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神基Getac全强固式移动计算机解决方案: 神基科技股份有限公司（Getac Technology Corporation）成立于 1989年，在台湾股票交易所上市，是MiTAC-Synnex Business Group（神通电脑集团）的主要子公司之一，是台湾的第三大电脑科技集团公司，2010 年收入达 215 亿美元。神基科技的主要业务包括两大类：强固式计算解决方案，以及塑料和金属组件整合业务。作为领先的强固式计算解决方案提供商，Getac 提供全面的强固式计算产品系列，包括笔记本电脑、平板电脑、掌上型电脑等，强度级别从全强固式、半固式到商用级强固式。所有产品均采用一流的技术，符合国际试验标准，如 MIL-STD 810G、MIL-STD 461F 和 IP ratings (IP54、IP65、IP67)。Getac 强固式产品适用于众多行业，涵盖国防军事、执法、公共安全、公用事业、外勤、石油燃气、电信、运输、制造和移动工作行业。Getac 可提供一流的定制服务，以满足不同细分市场的不同要求。

2011/5/13
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Low Voltage Distribution: Discover our integrated portfolio of products for safe, economical and flexible low-voltage power distribution and electrical-installation technology.

2010/8/10
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罗克韦尔自动化全球制造业趋势及全厂最优化的发展_工控十年自动化经营管理论坛: 在刚刚揭晓的gongkong十年成就评选中，我们关注了企业奖项。无论是领军企业、成长新锐还是新兴品牌都在自动化发展中都起着十分积极的作用。今天，我们荣幸的邀请到了其中几个比较有代表性的企业，分享成功的发展经验和面向未来的自动化发展之道。Global Manufacturing Trends and Plant-Wide Optimization 全球制造业趋势及全厂最优化的发展,演讲人：谢锐新 Sunny Tse 罗克韦尔自动化市场总监。Global Economic Outlook 全球经济展望 Manufacturing and Technology Trends 制造业和技术发展趋势 Integrated Architecture and Plant Wide Optimization 集成架构及全厂最优化的实现

2010/1/22
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互动壁——与参观者互动的贸易展会系统InteractiveWall: 互动壁的出现证明了一种建筑学新形式，它动感十足，互动性好。这一技术把仿生鳍条结构的优势和Festo自动化尖端技术结合起来。互动壁可以按照预先设好的动作程序运转，也可以与游客进行现场互动。它能实时把参展游客的举止转化成动作、光线和音乐。 InteractiveWall – a trade fair system reacts to visitors InteractiveWall demonstrates a new form of architecture that is dynamic and interactive. It combines the advantages of the bionic Fin Ray structure with state-of-the-art automation technology from Festo. InteractiveWall can either follow a predetermined sequence of movements or interact with people in front of it. It transforms the behaviour of trade fair visitors into motion, light and music in real time.

2009/12/9
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音乐发声机The Sound Machines: 在 2007年汉诺威工业博览会上，五个自动发声机为开幕式伴奏音乐，这大大得力于Festo公司的技术。发声机中所运用的气动装置和PLC与它们过去在工业自动化中的用途完全不同。在这里它们为科技和音乐架起了桥梁。布景设计师兼机器人艺术家Roland Olbeter 开发制造了这套独一无二的“音乐发声机”，由四重奏电弦和一个鼓组成。四个弦乐器的声音和功用与电吉他相差无几，不同的是每个弦乐器上面只有一根弦。每个音乐机中都使用了21个Festo公司生产的微柱体。这些微气柱体仿音乐家左手的机械运动，并通过弦长来决定音高。在鼓上的那些微柱体制动着多个鼓槌和一个爵士乐刷。澳大利亚作曲家Elena Kats-Chernin为2007年汉诺威工业博览会特别创作了“湛蓝天空”（Fast Blue Air）。这首曲子进一步开发了音乐发声机的声音范围，甚至连气动装置产生的噪音也包括在内。音乐程序储存于乐器数字接口文件（MIDI files）中。乐声是通过三个步骤产生的。第一步是“数字化”，这时的音乐发声机由PLC控制。第二步，气动元件像吉他手一样拨动琴弦或者像弦乐器音乐家一样击打琴弦来使琴弦震动发声。第三步，乐声像电吉他一样由电子接收器接受并扩大。由此，音乐发声机可以产生各种不同的音乐效果。 Five automated sound machines provided musical accompaniment for the opening celebrations at the Hannover Messe 2007 – thanks to technology from Festo. Pneumatic components and a PLC control system were applied very differently from the way they are used in industrial automation; they created a bridge between technology and art.

2009/12/3
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ABB的第五代机器人控制器:IRC5: IRC5是ABB的第五代机器人控制器。 Its motion control technology, TrueMove & QuickMove, is key to the robots performance in terms of accuracy, speed, cycle-time, programmability and synchronization with external devices.它的运动控制技术，TrueMove QuickMove，关键是机器人的性能，准确，速度，周期计算时间，可编程性和外部设备的同步。观看电影可以看到这种行动出色的运动控制。

2009/12/2
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气动机器人手臂Airics_arm: “气动机器人手臂”的灵感来源于自然界。结合机电一体化和人类仿生学模型，机器人手臂彰显了未来自动运动序列新的可行性。 “气动机器人手臂”由机器骨骼和机器肌肉组成。30块肌肉连接带动骨骼移动，包括尺骨、桡骨、掌骨和指骨以及肩关节和肩胛。这种连接技术目前还没有发明出来。机器肌肉是Festo公司的一个产品，已经广泛应用于工业应用，叫做流体肌肉。这种技术使用了Festo公司的微型创新压力比例阀，让我们能够精确控制设计的力量和硬度。这些执行器与机电一体化系统和软件的技术水平同步。扩展“气动机器人”的传感器系统也非常合理，就像开发后背、臀部和脖子部位一样，比如安装摄像头或者有感知能力的零件。这些扩展让机器人能够在更加危险的情况下工作发挥了重要作用。 Airics_arm is inspired by nature. Combining mechatronics and the model of human biology, the robotic arm shows new possibilities in automated motion sequences of the future. Airics_arm is equipped with artificial bones and muscles. 30 muscles move the bone structure comprising the ulna and radius, the metacarpal bones and the bones of the fingers as well as the shoulder joint and the shoulder blade; joints that are not found in the world of technology. The muscles are a product of Festo and are already widely used in industrial practice under the name of Fluidic Muscle. This technology, combined with very small and highly innovative piezo proportional valves from Festo, enable us to accurately control the designs forces and rigidity. These actuators are coordinated by state-of-the-art mechatronic systems and software. Extending the system of sensors of Airics_arm, e.g. with cameras or elements for tactile perception, is just as plausible as the development of a design for a back, hip and neck. These extensions will also play an important role in robotics as even more dangerous and hazardous situations in technology could be assigned to them.

2009/11/20
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气动手臂AirArm: 通过分析龙虾和蝗虫的腿以及人类手指的形态得到了气动手臂的灵感。它是一个带有外部骨架的两节式桥臂，由气动肌腱驱动。智能控制技术使气动手臂能赶上水滴的速度。气动手臂在技术上的意图是能够在指定半球状运行范围内延伸到尽可能多的区域。选择一般技术实践的常规原理，使带气动肌腱的两节式伸缩系统同时反向运行。 AirArm is biologically inspired by analyses of lobsters’ and grasshoppers’ legs and by human pointing gestures. It is a two-segmented arm with an external skeleton powered by pneumatic muscles. Intelligent control technology enables AirArm to catch drops of water. The technical purpose of AirArm is to reach as many points as possible within a hemispherical operating range defined from a specified point in space. A two-segmented flexing system with muscles operating together in contrary motion was chosen as the general principle for technical realisation.

2009/11/9
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空中企鹅AirPenguin_Festo仿生技术: airPenguin –空中企鹅——自动飞翔的机器企鹅. 随着空中企鹅的问世， Festo公司的工程师们创造了人造企鹅，并教会他们“在空中自主飞行”。为此，控制和调节技术进一步发展成自我调节生物机电一体化系统，该系统可以在今后的生产适应性发挥作用。一组3只自动飞行的企鹅自由盘旋在空中超声发射站监控下的固定区域。企鹅能够自由的在这个空间内移动，因为一个微控制器赋予了他们自由的意志来以开拓这片空间。 autonomously flying robotic penguins With the AirPenguins, the engineers from Festo have created artificial penguins and have taught them "autonomous flight in the sea of air". For this purpose, control and regulating technology had to be further developed into self-regulating biomechatronic systems, which could also play a future role in adaptive production. A group of three autonomously flying penguins hovers freely through a defined air space that is monitored by ultrasound transmission stations. The penguins are at liberty to move within this space; a microcontroller gives them free will in order to explore it.

2009/10/23
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水下企鹅AquaPenguins_Festo仿生技术: 水下企鹅- 技术-水下自动运载工具AquaPenguins - technology-bearers as autonomous underwater vehicle.与它自然界的原型一样，来自费斯托（Festo）公司的水下企鹅具有一个带水动力的身体轮廓。其优雅的推进力以及其可向各个方向移动的机翼头部和尾部，让机器人企鹅可以在狭窄的空间条件下自由穿行，并且在必要时及时出现甚至可以向后游——这一点可不像它们的自然界的原型。仿生企鹅设计成水下自动运载工具，可以自由定位并且可在水池中穿行。这种工具有一个3D的海豚音声纳系统，使得“企鹅”可以与周围的伙伴们交流，比如避免互相碰撞。Like its natural archetype, the AquaPenguin from Festo has a hydrodynamic body contour. Its elegant wing propulsion and its head and tail sections, which can be moved in all directions, allow the robotic penguins to manoeuvre in cramped spatial conditions, to turn on the spot when necessary and – unlike their biological counterparts – even to swim backwards. The bionic Penguins are designed as autonomous underwater vehicles that independently orient themselves and navigate through the water basin. They are supported by a 3D sonar system which, as with dolphins, allows communication with their surroundings and with other robotic penguins – for example to avoid collisions.

2009/10/22
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