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1 Periodisation of Network Service Development |
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1 | (12) |
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10 | (3) |
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2 Architectural Transformations in Distributed Systems |
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13 | (32) |
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2.1 Software Architectures and Communication Patterns |
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13 | (4) |
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2.2 Distributed Service Systems: Clustering, Grids and Clouds |
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17 | (2) |
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2.3 Architectures: Peer-to-Peer |
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19 | (4) |
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2.4 Performance Optimisation |
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23 | (3) |
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2.5 Distributed Transactions |
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26 | (4) |
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2.6 Distributed Databases |
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30 | (8) |
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2.7 System Examples: Google Spanner, a Global DDB |
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38 | (5) |
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43 | (2) |
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44 | (1) |
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3 Evolution of Clustering and Parallel Computing |
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45 | (32) |
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3.1 Clustering and Grids: Performance Parameters and Basic Models |
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48 | (14) |
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3.2 Performance-Energy-Price Trade-Offs in Clusters and Grids |
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62 | (2) |
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3.3 Resource Management in Clusters |
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64 | (1) |
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3.4 Application Management in Clusters |
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65 | (1) |
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3.5 Application Management in Grids |
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66 | (5) |
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3.6 Distributed Applications |
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71 | (3) |
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74 | (3) |
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75 | (2) |
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4 Cloud Computing, Virtualisation, Storage and Networking |
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77 | (58) |
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4.1 Clouds: Technology Stack, Basic Models and Services |
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78 | (14) |
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4.2 Virtualisation of Services and Resources |
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92 | (13) |
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4.3 SDN --- Software-Defined Networking |
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105 | (5) |
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4.4 Backup Services within Clouds, as Advanced Cloud Backup Technology |
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110 | (15) |
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4.4.1 Backup as Important Component of Informational Safety |
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111 | (6) |
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4.4.2 RAIC: Storage Service Integration |
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117 | (8) |
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4.5 RAIC Integration for Network Storages on Mobile Devices |
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125 | (6) |
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4.5.1 Efficient Access to Storage Services from Mobile Devices |
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126 | (2) |
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4.5.2 A New Must-Have App: RAIC Integrator for Smartphones |
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128 | (3) |
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131 | (4) |
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131 | (4) |
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5 Smart Grid, Internet of Things and Fog Computing |
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135 | (76) |
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5.1 Smart Grid as Integration Technology for the Networks of Energy Supply and Telecommunication |
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136 | (48) |
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5.1.1 Services Architectures and Multi-level Models |
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144 | (14) |
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5.1.2 Smart Grid: Enabling Network Technologies |
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158 | (19) |
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5.1.3 Case Study: A CAD Toolset for the Design of Energy-Efficient Combined Networks |
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177 | (7) |
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5.2 From Internet of Services to Internet of Things: Fog Computing |
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184 | (22) |
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5.2.1 Enabling Technologies for IoT |
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188 | (6) |
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5.2.2 Case Studies on IoT with On-Board Micro-controller Raspberry Pi |
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194 | (9) |
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5.2.3 The Future Industry 4.0 Vision |
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203 | (1) |
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204 | (2) |
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206 | (5) |
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209 | (2) |
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6 Future Mobile Communication: From 4G To 5G, 5G Enabling Techniques |
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211 | (36) |
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6.1 Conventional Techniques |
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211 | (11) |
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213 | (2) |
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6.1.2 Satellite-Based Radio Systems |
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215 | (7) |
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6.2 A New Generation of Mobile Communication |
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222 | (22) |
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6.2.1 Visions and Requirements |
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224 | (9) |
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6.2.2 5G Inter-Operability |
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233 | (2) |
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6.2.3 Future Standard IMT
2020. Deployment Scenarios |
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235 | (6) |
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6.2.4 Resource Allocation Method for Future WLAN |
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241 | (3) |
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244 | (3) |
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244 | (3) |
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7 Security in Distributed Systems |
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247 | (62) |
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7.1 Security and Protection Goals |
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248 | (5) |
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7.2 Protection Techniques |
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253 | (6) |
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7.2.1 Checksum and Digest |
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254 | (1) |
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255 | (3) |
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258 | (1) |
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7.2.4 Orchestration, Parallelisation and Multiplexing |
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258 | (1) |
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258 | (1) |
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7.2.6 Trusted Computing and Physical Protection |
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259 | (1) |
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259 | (2) |
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7.3.1 Network Encryption: IPsec |
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259 | (1) |
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7.3.2 Transport Encryption: TLS |
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260 | (1) |
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7.3.3 Content Encryption: S/MIME and PGP |
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260 | (1) |
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7.3.4 Authorisation: Kerberos and OAuth2 |
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261 | (1) |
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7.3.5 Further Secure Services: DNS-SEC, VPNs and Proxies |
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261 | (1) |
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7.4 Security Protocols and Network Concepts |
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261 | (7) |
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268 | (11) |
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7.6 Security in Web Applications: Legal and Technological Aspects |
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279 | (9) |
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7.6.1 Technological Aspects of Data Security Guaranteeing Web Systems |
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281 | (2) |
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7.6.2 Legal Aspects of Data Security Guaranteeing Web Systems |
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283 | (5) |
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7.7 Steganography in Distributed Systems |
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288 | (13) |
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7.7.1 Steganography in Development |
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290 | (4) |
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7.7.2 Steganography: Main Concepts |
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294 | (4) |
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7.7.3 Watermarks and Steganography |
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298 | (3) |
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7.8 Anonymity and MIX Networks |
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301 | (5) |
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306 | (3) |
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307 | (2) |
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Appendix A Selected Originators and Designers of Distributed Systems |
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309 | (8) |
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A.1 Edgar Frank "Ted" Codd |
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309 | (1) |
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310 | (1) |
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310 | (1) |
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311 | (1) |
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A.5 Sir Timothy John Berners-Lee |
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311 | (1) |
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312 | (1) |
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313 | (1) |
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313 | (1) |
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314 | (1) |
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A.10 Remembering the Pioneers |
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314 | (3) |
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Appendix B Research Focus |
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317 | (6) |
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B.1 CANDY: Network Planning |
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317 | (2) |
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B.2 FlexCloud: Flexible Architectures for Cloud Computing |
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319 | (1) |
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B.3 DaaMob Service Platform: Data Service Management |
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319 | (4) |
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Appendix C Acronyms for Mobile and Wireless |
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323 | (4) |
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Appendix D Repetition and Control of Learning Progress |
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327 | (10) |
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D.1 New Generation (Mobile) Networks |
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327 | (1) |
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D.2 Periodisation of Computer Networks: Phases I to IV, Smart Grid, IoT and Fog Computing |
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328 | (1) |
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D.3 Architectural Transformation in Distributed Systems |
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328 | (1) |
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329 | (1) |
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D.5 Virtualisation Concepts |
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330 | (1) |
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D.6 Performance Characteristics of Digital Computers, Performance Optimisation in Distributed Systems |
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331 | (1) |
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D.7 Distributed Computing, Parallel Computing and Acceleration Models |
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331 | (1) |
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332 | (1) |
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D.9 Security Aspects in NGN |
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332 | (2) |
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D.10 PGP and Steganography |
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334 | (3) |
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Appendix E Example of a Written Exam to the Discussed Subjects |
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337 | (6) |
| Index |
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343 | |
