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航空航天与国防资料下载

GIGAOM RESEARCH REPORT:
ENABLING IOT

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PRACTICAL IMPLEMENTATION OF SDN & NFV IN THE WAN

A high-performance NFV solution based on standard open-source software and COTS hardware

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ACHIEVING NAVAL SUPERIORITY WITH SOFTWARE

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HIGH ASSURANCE SYSTEMS DEVELOPMENT USING THE MILS ARCHITECTURE

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SAFETY-CRITICAL SOFTWARE DEVELOPMENT FOR INTEGRATED MODULAR AVIONICS

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更多资源

NASA Jet Propulsion Laboratory MSL Curiosity

Customer Success Video

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NASA IV&V

Customer Success Video

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Simics Overview

Video

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AgustaWestland "Project Zero"

Customer Success Video

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Northrop Grumman

Customer Success Video

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汽车资料下载

GIGAOM RESEARCH REPORT:
ENABLING IOT

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DEVICES IN THE CLOUD

Driving Intelligence Where You Need It

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ACCELERATING BUSINESS TRANSFORMATION

Opportunities and Challenges in the Internet of Things

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SMARTER WAYS TO USE THE INTERNET OF THINGS

How to Apply New Paradigms to Increase Operational Efficiency

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用例分析

物联网:适应性分析

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物联网:预测性维护

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更多资源

Challenges Ahead for In-Vehicle Infotainment Systems

A Revolution Is Taking Place in the Automobile

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工业与能源资料下载

Shaping the Future of Energy

IoT Solutions Revolutionize Processes to Take Your Business to the Next Level

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GIGAOM RESEARCH REPORT:
ENABLING IOT

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DEVICES IN THE CLOUD

Driving Intelligence Where You Need It

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ACCELERATING BUSINESS TRANSFORMATION

Opportunities and Challenges in the Internet of Things

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SMARTER WAYS TO USE THE INTERNET OF THINGS

How to Apply New Paradigms to Increase Operational Efficiency

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SECURITY IN THE INTERNET OF THINGS

Lessons from the Past for the Connected Future

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BUILDING A SMARTER SMART GRID

Counteracting Cyber-Threats in Energy Distribution

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ENHANCING INTELLIGENCE IN THE 'INTERNET OF THINGS'

The Business of Embedded Virtualization

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KEEPING RAIL PROJECTS ON TRACK AND ON TIME

Solutions for Mastering Complex Technology Challenges

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用例分析

物联网:适应性分析

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物联网:预测性维护

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物联网:智能制造

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物联网:智能建筑与住宅

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物联网:能源

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更多资源

Group NIRE Customer Success Video

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Daikin Customer Success Video

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Connecting Legacy Devices to the IoT

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Connected, Managed, and Secure

Delivering the Next Generation Smart Grid

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医疗资源下载

GIGAOM RESEARCH REPORT:
ENABLING IOT

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DEVICES IN THE CLOUD

Driving Intelligence Where You Need It

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ACCELERATING BUSINESS TRANSFORMATION

Opportunities and Challenges in the Internet of Things

了解更多

SECURITY IN THE INTERNET OF THINGS

Lessons from the Past for the Connected Future

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ENHANCING INTELLIGENCE IN THE 'INTERNET OF THINGS'

The Business of Embedded Virtualization

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JUST WHAT THE DOCTOR ORDERED

A Solution for Smarter Therapeutic Devices

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用例分析

物联网:适应性分析

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物联网:预测性维护

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物联网:医疗

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Article: Secured by Embedded Software, Internet of Things Earns Trust in Medical Field

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交通资源下载

GIGAOM RESEARCH REPORT:
ENABLING IOT

了解更多

DEVICES IN THE CLOUD

Driving Intelligence Where You Need It

了解更多

ACCELERATING BUSINESS TRANSFORMATION

Opportunities and Challenges in the Internet of Things

了解更多

SMARTER WAYS TO USE THE INTERNET OF THINGS

How to Apply New Paradigms to Increase Operational Efficiency

了解更多

SECURITY IN THE INTERNET OF THINGS

Lessons from the Past for the Connected Future

了解更多

ENHANCING INTELLIGENCE IN THE 'INTERNET OF THINGS'

The Business of Embedded Virtualization

了解更多

KEEPING RAIL PROJECTS ON TRACK AND ON TIME

Solutions for Mastering Complex Technology Challenges

了解更多

用例分析

物联网:交通

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物联网:智能建筑与住宅

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物联网:预测性维护

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更多资源

Connecting Legacy Devices to the IoT

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物联网资源下载

NEW LIFE FOR EMBEDDED SYSTEMS IN THE INTERNET OF THINGS

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GIGAOM RESEARCH REPORT:
ENABLING IOT

了解更多

DEVICES IN THE CLOUD

Driving Intelligence Where You Need It

了解更多

ACCELERATING BUSINESS TRANSFORMATION

Opportunities and Challenges in the Internet of Things

了解更多

SMARTER WAYS TO USE THE INTERNET OF THINGS

How to Apply New Paradigms to Increase Operational Efficiency

了解更多

SECURITY IN THE INTERNET OF THINGS

Lessons from the Past for the Connected Future

了解更多

BUILDING A SMARTER SMART GRID

Counteracting Cyber-Threats in Energy Distribution

了解更多

ENHANCING INTELLIGENCE IN THE 'INTERNET OF THINGS'

The Business of Embedded Virtualization

了解更多

KEEPING RAIL PROJECTS ON TRACK AND ON TIME

Solutions for Mastering Complex Technology Challenges

了解更多

JUST WHAT THE DOCTOR ORDERED

A Solution for Smarter Therapeutic Devices

了解更多

PRACTICAL IMPLEMENTATION OF SDN & NFV IN THE WAN

A high-performance NFV solution based on standard open-source software and COTS hardware

了解更多

ACHIEVING NAVAL SUPERIORITY WITH SOFTWARE

了解更多

HIGH ASSURANCE SYSTEMS DEVELOPMENT USING THE MILS ARCHITECTURE

了解更多

SAFETY-CRITICAL SOFTWARE DEVELOPMENT FOR INTEGRATED MODULAR AVIONICS

了解更多

用例分析

物联网:交通

了解更多

物联网:适应性分析

了解更多

物联网:预测性维护

了解更多

物联网:医疗

了解更多

物联网:智能制造

了解更多

物联网:智能建筑与住宅

了解更多

物联网:能源

了解更多

更多资源

Connecting Legacy Devices to the IoT

了解更多

Article: Secured by Embedded Software, Internet of Things Earns Trust in Medical Field

了解更多

Connected, Managed, and Secure

Delivering the Next Generation Smart Grid

观看视频

Challenges Ahead for In-Vehicle Infotainment Systems

A Revolution is Taking Place in the Automobile

Download the infographic

NASA Jet Propulsion Laboratory MSL Curiosity

Customer Success Video

观看视频

NASA IV&V

Customer Success Video

观看视频

Simics Overview

Video

观看视频

AgustaWestland "Project Zero"

Customer Success Video

观看视频

Northrop Grumman

Customer Success Video

观看视频

随时随地为您提供智能化物联网

物联网带来的机遇可能是新兴的,但风河®致力提供搭载互连自动化系统的智能技术已有数十载。在高度规范的行业和任务关键型应用程序中,信息安全至关重要,绝不能出现任何差池。为此,风河提供了必要的智能技术,为物联网网络和连接设备安全可靠、有效的运行奠定基础。





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由于越来越多的运营商想利用庞大的网络数据流获得最大化利润,流量分析、深度包检测和线路速率的相关要求仍有待提高。巨大的成本压力将吸引更多的运营商选用网络功能虚拟化(NFV)等软件解决方案。

分布式智能技术在确保安全采集代表性数据的同时,有助于减少云计算冗余。

航空航天与国防

数十年来,物联网的发展为航空航天与国防工业带来诸多益处。陆地、海面、空中和太空之间的信息共享与合作,通常被称为互联战场或网络战场,大大提高了战场信息质量及态势感知能力。

智能技术的添加使得人类能够实现真正意义上的跨领域自主操控,而不是简单的远程控制。因此,设备系统须具备高度的可靠性及安全性。由于复杂的认证和装配通常由多个制造商通力协作完成,这就要求他们积极合作并应用Future Airborne Capability Environment (FACE™)等标准,以便提升互操作性。

物联网产生的大量信息不仅需要稳健的通信网络,还需要强大的数据挖掘能力,以促进实时决策。
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单个智能喷气引擎能够在5个小时飞行时间内产生1 TB的数据。
观看我们的信息图

航空航天与国防

云与业务逻辑

若想了解如今军事领域是如何利用云技术来完成任务的,可参见互联战场、网络战场以及全球作战支援系统等案例。
探 索

人事管理、安全资产管理及安全设施主要从军事云端提取数据,从而提高效率并管理成本。

风河®Carrier Grade Communications Server能够提供99.999%的可靠性,并进一步保障支撑关键设施的开源平台兼具可扩展性和安全性。

航空航天与国防

数据中心

实时战场每小时可生成千万亿字节的数据,这就需要有可靠的数据中心来处理这些数据。
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风河®Linux 使得关键任务基础设施能够充分利用开源标准的优势以及风河特有的坚固性和可靠性。

风河® Carrier Grade Communications Server 是一个虚拟化软件平台,旨在优化网络功能虚拟化(NFV)部署,实现与现存网络的无缝集成

航空航天与国防

网络

军事网络运用了多种网络性能,包括SatCom。军事网络不断利用IPv6来提升可靠性和安全性,这就要求制定高效的商用解决方案来支持这一军事应用。
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如今已有多项卓越的卫星和空间系统采用风河® VxWorks®操作系统。
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风河® Simics®是一款性能完善的系统仿真器,能够通过模拟空间系统的硬件配置,帮助检测飞行器的可行性。
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风河®Open Virtualization能够为军事系统提供卓越、可靠的解决方案,以便充分利用网络功能虚拟化(NFV)的灵活性。
参阅"SDN & NFV在WAN中的实际应用"白皮书。

航空航天与国防

网关

前线指挥所需要从上千种战场资源中实时收集战场情报,并及时进行处理和反馈,以增强态势感知能力。这类实时数据经过处理可以应用到具体实践中。
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这些收集而来且经过处理的数据可分为高度敏感数据和较不敏感数据。风河® VxWorks® MILS Platform能够确保数据的可信度和安全性。
参阅"我们的软件成功为海军胜战助力"白皮书

风河®Open Virtualization能够为军事系统提供卓效、可靠的解决方案,以便充分利用网络功能虚拟化(NFV)的灵活性。

风河® Intelligent Device Platform是一个具备可扩展性、可持续性的安全开发环境,简化了网关的研发、集成和部署流程。

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监测及数据聚合

P8 Poseidon等高端传感器平台包含大量执行不同任务的传感器。因此,这些传感器平台必须能够合并传感器数据,并将其汇报给指挥与控制总部。
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这些收集而来且经过处理的数据可分为高度敏感数据和较不敏感数据。风河® VxWorks® MILS Platform能够确保数据的可信度和安全性。
参阅"利用MILS架构实现高保障系统开发"白皮书
参阅"航电通信系统必备的风河技术"新闻稿

320多个航电项目采用了风河® VxWorks®653 Platform, 符合关键任务应用的安全性要求。

风河® Open Virtualization 能够为军事系统提供卓效、可靠的解决方案,以便充分利用网络功能虚拟化(NFV)的灵活性。

航空航天与国防

设备与控制

目前已成功实现战场的互联互通。从相互关联的战士到无人驾驶的地面车辆,军队需要管理成千上万台联网设备,且每台设备生成的数据必须经过分析,并落实到实践中。
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为了分享这些战场资源,并充分发挥指挥与控制系统的作用,必须设定Future Airborne Capability Environment (FACE™)等开放标准。

凭借Hypervisor及VxWorks® 653 Platform等风河®解决方案,这些战场资源能够在原有组件上添加新功能。
参阅"针对综合模块化航电的安全软件开发"白皮书

风河®Simics®是一款性能完善的系统仿真器,能够为开发人员提供革命性开发环境,便于进行调试、测试和集成。
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航空航天与国防

传感器

目前的无人机能够执行情报搜集、监测、目标获取及侦察等多项复杂的任务,且包含传感器。这些地面车辆不仅能够实现远程控制,还具有高度自主性,能够根据自身的有效载荷传感器及其他设施的传感器作出决策。
探 索

地面移动目标指示(GMTI)、视频、雷达、运动传感器以及激光雷达等各类有效负载和GPS由多家供应商提供。ARINC 653及FACE™等开放标准能够促进数据集成。
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320多个航电项目采用了风河® VxWorksreg; 653 Platform,符合关键任务应用的安全性要求。
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有效负载,如地面移动目标指示(GMTI),需要具备高效的计算能力来帮助无人机跟踪快速移动的地面车辆。VxWorks® 能够为这类应用提供可靠、卓越的操作环境。
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交通运输

各类交通工具对数据和自动化决策的依赖日益加剧,旨在确保提供安全、可预测的服务,并优化设备利用率。从列车运营到轨道分配,再到客户服务,物联网无不发挥着重要的作用。物联网将影响整个生态系统及其操作流程,包括交通部门、运营管理者以及供应商。不同交通工具之间也是互联互通的,例如,飞机之间可以相互汇报不稳定气流状况,巴士之间可以提醒对方交通延误。此外,交通工具还可以与基于云的中央控制系统实时通信。中央控制系统旨在跟踪各类交通工具的行踪。通过加强合作,并获取更多的关键信息,能够确保交通运输系统安全、平稳地运行。
探 索

数据中心不断挖掘人机产生的庞大数据,以便增加软件定义网络(SDN)、现货软件以及开源技术的关注度。
观看我们的信息图

交通运输

云与业务逻辑

基于云的通信方式使得运营管理者能够更有效地利用设备、轨道及站点,从而大大降低意外碰撞的风险。由于毫秒内便可作出关键决策,这有利于优化性能。
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将近44%的美国受访者希望生活在一个无人驾驶的城市,即轿车、巴士及列车在无人驾驶的情况下也能智能、自动地运行。

基于云的中央控制系统能够实时跟踪设备动态,提醒运营管理者某台设备在某一时间的具体位置。
参阅物联网:交通用例

交通运输

数据中心

铁路系统运营者对数据和自动化的依赖日益加剧,旨在提供安全可靠的服务,并减少成本。随着业务和安全需求的增长,无线数字PTC系统必须尽可能地减少碰撞及交通堵塞频率。
探 索

美国国会已出台相关政策,要求PTC系统能够通过GPS定位及时通知任意列车相对其他联网列车的位置。GPS定位系统将于2015年落成,覆盖60000英里的铁路线。
参阅"确保轨道交通准点运营"白皮书

预测性维护能够将不良数据直接发送给工程师,无需关闭设备,便可进行例行检查和预防性维护。
参阅物联网:预测性维护用例

交通运输

网络

从实时乘客信息筛选到车载WiFi等服务,列车成为信息交流的枢纽。运营者可以随时了解任意列车的具体位置及其运行状况。这种"全球化管理系统"能够有效利用轨道和站点。
探 索

物联网设备需要对数据进行整合,并与中控网络中的其他设备或监控系统交换数据。
参阅物联网:交通用例

交通运输

网关

通过将网关应用于原有系统、新客车或列车项目,能够为驾驶员提供因地制宜的服务和WiFi连接,实现与公交运营的实时通信,从而最大限度地提高效率和增强可靠性。
探 索

联网设备的数量在最近几年增长了约300%。

交通运输

监测与数据聚合

设备级数据聚合能够通过减少机器生成的数据(发送到云端以获取相应的反馈)缓解宽带压力。云应用具有深度分析和决策功能,能够整合设备生成的庞大数据,确保提升性能的同时,降低成本。
探 索

联网车辆可以直接将数据实时发送给工程师。工程师可利用接收的数据及自动化决策,确保为运营者提供安全可靠的服务,并获取利润最大化的价格竞争优势。

灵活的端对端解决方案使得各大企业能够可靠地收集、管理和分析数据,并安全、有效地开拓新市场。
参阅物联网:适应性分析用例

交通运输

设备与控制

物联网增添了"自我感知"功能,便于列车了解自身以及系统内其他列车的位置和速度,从而降低碰撞风险。因此,运营者可以更有效地利用轨道和设备,保护乘客及工作人员的人身安全。
探 索

智能控制系统能够根据瞬息万变的外部数据输入,提醒列车减速,如天气、地形、地理位置、到站距离、轨道条件或旨在提醒列车前方有车的通信。

结合各大交通部门的商业智能技术,物联网交通工具能够直接将不良数据实时发送给工程师,以便深入分析。
参阅物联网:适应性分析用例

交通运输

传感器

传感器日渐成为轿车、重卡、巴士及列车的行业标杆。公路和铁路轨道如今均已配备传感器,并通过将关键信息发送给交通管制所及运营管理者,有效进行路线分配、阻塞管理以及维护部署。
探 索

交通运输智能化有助于减少通勤时间、应急响应时间以及事故发生频率。
参阅"加快业务转型"白皮书

工业与能源

物联网(IoT)的早期采用者有时也被称为工业4.0,工业与能源市场逐渐认识到IoT可以在业务转型中发挥的作用。数十年来,这些行业一直致力将传感器和自动化融入工作流程,然而仅有不到10%的原有系统被连接,大部分数据都被封锁在设备和装置内,涵盖面从HVAC传感器到工业机器人,再到楼宇电梯。设备连接后,运营商可以根据实时数据趋势分析来跟踪设备输出,从而优化功率、性能和使用寿命。

IoT智能设备将根据实时数据管理智能电网的能源分布,并提供态势感知能力。此外,这类设备还将整合原先孤立的系统,实现从工业底层到IT和管理层的通信。IoT不仅通过提高生产力和经济规模改造现有业务,还带来了其他技术不能提供的全新业务模式和服务。
探 索

数十亿台设备具有卓越的网络隔离性能,它们共同组成了我们的社会和工业基础设施。部分设备将继续采用原来的构造和维护方式,其他设备将采用迁移的策略(通常被称为"栓接"法),以便更好地连接物联网,创造巨大的物联网效益。
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工业与能源

云端与业务模式

基于云端的中央控制系统能够提供高度透明化、可视化的实时设备,帮助运营管理者有效监控和分析消费模式,预测设备的故障隐患,并随时评系统内的估任意设备。这种预测性维护功能有助于减少中断和停机时间。
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如今,我们的系统可在毫秒内作出重大决策,从而实现性能优化。

所有设备信息同步,能够确诊宽带压力和部件磨损,自动调整工作量。
参阅物联网:工业用例

工业与能源

数据中心

系统运营管理者利用数据和自动化技术,在确保信息安全的同时,有效降低成本。在物联网时代,我们可随时随地获取数据,及时发现潜在问题,并制定正确的战略决策。这种预测性维护方案有助于缩小停机时间。
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决策者可以利用基础设备和环境数据,加强态势掌控。
参阅《加快业务转型》白皮书

在原有的基础设备上添加智能技术,有助于洞察商业先机,批量推出产品方案,最大限度地提高效率,并降低资本和运营成本。

工业与能源

网络

工业系统逐渐成为信息流通的枢纽。从实时物流和供应链管理,到生产计划以及自动化质量控制,互联互通的网络能够有效提高整个流程的透明度,实现集中控制。
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物联网设备必须在集中管理的网络环境下,完成与其他设备或监控系统数据集成和交换。
参阅物联网:能源用例

网络能够实时为全球各大生产商提供消费者的偏好动态,有针对性地推出品类繁多的优质产品。
参阅《更睿智地使用物联网》白皮书

无线网络的进步,让生产车间可随时随地通过传感器获取有效数据,提高生产效率。

工业与能源

网关

您可以通过在新老设备上配备网关,实现工厂车间及企业IT领域之间的互联互通,从而提高运营效率和可靠性。
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首次连接尚未连接到互联网的系统,需确保系统安全。

智能仪表能够通过网络自动汇报产品使用情况,帮助企业改善供销状况,省时省钱。
参阅物联网:能源用例

数十亿台设备具有卓越的网络隔离性能,它们共同组成了我们的社会和工业基础设施。部分设备将继续采用原来的构造和维护方式,其他设备将采用迁移的策略(通常被称为"栓接"法),以便更好地连接物联网,创造巨大的物联网效益。

工业与能源

监控与数据聚合

设备级数据聚合可以减少往返于云端的中央控制系统间的数据产生量,从而缓解宽带压力。 通过对数据进行算法分析,能够及时找出影响整体性能的因素。运营管理者可利用这些数据作出正确调整,以确保生产平稳运行,提高性能并保证质量。
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到2020年,将有300多亿台设备被连接到网络,每年可生成35万亿GB的数据。灵活的用户解决方案能够帮助企业更可靠地采集、管理和分析数据,以便安全、有效地开拓新市场。
参阅物联网:物联网:适应性分析用例

工业与能源

设备与控制

IoT智能设备将根据实时数据,管理智能电网中的能源分布并提供态势感知能力。此外,这类设备还将整合原先孤立的系统,实现从工业底层到IT层和管理层的通信。IoT不仅通过提高生产力和经济规模改造现有业务,还带来了其他技术不能提供的全新业务模式和服务。
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预测性维护能够及时检测出存在故障隐患的部件,从而避免发生重大事故以及不必要的巨额开销。
参阅物联网:物联网:预测性维护用例

发电风机通常设置在远离海岸十数公里外的地方,时常因天气原因无法近距离查看。智能技术的添加大大提高了风机的监控和自我诊断能力,并且能够判断气象条件变化,不断创新产品设计。

参阅物联网:物联网:能源用例

工业与能源

传感器

运营管理者利用重要的传感器数据,能够调度和管理系统维修、提升性能和加强维护。配备传感器的新设备,可以及时提醒运营管理者机器运行出错或工作负荷较大,从而有效维护设备安全。
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智能传感器能够根据涡轮机叶片振动模式的变化等现象及时、准确地找出故障隐患。此外,该技术还可远程管理软件自动升级和维护。而当硬件发生故障时,系统报警可提醒管理者及时派出专业的维修人员进行维修。
参阅《云端设备》白皮书

数十年来,工业市场一直致力将传感器和自动化技术应用到工作流程中,现今却仍然只有不到10%的原有系统被连接到物联网。

Medical

Increasingly sophisticated advances in medical technology are yielding life-enhancing benefits for patients and providers alike. Yet as they strive to deliver high-quality products, device manufacturers face mounting challenges. The Internet of Things presents hundreds of opportunities for improving treatment and services in hospitals, doctors' offices, and homes. Cloud-connected smart devices will give manufacturers an alternative means of collecting, compiling, and analyzing precise and objective data on device performance, thereby reducing the time and expense of trial and accelerating time-to-market.
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There will be a 50-fold growth in stored data from 2010 to 2020.
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Medical

CLOUD & BUSINESS LOGIC

Cloud-connected smart devices provide healthcare professionals with real-time patient information and visibility to better understand patients' conditions and make accurate, timely, and realistic recommendations.
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Hundreds of IoT-based healthcare service opportunities exist in hospitals, doctors' offices, and homes, today.
Read the white paper "Accelerating Business Transformation."

Medical

Data Center

Healthcare systems will rely on data and automation more and more to meet growing patient demand. With the Internet of Things (IoT), data is available whenever and wherever required, making diagnosing and treating illnesses more efficient; and there are hundreds of IoT-based healthcare service opportunities in hospitals, doctors' offices, and homes.
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In the healthcare field, access to the right data and the right solutions at the right time can literally mean the difference between life and death. Developers of medical technology have to meet the highest standards of performance and safety as well as regulatory compliance.

Hospitals will be able to leverage the data generated by CT scanners, X-ray machines, and other equipment to monitor and audit their usage, protecting patient safety while meeting FDA compliance requirements.

Medical

Network

Healthcare systems are becoming connected information hubs. From real-time logistics and supply chain management to production planning to automated quality control, converged networks deliver visibility across the entire process and enable centralized control.
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Professionals will be able to consult with specialists and colleagues in remote locations at any point during the course of treatment.

Medical

Gateway

The Internet of Things (IoT) presents hundreds of opportunities for improving treatment and services in hospitals, doctors' offices, and homes. In order to realize the benefits of networking intelligent devices and enabling them to share patient data, devices will need to be connected and interoperable.
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Approximately 75–80 percent of all U.S. healthcare spending is related to one or more chronic conditions. IoT devices enable healthcare professionals to understand patients' conditions and make accurate, timely, and realistic recommendations.

Medical

Supervisory & Data Aggregation

Data aggregation at the device level alleviates bandwidth strain by reducing machine-generated data sent to the cloud and back. Cloud applications perform the heavy-duty analytics and decision making, while device-relevant data is processed at the device level, ensuring quick delivery of life-critical patient information.
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Hospitals and doctors will be able to share patient data and lab results seamlessly in real time.

Medical

Device & Control

The Internet of Things (IoT) presents hundreds of healthcare service opportunities in hospitals, doctors' offices, and homes, as well as through mobile applications. Smart devices enable healthcare professionals to better understand patients' conditions and make accurate, timely, and realistic recommendations.
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Healthcare facilities are complex technology ecosystems, with multiple devices, manufacturers, and standards. The promise of IoT is that information can flow seamlessly among devices to optimize performance and patient care.

Smart healthcare devices, services, and applications enable professionals to understand patients' conditions and make accurate, timely, and realistic recommendations. In some cases (such as administering insulin to a diabetic), action can be taken or a caregiver can be alerted who can assist a loved one needing help.
Read the white paper "Smarter Ways to Use the Internet of Things."

Medical

Sensor

Sensors are at work today, gathering patient medical data that will make health monitoring, diagnostics, and treatment more personalized, timely, and convenient, while also lowering costs.
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Today, infusion pumps need to be continuously monitored for patient safety. When pumps start to connect to intelligent system architectures, doses could be preset or connected to electronic medication systems and bar codes to better protect patients.

Automotive

Vehicles of the future are no longer isolated mechanical devices that only receive information; they are mobile devices that help us stay connected wherever we go. Your car will tell you the best route to your destination based on real-time traffic information, for example, or self-detect malfunctions before a breakdown occurs. Car manufacturers and service facilities will also be able to better anticipate car owners' needs and deliver the right experience at the right time. Eventually, autonomous driving will happen.

In the Internet of Things, vehicles become information hubs, communicating with the cloud, the infrastructure, and each other-platforms of systems that can process intelligence and provide the ultimate customized driving experience through the connected information network.
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Only 15% of data today is structured; 85% - generated by humans and machines - is not.
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Automotive

CLOUD & BUSINESS LOGIC

Connecting the entire automotive ecosystem through cloud services enables innovative, higher quality services, making every driver on the road safer and happier.
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Drivers and passengers will be able to access information, navigation, and entertainment applications in a secure way from a vehicle screen.

Automotive manufacturers can improve customer relationships by feeding vehicle usage data back to the production line.

Dealers can provide a higher level of customer service by analyzing usage data and performing preventive maintenance.

Performance is optimized as critical decisions can now be made in milliseconds.
Read the white paper "Smarter Ways to Use the Internet of Things"

Automotive

Data Center

Multitenant concepts, which allow all vehicle drivers to collaborate more closely and get access to critical information, will enable transportation systems to operate more reliably and safely. Vehicles will be able to communicate with each other—plane-to-plane to report turbulence, or bus-to-bus to report traffic delays—as well as with cloud-based central control systems tracking their movements.
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Modern automobiles require millions of lines of code and multiple microprocessor-based electronic control units (ECUs) networked throughout the car to operate, and all this code must be integrated with an in-vehicle infotainment (IVI) system.
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Automotive

Network

Intelligent cars will communicate and gather data without any help from us. Our vehicles will send, collect, and analyze data on driving pattern, location, and speed. The car will become a "system of systems" that shares information with other cars, the cloud, and the larger transportation network to provide the information drivers need, when they need it, and safely.
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The widespread adoption of multi-core technology in the embedded industry is spurring system-level approaches to computing. Virtualized application architectures open the door to the cloud, while advances in networking will enable this shift with nanosecond and microsecond latencies.

Automotive

Gateway

The integration of systems of systems, combines automotive with rail and other urban transportation through IoT-enabled intelligence. Combining the business intelligence from different transportation sectors will create a totally new experience of seamless mobility for consumers.
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The need for connectivity between vehicle telematics, phones, Wi-Fi, and more will continue to grow as we move further into IoT, where vehicles communicate with other vehicles, devices, or the network infrastructure, and where almost everything is connected through the network.
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Automotive

Supervisory & Data Aggregation

With sensor communication and real-time data streaming, connected cars can now send alerts when a key component needs repair, so the owner can bring in the car for servicing before there's a breakdown. This capability increases efficiency by better managing inventory and decreasing stock costs for the dealership, while also increasing customer satisfaction and loyalty. It also provides predictive information to optimize goods quality.
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Modern in-vehicle infotainment (IVI) systems consist of as many as 50 million lines of code. The intelligence required to deliver on the promise of V2X capabilities or autonomous vehicles will be net-new, meaning more engineers and more complexity.
Download the infographic

Automotive

Device & Control

Connected cars are sleek, intelligent, digital appliances on wheels, where convenience, comfort, safety, and performance merge with powerful network technologies to keep drivers and passengers connected on the go. Massive complexities of software integration and consolidation must be tamed to make this a reality.
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The connected car platform is a robust, standards-based software foundation that enables greater innovation and risk reduction.

Advanced connectivity and multimedia features are requirements to fulfill growing customer demands.

Software lifecycle management practices must be adopted to ensure deployed vehicles stay up-to-date throughout their entire lifetimes.

Automotive

Sensor

The number of sensors per car is projected to reach 200 by 2020. We rely on these sensors, such as blind spot and tire pressure sensors, to provide vital information. Intelligent cars deliver safety, comfort, and driver information where and when its needed.
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Space, weight, and power concerns will grow along with the increasing number of sensors.

Consolidation and virtualization in electronic control units and sensors will be necessary as vehicle designs evolve.

Fifty percent of Americans would let a city put a sensor on their cars for intelligent parking.