Sens...Figure 18.12 —Control command parameter structure without including paramete...Figure 18.13 —UML class diagram of control information classes. From IEEE St...Figure 18.14 —UML class diagram of sensor information classes. From IEEE Sta...Figure 18.15 —UML class diagram of sensing information classes. From IEEE St...Figure 18.16 —UML class diagram of regulatory requirement classes. From IEEE...Figure 18.17 —State diagram of IEEE 1900.6 logical entity. From IEEE Standar...Figure 18.18 —(a) Information exchange between service users of logical inte...Figure 18.19 —Sensing information exchange procedure between CE and Sensor (...Figure 18.20 —Sensing information exchange procedure between DA and Sensor (...Figure 18.21 —Sensing information exchange procedure between CE and DA. From...Figure 18.22 —Sensing information exchange procedure between CEA and CEB. Fr...Figure 18.23 —Sensing information exchange procedure between SA and SB. From...Figure 18A.1 —Heterogeneous wireless environment considered in IEEE Std 1900...Figure 18A.2— —IEEE 1900.4‐2009 use cases. From IEEE Standard for Spectrum S...Figure 18A.3 —Examples of distributed sensing with three spectrum sensors: (...Figure 18A.4 —Sensing models of NCM. From IEEE Standard for Spectrum Sensing...Figure 18A.5 —Sensing models of MCM. From IEEE Standard for Spectrum Sensing...Figure 18A.6 —Extension of model E in NCM and model F and G in MCM. From IEE...Figure 18C.1 —Example OSI model for sensing‐related information exchange bet...Figure 18C.2 —Architecture of a sensor that can exchange sensing‐related inf...Figure 18C.3 —Block diagram showing a wired spectrum sensor to a CE capable ...Figure 18C.4 —Block diagram showing a spectrum sensor wired to a non‐CE capa...Figure 18C.5 —Block diagram showing a spectrum sensor connected in a wireles...Figure 18C.6 —Block diagram showing a smart spectrum sensor connected in a w...Figure 18C.7 —Block diagram showing a spectrum sensor connected in a wireles...Figure 18D.1 —Scope and usage of DA. From IEEE Standard for Spectrum Sensing...Figure 18D.2 —DA has interface to regulatory repository. From IEEE Standard ...Figure 18D.3 —DA includes the regulatory repository. From IEEE Standard for ...
22 Chapter 19Figure 19.1 Reference model of an IEEE 1900.7 device. From IEEE Standard for...Figure 19.2 General MAC frame format. From IEEE Standard for Radio Interface...Figure 19.3 Message sequence chart describing MAC data service. From IEEE St...Figure 19.4 Message sequence chart describing association procedure. From IE...Figure 19.5 Message sequence chart describing disassociation procedure. From...Figure 19.6 Timing structure of MAC frame. From IEEE Standard for Radio Inte...Figure 19.7 Frame transaction examples. From IEEE Standard for Radio Interfa...Figure 19.8 Transmission scenarios. From IEEE Standard for Radio Interface f...Figure 19.9 Scrambler schematic diagram including initialization vector. Fro...Figure 19.10 Rate 1/2 convolutional code. From IEEE Standard for Radio Inter...Figure 19.11 BPSK, QPSK, 16‐QAM, and 64‐QAM constellation bit encoding. From...Figure 19.12 Subcarrier mapping. From IEEE Standard for Radio Interface for ...Figure 19.13 FBMC filtering pre‐processing. From IEEE Standard for Radio Int...Figure 19.14 FBMC filtering. From IEEE Standard for Radio Interface for Whit...Figure 19.15 Filter coefficient indexation. From IEEE Standard for Radio Int...Figure 19.16 Example of FBMC preamble and payload. From IEEE Standard for Ra...Figure 19.17 Spectrum mask example. From IEEE Standard for Radio Interface f...Figure 19A.1 An example of transmission channel selection procedure. From IE...
Guide
1 Cover
2 Table of Contents
Pages
1 iii
2 iv
3 v
4 xxix
5 xxxi
6 xxxii
7 xxxiii
8 xxxiv
9 xxxv
10 xxxvi
11 xxxvii
12 1
13 3
14 4
15 5
16 6
17 7
18 8
19 9
20 10
21 11
22 12
23 13
24 14
25 15
26 16
27 17
28 18
29 19
30 20
31 21
32 22
33 23
34 24
35 25
36 26
37 27
38 28
39 29
40 30