Challenges in Ubiquitous Computing and Networking Management Jong T. Park Kyungpook National University Korea APNOMS 2003 DEP, Fukuoka,

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Presentation transcript:

Challenges in Ubiquitous Computing and Networking Management Jong T. Park Kyungpook National University Korea APNOMS 2003 DEP, Fukuoka, Japan

2 KNU AIN Lab.APNOMS’2003 Ubiquitous Computing & Networking Environment Electronic Cyber Space Fusion Convergence (G)MPLS Notebook Multimedia Handheld Device Server Internet Wearable Computing Smart Real Space Tiny Invisible Objects Home Network Smart Interface UWB Server Internet Sensors 3G/4G Hot Spots IPv6 Actuators Web/XML Bluetooth

3 KNU AIN Lab.APNOMS’2003 Features of Cyber Space and Smart Real Space Electronic Cyber SpaceSmart Real Space Any (time, where, format) Client/Server Computing, P2P (G)MPLS, Broadband Access Network B3G/4G, NGN, Post PC, IPv4/v6, XML Converging Networks Communication/Banking, Comm./(Music/TV Broadcasting), e-commerce/government, … Any (device, object)+ Proactive & Embedded Computing Sensors, MEMS, Wearable Computing, IPv6(+), Near Field Communication (UWB,..) Ad-hoc networks, Home networking Telematics/Telemetry, u-commerce/government /university/library

4 KNU AIN Lab.APNOMS’2003 Current Issues in Ubiquitous Computing and Networking Current Technical Issues  Low Power Intelligent Tiny Chip and Sensors  Ubiquitous Interface  Near-field Communication (UWB,..), IPv6  Protection of Privacy and Security Management  Intelligent Personalization Non-Technical Issues  Laws and Regulation  Sociological Impact

5 KNU AIN Lab.APNOMS’2003 Research Projects America  MIT’s Auto-ID and Oxigen, Berkeley’s Smart Dust, NIST’s Smart Space  MS’s EasyLiving, HP’s CoolTown Europe  Disappearing Computing Initiative: Smart Its & others  Ambience Intelligence Japan  u-Network, TRON project (Univ. of Tokyo)  Japan’s UNF (Ubiquitous Networking Forum)

6 KNU AIN Lab.APNOMS’2003 u-Korea MIC’s u-Sensor Network (2003)  Development of Key Technologies in Wireless Personal Area Network, UWB (~hundred Mbps), Electronic Tag (RFID), Intelligent Wireless Sensor Network  Ubiquitous Home Network and Commodity Circulation Network MOST’s 21c Ut Frontier Project (2003)  Basic Key Technology in Ubiquitous Networking Others from Industries (Samsung, LG, etc)

7 KNU AIN Lab.APNOMS’2003 MIT’s Oxygen Computational devices (E21s), embedded in homes, offices, and cars sense Handheld devices (H21s) enables to communicate and compute, anywhere Dynamic, self-configuring networks (N21s) help machines to locate each other as well as the people, services, and resources we want to reach Software that adapts to changes in the environment or in user requirements (O2s) help us to do what we want when we want to do it Computing service available like Oxygen Computing access using human centered interface such as natural language and vision

8 KNU AIN Lab.APNOMS’2003 Other Projects Berkeley’s Smart Dust Project  1 mm 3 silicon mote (floatable in the air)  Autonomous sensing  Wireless communication platform  Energy, Military, Commodity HP’s Cooltown Project  Real World Wide Web  Person, place or thing existing on the Web space, communicating each other  Education, Medicare, ITS, Fire and Safety Service

9 KNU AIN Lab.APNOMS’2003 Common Characteristics of Ubiquitous Computing and Networking Invisibility  Invisible Intelligent Devices  Wearable Computing Devices  RFID, Sensors, Smart Card, Information Artifacts, and Tiny Smart Device Context-Awareness and Adaptation  Autonomous Sensing, Environment Adaptation, Cooperation  Real-Time and Proactive  Adapting to Device Type, Time, Location, Temperature, Weather, etc Network and Mobility  Mobility Management (Micro/Pico)  Wireless NFC (UWB, RF Interface, Bluetooth, etc)  IPv6 and Others (Non-IP, Consumable IP)

10 KNU AIN Lab.APNOMS’2003 Management of Ubiquitous Computing and Networking Invisibility Management  Ubiquitous Interface Management  Configurability Management (Massiveness management, others)  Anonymousness Management Surrounding Context Management  Sensing Capability, Adaptation, Autonomy, Cooperation Management  Personalization Management  Location-Awareness Management (Tracking, Positioning, and Control)  Real-Time, Proactive and Environmental Adaptive Control Ubiquitous Wireless Network and Service Management  Wireless Network Management (FCAPS)  Mobility Management (MIPv6, Micro/Pico/Nano..)  Service Registration, Discovery and Maintenance (OSGi)  Extensibility Management (Network/Service)  Application of Ubiquitous Technology to Network Management Privacy and Security Management Fusion Management  Interoperability, Integration and Convergence Management  Content Management (Information Loss and Mismatch)  Scalability Management (Massive Objects)

11 KNU AIN Lab.APNOMS’2003 Conclusion Ubiquitous computing and networking are characterized by invisibility, proactive context- awareness/adaptation, and near field network /mobility. It requires a new paradigm of management among others, such as ubiquitous interface management, context management, fusion management, privacy/security management, and FCAPS. Standards, laws, sociological impact and other environment factors need to be addressed accordingly.

12 KNU AIN Lab.APNOMS’2003 Reference Ubiquitous Computing - Mark Weiser, Designing Calm Technology - Mark Weiser and Jhon Seely Brown, HP Cooltown white papers, MS- EasyLiving Project, MIT Auto-ID Center (about smart tag), MIT Oxygen Project, UCB Smart Dust, NIST Smart Space project, EU Disappearing Computer Initiative, computer.nethttp:// computer.net Japan u-Network, x.htmlhttp:// x.html