界、海事部门和海事部门的参与者一起在国内和国际研究项目中使用。模拟器还可以作为一系列项目的测试平台,例如对新开发的电子导航服务的评估。
HSB Living Lab:Illustration of HSB Living Lab which is under constructionHSB Living Lab is a research and collaboration project between Chalmers, Johanneberg Science Park and HSB, together with a number of associate partners. Some 30 apartments for students and visiting researchers is built on the Johanneberg campus. As well as providing residential accommodation, the building will serve as a laboratory for the researchers − a living laboratory. This provides a great opportunity to conduct research into sustainable innovations in real-life residential environments. Measurements will be collected through sensors in the building, where water recycling, a solar panelling solution, smart booking systems, electricity consumption and sustainable building materials and components will be tested and evaluated.The house stood ready to move into in June 2016.
HSB生活实验室:HSB生活实验室的图解,是Chalmers、约翰安妮伯格科学公园和HSB之间的一个研究和合作项目,以及许多伙伴合作伙伴。大约30套公寓给学生和来访的研究人员建造在约翰安妮伯格校园。除了提供住宿,该建筑还将作为实验室的一个实验室供研究人员使用。这为我们提供了一个绝佳的机会,可以在现实生活中的住宅环境中对可持续的创新进行研究。测量将通过建筑物中的传感器收集,在那里,水回收,太阳能板的解决方案,智能预订系统,电力消耗和可持续的建筑材料和组件将被测试和评估。这所房子准备在2016年6月搬进去。
Living Lab :Nanofabrication LaboratoryTThe Nanofabrication Laboratory is a clean room facility for research and development in micro and nanotechnology. Here you will find a wide range of equipment for developing and testing new ideas on a micro and nano scale. The laboratory is part of the national research infrastructure Myfab, which is hosted by Chalmers University of Technology and consist of the four major cleanroom facilities in Sweden. The Nanofabrication Laboratory at Chalmers is the national node for nanolithography, which is a method for producing patterns in the nanometer scale. Chalmers' expertise and extensive experience in nanolithography forms the basis for two strategic areas: microwave electronics and photonics, and quantum components. Here you have a complete laboratory fitted out to perform all the steps from material growth to components and circuits.The laboratory is open to both internal and external academic and commercial stakeholders. There are staff who train new users, even those with no prior knowledge, to use the equipment and in fabrication methods. The staff can also perform commissions for customers who lack their own staff or the opportunity to work in a clean room.
纳米实验室:纳米实验室是微纳米技术研究和发展的一个洁净室。在这里,你将会发现各种各样的设备,用于在微观和纳米尺度上开发和测试新想法。这个实验室是国家研究基础设施Myfab的一部分,它由Chalmers技术大学主办,由瑞典四个主要的洁净室设施组成。摘要Chalmers的纳米实验室是纳米级的国家节点,是纳米级的一种生成模式的方法。Chalmers在纳米技术方面的专业知识和丰富的经验构成了两个战略领域的基础:微波电子和光子,以及量子组件。在这里,你有一个完整的实验室,可以完成从物质生长到元件和电路的所有步骤。实验室对内部和外部的学术和商业利益相关者都是开放的。有一些员工培训新用户,甚至是那些没有事先了解的用户,他们使用设备和制造方法。员工也可以为没有自己的员工或在干净的房间里工作的顾客提供佣金。
Onsala Space Observatory:The Onsala Space Observatory is a national facility for radio astronomy operated by Chalmers on behalf of the Swedish Research Council. The facility is located on the Onsala peninsula, 45 km south of Gothenburg. The area is home to a 25-metre radio telescope, and a 20-metre radio telescope for millimetre waves and the Swedish station in the European radio telescope Lofar. Onsala Space Observatory is also involved in the development of instruments for shorter wavelengths, such as for the Sest telescopes and Apex in the Andes in South America. The observatory is also involved in international projects such as the European VLBI Network, Alma, Lofar, SKA and Herschel Telescope.Techniques developed for radio astronomy are also well suited for observations of the Earth and its atmosphere. Research at the observatory therefore also deals with the measurement of the Earth, navigation and remote analysis. A new instrument – the Onsala twin telescope – is in the process of being acquired to accurately determine continental drift.
梅迪奇纳空间天文台:奥萨拉太空天文台是Chalmers代表瑞典研究委员会的国家无线电天文学机构。该设施位于哥德堡南部45公里处的翁萨拉半岛。这个区域是一个25米长的射电望远镜,还有一个20米长的射电望远镜,用于毫米级的海浪和位于欧洲射电望远镜Lofar的瑞典站。梅迪奇纳空间天文台也参与了缩短波长的仪器的开发,例如在南美洲安第斯山脉的最大望远镜和顶点。天文台也参与了国际项目,如欧洲的VLBI网络、Alma、洛远、斯卡和Herschel Telescope。无线电天文学发展的技术也很适合观测地球及其大气。因此,天文台的研究也涉及到地球的测量、导航和远程分析。一种新的仪器——梅迪奇纳空间天文台——正在被用来精确测定大陆漂移的过程中。
Chalmers Resource for Vehicle Research:Revere is a new laboratory focused on automotive-related research. Main research areas are self-driving vehicles, active safety and vehicle dynamics. In the lab, there are several vehicles which can be fitted with different types of sensors, equipment for data logging, communication technology and more. This allows the lab to provide a research platform for development and verification of theoretical models, algorithms and technologies using real vehicles in real traffic environments. Tests in different traffic environments are carried out in close cooperation with the test track AstaZero, where Chalmers is a partner. There is also an explicit aim to promote research between different scientific disciplines, and to increase collaboration between researchers from different universities and research institutes. The lab is also available for undergraduate students and companies involved in research projects. Thereby Revere is an important arena for innovation and collaboration.
车辆研究资源:里维尔是一个专注于汽车相关研究的新实验室。主要研究领域是自动驾驶汽车、主动安全和车辆动力学。在实验室里,有几辆车可以装上不同类型的传感器、数据记录设备、通信技术等等。这使得实验室能够提供一个研究平台,在真实的交通环境中使用真实的车辆来开发和验证理论模型、算法和技术。在不同的交通环境中进行的测试与测试轨道上的阿斯佐罗进行了密切的合作,Chalmers是其中的合作伙伴。还有一个明确的目标是促进不同学科之间的研究,并增加来自不同大学和研究机构的研究人员之间的合作。该实验室也可为参与研究项目的本科生和公司提供。因此,敬畏是一个重要的创新和合作领域。
The National laboratory in terahertz characterisation:The National laboratory in terahertz characterisation is a new, unique laboratory for the development of technology in the hard to reach terahertz frequency range, i.e. frequencies of the order of a trillion cycles per second. The Terahertz range is attractive and offers applications including space exploration, future wireless communications and radar sensors, for example for a self-propelled vehicle fleet. The vision is to become one of the three most complete and advanced measurement laboratories for high frequencies, open to users from all around the world. A new generation of instruments allows measurements at frequencies up to and above one terahertz. The equipment is adapted to suit multiple research areas: materials, components, circuits, systems, and antennas for high frequencies. The National laboratory in terahertz characterisation is brand new and will start operations in the spring of 2015. The laboratory is heavily linked to undergraduate education at Chalmers and will educate and train new users continuously in measurement technology.
国家实验室在t赫兹的特点:赫兹的国家实验室是一个新的独特的实验室,用于技术的发展,难以达到赫兹的频率范围,也就是每秒万亿次循环的频率。赫兹的范围很吸引人,它还提供了包括空间探索、未来无线通信和雷达传感器在内的应用例如一个自动驾驶的车队。该公司的愿景是成为全球三大最完善、最先进的高频率测量实验室之一,面向世界各地的用户开放。新一代的仪器允许测量频率超过一赫兹的频率。该设备适用于多种研究领域:材料、元件、电路、系统和高频率的天线。国家实验室是全新的将于2015年春季开始运作。该实验室与查尔莫斯的本科教育紧密相关,并将在测量技术方面不断地教育和培训新用户。
New research infrastructures:Some research infrastructures has been added. They will be presented on this list as well. The new Chalmers infrastructures are,Facility for Computational Systems Biology – Director Thomas Svensson,Chemical Imaging Infrastructure – Director Per Malmberg,Roadmap for Research,Infrastructure at Chalmers,The funding of expensive research equipment is changing in Sweden. In order for Chalmers researchers to have access to the best possible equipment in the changeover that is currently taking place, Chalmers has submitted a plan for how to achieve this.To date, universities and educational institutions have been able to apply for specific allocations for major investments in advanced equipment. In the future, universities must have self financing facilities and researchers must apply for funds for user fees to cover operation and maintenance.The whole landscape has changed and the map needs to be redrawn. We have therefore developed a “roadmap” for research infrastructure at Chalmers. A strategy that describes what we want to achieve and how we will get there,” says Alf-Erik Almstedt, who is Vice President with responsibility for research and graduate education at Chalmers.
新的研究基础设施:我们已经添加了一些研究基础设施。他们也会被列在这个名单上。新查尔默斯的基础设施、设备计算系统生物学——董事托马斯•斯文森化学成像基础设施——每只是导演,路线图研究,基础设施在查尔莫斯,昂贵的资金在瑞典研究设备正在改变。为了让Chalmers的研究人员能够在目前正在进行的转变中获得最好的设备,Chalmers已经提交了一份如何实现这一计划的计划。到目前为止,大学和教育机构已经能够申请在先进设备上的主要投资的专项拨款。在未来,大学必须有自己的融资设施,研究人员必须申请资金以支付用户费用以用来支付运营和维护费用。整个景观发生了变化,地图需要重新绘制。因此,我们已经制定了Chalmers的研究基础设施的“路线图”。Chalmers是负责研究和研究生教育的副总统,他说:“我们的战略是描述我们想要实现的目标,以及我们将如何实现这一目标。
四、校园环境(源自网络,非本网站翻译)
学校所在的瑞典第二大城市哥德堡位于瑞典美丽的西海岸,是北欧地区最大也是最重要的港口城市。哥德堡港终年不受冻,成为瑞典和西欧通新风气主要港埠.因为哥德堡地处哥本哈根、奥斯陆和斯德哥尔摩三个北欧国家首都的中心,有450多条航线通往世界各地,是北欧的咽喉要道,在它方圆300公里以内是北欧三国工业最发达的地区,是北欧的工业中心。
该城市约50万人口中有近6万人都是Chalmers与哥大的学生,使这个城市成为斯坎迪纳维亚地区最大的大学城。友好的城市政府每年都会免费给所有新来到哥德堡的国际学生发送一系列市区景点,博物馆参观券,体育比赛和演出门票。每年四月下旬举行的Chalmers花车游行是哥德堡市的一大节日,届时无数由CTH学生设计与制作的古怪花车与管乐队将和兴奋狂欢的市民与学生一起占领城市的主要街道,享受北欧一年之中最好的季节。1937年,Chalmers搬至位于Gibraltar的Johanneberg主校区,校区是一当地一座建筑物命名,这里距城市中心步行仅15分钟。
位于城市北部Hinsingen岛上的Lindholmen校区与市中心隔河相望,风景优美。该校区设立于上世纪90年代初,约有2700名本科学生(科学工程专业,商船专业,和其他本科课程)在这个校区上课。这里也是哥德堡Lindholmen科学园区的所在地(Lindholmen Science Park),该科技园不仅拥有沃尔沃集团(Volvo Group),沃尔沃汽车(Volvo Cars) , 爱立信,萨博(SAAB),斯堪尼亚(Scania), IBM, SVT(瑞典国家电视台)等大型公司的研发中心,也是无数小型创新公司的基地,其发展重点是移动互联网技术、远程信息处理以及现代媒体,瑞典约75%的影视制作都在该园区完成。16路公交车连接了学校的两个校区,车程大约为20分钟。
五、知名校友(源自网络,非本翻译)
Abraham Langlet, 著名化学家
尼尔斯·古斯塔夫·达伦,诺贝尔物理学奖获奖者
Ingemar Lundström,诺贝尔物理奖评委会主席
Leif Johansson,爱立信董事长,前沃尔沃集团(Volvo Group)总裁兼CEO
Leif Osting,斯堪尼亚(SCANIA)汽车总裁兼CEO,SKF集团董事局主席
Peter Augustsson,前萨博汽车(Saab Automobile)总裁兼CEO
Hå kan Buskhe,萨博集团(Saab Group,军工)总裁兼CEO
Hans Straberg,伊莱克斯(Electrolux)总裁兼CEO
Goran Lindahl,ABB 集团总裁兼CEO
Sune Carlsson,阿特拉斯·科普柯集团(Atlas Copco)董事局主席
西格弗里德·埃德斯特隆,第4任国际奥林匹克委员会主席
Peter Nordin,计算机科学家,创业家
Gert Wingårdh,著名建筑设计师
Lars Pensjǒ,LPC 编程语言之父
Ludvig Strigeus,瑞典著名程序员,BitTorrent,μTorrent,OpenTTD and ScummVM 等世界知名软件的开发者,也是欧洲最大的音乐服务网站Spotify的主要开发者,现就职于Spotify。
Ivar Jacobson,UML之父,Use Case、RUP等软件技术作者,公认的软件工业开发模式的世界级大师
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