Networking Infrastructure for Pervasive Computing: Enabling Technologies and SystemsSpringer Science & Business Media, 2003 - 287 lappuses Networking Infrastructure for Pervasive Computing: Enabling Technologies & Systems is a comprehensive guide to tomorrow's world of ubiquitous computing where users can access and manipulate information from everywhere at all times. The emphasis is on networking, systems and standards rather than detailed physical implementation. Addressed are many technical obstacles, such as, connectivity, levels of service, performance, and reliability and fairness. The authors also describe the existing enabling off-the-shelf technologies and its underlying infrastructure known as pervasive networking (PervNet). PervNet ties different sets of smart nodes together enabling them to communicate with each other to provide pervasive computing services to users. Throughout the book, important issues related to scalability, transparency, security, energy management, QoS provisioning, fault tolerance, and disconnected operations are discussed. This work provides a research and development perspective to the field of PervNet and will serve as an essential reference for network designers, operators and developers. |
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Saturs
Pervasive Computing | 1 |
11 EVOLUTION | 2 |
112 Distributed Computing | 3 |
113 Web Computing | 4 |
115 Pervasive Computing | 7 |
121 Introduction | 8 |
13 PERVCOMP MODEL | 11 |
1312 Sensors | 12 |
54 SMART ADAPTERS | 133 |
55 RELATED PROJECTS | 134 |
5512 Coda | 135 |
553 Global Computing | 136 |
5533 RaDaR | 137 |
wwwglobusorg | 138 |
wwwmithralcomproiectscosm | 139 |
wwwlrifrfedakXtremWeh | 140 |
132 Pervasive Network PervNet | 13 |
133 Pervasive Middleware PervVVare | 14 |
134 Pervaiive Applicationi | 15 |
14 ISSUES | 16 |
1412 PeopleDevice Tracking | 17 |
1413 Geometric Modeling | 18 |
143 Heterogeneity | 19 |
145 Invisibility | 20 |
1451 Selftuning Autoconfiguration | 21 |
146 Integration | 22 |
147 Socioeconomic Concerns | 23 |
15 APPLICATION POTENTIAL | 24 |
16 PERVASIVE INITIATIVES | 26 |
163 Endeavour | 27 |
164 Oxygen | 28 |
165 Portolano | 29 |
166 Sentient Computing | 30 |
167 CoolTown | 32 |
168 eBiquity | 33 |
1610 EasyLiving | 34 |
1611 pvcIBM | 35 |
REFERENCES | 36 |
Pervasive Networking | 39 |
NETWORKING INFRASTRUCTURE | 41 |
222 Attributes | 42 |
23 PERVNET ARCHITECTURE | 45 |
24 MANAGING PERVASIVENESS | 46 |
242 Registration | 48 |
25 MOBILITY MANAGEMENT | 49 |
26 SERVICE DISCOVERY | 51 |
27 DISCONNECTED OPERATION | 52 |
28 PROPOSED SOLUTIONS | 53 |
283 AutoRegistration | 54 |
284 Dynamic Mobility Management | 55 |
29 SUMMARY | 56 |
REFERENCES | 57 |
Backbone Technology | 59 |
32 ELECTRICAL BACKBONE NETWORKS | 61 |
322 Gigabit Ethernet | 62 |
3J OPTICAL BACKBONE NETWORKS | 64 |
331 FDDI | 65 |
332 ATM | 66 |
334 SONETSDH | 67 |
335 WDM | 69 |
3352 Network Architecture | 71 |
3353 Advantages of Mesh Networks | 72 |
3354 Lightpath Establishment | 73 |
3355 Virtual Topology Design | 75 |
33551 Generation of Arbitrary Virtual Topology | 77 |
33552 Embedding of Virtual Topology | 79 |
33553 Wavelength Assignment | 80 |
33554 TrafficAssignment | 82 |
3357 Wavelength Reservation | 83 |
33571 Forward Reservation Protocols FRPs | 84 |
33572 Backward Reservation Protocols | 86 |
3358 Intelligent Optical Switching | 87 |
33591 Architecture | 88 |
33592 Optical Layer Functions | 89 |
33593 Control Protocol | 90 |
34 WIRELESS BACKBONE NETWORKS | 92 |
342 Satellite Networks | 93 |
343 Wireless Fibreless Optical Networks | 96 |
35 THE INTERNET | 98 |
36 SUMMARY | 101 |
REFERENCES | 102 |
Wireless Access Technology | 105 |
412 Mobile Wireless Access | 106 |
42 SHORTRANGE WIRELESS NETWORKS PERSONAL AREA NETWORKS | 108 |
422 Infrared Communication Configurations | 109 |
423 Shortrange Radio Communication | 110 |
43 WIRELESS LANS | 112 |
431 Characteristics of Ad hoc Wireless Networks | 113 |
432 Three Fundamental Design Choices | 114 |
4322 Proactive vs Reactive Routing | 115 |
4333 Medium Access Protocol | 116 |
METROPOLITAN AREA WMAN | 119 |
45 WIRELESS WAN | 120 |
451 Basic Cellular Architecture | 122 |
452 Location Management | 123 |
453 Radio Resource Management | 124 |
46 DISCUSSION | 125 |
Interface Technology | 127 |
52 MIDDLEWARES | 128 |
521 Models | 129 |
522 Semantics | 130 |
524 Application Programming Interface API | 131 |
53 INTELLIGENT ENVIRONMENT | 132 |
554 Pervasive Computing | 141 |
5542 omniORB | 142 |
REFERENCES | 143 |
Internet | 145 |
62 IPV6 | 147 |
622 Mobility in IPv6 | 150 |
63 MOBILE IP | 151 |
632 Mobile IP with AAA | 154 |
633 Macro Mobility in Mobile IP | 155 |
634 HAWAII | 158 |
CELLULAR IP | 159 |
65 CORE IP NETWORKS | 161 |
652 Integrated Services Intserv | 164 |
653 Differentiated Services Diffserv | 165 |
654 Resource Reservation Protocol RSVP | 169 |
655 RSVP Extensions | 171 |
6551 RSVP Tunnel with Mobile IPv4 | 172 |
6552 Mobile IPv6 and RSVP Integration Model | 173 |
6553 Mobile IP with Location Registers | 175 |
6554 Mobility Support based on Flow Transparency | 176 |
662 Traffic and QoS Properties | 180 |
67 IP OVER WDM | 182 |
672 IP over Optical Network Architectures | 184 |
Provisioning and Restoration | 186 |
674 Optical Packet Switching | 188 |
675 MPLS based IP and WDM | 189 |
68 INTERNET TELEPHONY | 194 |
An Overview | 195 |
683 Example Integration Scenario | 196 |
69 ALL IPBASED NETWORKS | 199 |
691 TeleMIP | 200 |
692 Enhancement in IP | 201 |
693 AllIPbased Wireless Networks | 202 |
694 IPbased IMT Network | 203 |
695 AllIPbased UMTS Architecture | 205 |
610 SUMMARY | 209 |
REFERENCES | 210 |
Wireless Standards | 213 |
711 Wireless Generations | 215 |
712 Mobile Communication Traffic | 218 |
713 Wireless Transmission Characteristics | 219 |
72 CELLULAR TELEPHONE SYSTEM | 220 |
721 FirstGeneration Mobile Systems | 221 |
7222 GPRS | 222 |
7223 cdmaOne | 223 |
7224 GPRS vs cdmaOne Packet Data | 224 |
7225 TDMA | 226 |
7226 PDC | 227 |
7231 UMTS | 228 |
7232 Cdma2000 | 229 |
73 EVOLUTION OF THE NETWORK ARCHITECTURE | 230 |
732 UMTS AllIP Architecture | 232 |
7321 IPBased UTRAN | 233 |
733 CDMA2000 Network Architecture | 235 |
741 WLAN | 237 |
7411 The IEEE 80211 Standard | 238 |
7412 Bluetooth Wireless Technology | 239 |
7414 ETSI HiperLAN2 | 240 |
7421 Overview of Three Standards | 242 |
75 SEAMLESS PERVNET ARCHITECTURE | 243 |
76 FUTURE DIRECTION | 246 |
Challenges | 249 |
82 PERVNET CHALLENGES | 250 |
822 Scalability | 251 |
824 Protocols | 252 |
826 Quality of Service QoS | 253 |
827 Power Energy | 254 |
83 PERVWARE CHALLENGES | 255 |
84 PERVCOMP CHALLENGES | 256 |
842 Context Management | 257 |
843 Integration | 258 |
845 Transparency | 259 |
847 Power Management | 260 |
848 Application Support | 261 |
85 OTHER CHALLENGES | 262 |
852 Social Challenges | 263 |
REFERENCES | 264 |
Vision for the Future | 265 |
92 DATACENTRIC COMPUTING | 267 |
93 UBIQUITOUS COMPUTING | 268 |
94 WEARABLE COMPUTING | 270 |
95 DISPOSABLE COMPUTING | 272 |
96 SMART ENVIRONMENT | 273 |
97 EPILOGUE | 275 |
277 | |
Citi izdevumi - Skatīt visu
Networking Infrastructure for Pervasive Computing: Enabling Technologies and ... Debashis Saha,Amitava Mukherjee,Somprakash Bandyopadhyay Ierobežota priekšskatīšana - 2011 |
Networking Infrastructure for Pervasive Computing Debashis Saha,Amitava Mukherjee,Somprakash Bandyopadhyay Priekšskatījums nav pieejams - 2011 |
Networking Infrastructure for Pervasive Computing: Enabling Technologies and ... Debashis Saha,Amitava Mukherjee,Somprakash Bandyopadhyay Priekšskatījums nav pieejams - 2012 |
Bieži izmantoti vārdi un frāzes
3GPP algorithm allows applications backbone bandwidth base stations Bluetooth cable capabilities care-of address CDMA cdmaOne Cellular IP channel components configuration connection core network data rates destination DiffServ domain dynamic end-to-end Ethernet FDDI fiber functionality gateway Gigabit Ethernet global GPRS handoff hoc networks IEEE Communications Magazine implementation infrastructure integration interaction interface Internet IP network IP-based IPv6 kb/s label layer lightpath Mb/s mechanism middleware mobile communications Mobile IP mobile node mobility management MPLS multimedia multiple network architecture operation optical networks packet path pervasive computing pervasive devices PervComp PervComp environment PervNet physical problem protocol PSTN radio reservation routers routing RSVP scalability server signalling smart standard subnet switching terminal traffic transmission transmit ubiquitous computing UMTS UTRAN virtual topology wavelength wireless access wireless LAN wireless networks
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Location Management and Routing in Mobile Wireless Networks Amitava Mukherjee,Somprakash Bandyopadhyay,Debashis Saha Ierobežota priekšskatīšana - 2003 |