Index

Citation

Sapaty, P.S. (2019), "Index", Complexity in International Security, Emerald Publishing Limited, Leeds, pp. 153-160. https://doi.org/10.1108/978-1-78973-715-820191011

Publisher

:

Emerald Publishing Limited

Copyright © 2020 Emerald Publishing Limited

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INDEX

abort

, 68–69

access

, 58

Activated Rules (AR)

, 27, 32

Active self-evolving pattern

, 15

add

, 57

address

, 52

ADDRESS

, 48

advance

, 60–61

Advancement

, 60–62

Aerial scenario

, 125–126

align

, 62

all

, 44

allother

, 44

allowed

, 67–68

and

, 64

and _ parallel

, 64

and _ sequence

, 64

any

, 44

Any path between nodes

, 80–81

append

, 58

apply

, 58

Armed conflicts

, 11–12

Articulation points

, 88

assign

, 60

Assignment

, 60

assignpeers

, 60

asynchronous

, 45

attach

, 57

Automatic command and control

, 31–34

average

, 56–57

BACK

, 49

Backward

, 45

Battle-related deaths

, 12

belong

, 59

bigger

, 59

blind

, 68–69

branch

, 62–63

Branching

, 62–65

call

, 66

center

, 52

Center for Security Studies (CSS)

, 13

Centralized security bodies

, 132

Centres of communities

, 90–91

Changing network structures

, 88–90

choose

, 64

Climate change

, 1

Cliques

, 87–88

Collective evacuation

, 77–78

Collision avoidance

, 98–99

Command and Control (C2) network

, 94

common

, 58

Communication Processor (CP)

, 30

Complexly moving objects

, 95–97

Components of SGL interpreter

, 25

Compound constants

, 45–46

Conflicts

, 2

constant

, 52

Constants

, 18

contain

, 68

content

, 52

CONTENT

, 48

Controlling spread of conflict

, 74–76

Control Processor (COP)

, 31

coordinate

, 52

count

, 56

create

, 54–55

Creation

, 54–55

Crisis and security management

, 1–2

current

, 44

Custom constants

, 43

Cyber attacks

, 1–2

cycle

, 65

Danger pattern

, 106–109

DARPA mosaic concept

, 3, 113–115

DARPA Mosaic Warfare concept

, 3, 131–133

Data structures of the interpreter

, 25–29

Activated Rules (AR)

, 27

Environmental Variables (EV)

, 28–29

Frontal Variables (FV)

, 28

Global Variables (GV)

, 29

Grasps Identities (GI)

, 28

Grasps Queue (GQ)

, 26

Heritable Variables (HV)

, 28

Incoming Queue (IQ)

, 29

Knowledge Network (KN)

, 27

Nodal Variables (NV)

, 28

Outgoing Queue (OQ)

, 29

Suspended Grasps (SG)

, 26

Track Forest (TF)

, 27

decrement

, 58

degree

, 57

delete

, 55

direct

, 45

DIRECTION

, 50

Disaster zone

, 77–78

Distances

, 90–91

Distributed driverless platoon management

, 126–128

Distributed infrastructures

, 17, 19

Distributed mosaic simulation

DARPA mosaic concept

, 113–115

distributed driverless platoon management

, 126–128

hierarchical command and control

, 122–125

SGT-based

, 116–122

swarm against swarm aerial scenario

, 125–126

Distributed operations

, 86–90

Distributed sensor networks

, 95–97

divide

, 57

doer

, 53

DOER

, 49

done

, 23, 44

Driverless platoon management

, 126–128

Echoed space navigation

, 98–99

Echoing

, 55–59

Echoing via tracks

, 33

element

, 57

Elementary programming examples

, 70–71

emit

, 67

empty

, 59

engaged

, 45

environmental

, 52

Environmental dangers

, 10–11

Environmental variables (EV)

, 22, 28–29, 48–51

Epidemics

, 9–10

equal

, 59

Exchange

, 66–67

Execution-physical world (EPW)

, 20

executive

, 45

Executive world (EW)

, 19–20

existing

, 45

Explored features

, 131–133

fail

, 23, 44

fatal

, 23, 44

Finding strongest sub-networks

, 87–88

Finding suspects

, 73–74

first

, 56–57

firstcome

, 45

follow

, 54

forward

, 45

Forward grasping

, 32–33

free

, 68

fringe

, 62

fromto

, 57

frontal

, 52

Frontal variables (FV)

, 22, 28, 31, 47

Functional processors of the interpreter

, 29–31

Communication Processor (CP)

, 30

Control Processor (COP)

, 31

Navigation Processor (NP)

, 30

Operation Processors (OP)

, 30

Parser (P)

, 30

World Access Unit (WAU)

, 31

Future plans

, 133–134

Gestalt explaining examples

, 34

Gestalt psychology and theory

, 133

get

, 67

global

, 52

Global peace index 2017

, 12

Global security

, 1–2

Global terrorism

, 1–2

Global variables (GV)

, 22, 29, 46

Grasping

, 69

Grasps

, 45–46

Grasps identities (GI)

, 28

Grasps queue (GQ)

, 26

Grouping neighboring elements

, 116–117

heavier

, 59

heritable

, 52

Heritable variables (HV)

, 22, 28, 31

Hierarchical command and control

full scenario integration

, 124–125

networked units, initial distribution of

, 122

runtime infrastructure

, 123

swarm movement scenario

, 122

targets collection and distribution and impact

, 123–124

topologically central unit

, 123

Hierarchical merge

, 23–24

hop

, 53

hopfirst

, 53–54

hopforth

, 54

IDENTITY

, 50–51

if

, 63

Impacting danger element

, 117–122

IN

, 51

Incoming queue (IQ)

, 29

increment

, 58

index

, 52

infinite

, 44

Information

, 42–43

number

, 42–43

scenario

, 42

string

, 42

input

, 66

Internal armed conflict

, 12

International conflicts

nuclear war, probabilities of

, 105

relations complexity between countries

, 103–104

world nuclear powers and weapons distribution

, 104–105

International Criminal Law (ICL)

, 11–12

International Humanitarian Law (IHL)

, 11–12

Internationalized internal armed conflict

, 12

International Relations and Security Network (ISN)

, 13

International security

, 1–2

International security bodies and measures

, 13–14

security networks

, 13

security technologies

, 14

United Nations

, 13

International Security Networks

, 14

Interoperability ideology

, 5

Interpreter organization, SGL

components and their interactions

, 25

data structures of

, 25–29

functional processors

, 29–31

intersect

, 59

Interstate armed conflict

, 12

invert

, 58

Knowledge infrastructures

, 15–16

Knowledge network (KN)

, 27

last

, 56–57

less

, 59

lessorequal

, 59

lift

, 69

lighter

, 59

link

, 53

LINK

, 50

linkup

, 55

location

, 58–59

longer

, 59

loop

, 65

Management models and technologies

, 2–5

matter

, 52

max

, 56–57

min

, 56–57

Missile defence management

, 1–2

main stages

, 93–94

scenario

, 93–95

in SGL

, 94–95

more

, 59

moreorequal

, 59

Mosaic space

, 116

move

, 54

Movement

, 53–54

Moving objects

distributed sensor networks

, 95–97

missile defence scenario

, 93–95

refugees flow

, 99–100

space objects movement

, 97–99

Multiplex world

, 1

multiply

, 57

Multi-source coverage

, 16

name

, 52

NAME

, 48

Natural disasters

, 1–2

Navigation processor (NP)

, 30

neighbors

, 45

Network creation

, 79–80

Networked structures

articulation points

, 88

changing

, 88–90

sub-networks, or cliques

, 87–88

Networked units, distribution

, 122

Network management basics

network creation

, 79–80

path between nodes

, 80–81

routing tables (RT)

, 84–86

Shortest Path Tree (SPT)

, 82–84

Spanning Tree (ST)

, 81–82

neutral

, 45

New organizational and management models and technologies

, 2–5

nil

, 44

no

, 59

nodal

, 52

Nodal variables (NV)

, 22, 28, 32

node

, 53

nonempty

, 59

nonequal

, 59

notbelong

, 59

notintersect

, 59

Nuclear danger patterns

complex 4-node danger pattern

, 108–109

multiple nodes

, 109–112

3-node danger pattern

, 106–108

Nuclear war

, 1, 105

Nuclear weapons

, 2, 103

Number

, 42–43

number

, 52

Operation processors (OP)

, 30

or

, 63

order

, 56

Organizational models and technologies

, 2–5

Organization of SGL interpreter

components and their interactions

, 25, 26

data structures of

, 25–29

functional processors

, 29–31

or _ parallel

, 63–64

or _ sequence

, 63

other

, 44

OUT

, 51

Outgoing queue (OQ)

, 29

output

, 66

“Over-operability,”

, 5

parallel

, 63

Parser (P)

, 30

passed

, 44

Path between nodes

, 80–81

Pattern with multiple nodes

, 109–112

physical

, 45

Physical matter

, 43

Physical world (PW)

, 19

Platooning

, 126

Post-liberal security

, 1–2

PREDECESSOR

, 49

PREVIOUS

, 49

Probabilities of nuclear war

, 105

Qualification

, 68–69

QUALITIES

, 49

quickest

, 64

quit

, 68–69

rake

, 56

random

, 56–57

range

, 53

receive

, 67

Recursive structure

, 17–18

Refugees crises

, 11

Refugees flow

, 99–100

Relations complexity between countries

, 103–104

release

, 68

Religious conflicts

, 1–2

repeat

, 61–62

RESOURCES

, 49–50

reverse

, 57

Routing tables (RT)

, 84–86

Rules

, 19

run

, 66

Runtime infrastructure

, 123

Scenario

, 42

scenario

, 52

Security issues in concrete areas

, 9–13

armed conflicts

, 11–12

environmental dangers

, 10–11

epidemics

, 9–10

refugees crises

, 11

terrorism

, 12–13

world religious diversity

, 10

Security management

distributed sensor networks

, 95–97

missile defence scenario

, 93–95

refugees flow

, 99–100

space objects movement

, 97–99

Security networks

, 13

Security related management

disaster zone, collective evacuation from

, 77–78

finding suspects worldwide

, 73–74

spread of conflict

, 74–76

territorial conquest, distributed simulation of

, 76–77

Security technologies

, 14

seize

, 69

Self-spreading spatial intelligence

, 15

send

, 66–67

Sensor network

, 96

separate

, 57

sequence

, 63

SGL constants

, 41–46

compound constants, or grasps

, 45–46

custom constants

, 43

information

, 42–43

physical matter

, 43

special constants

, 44–45

SGL control states

, 23–24

SGL distributed interpretation

, 24–25

SGL interpreter organization

, 25–34

components and organization

, 25

data structures

, 25–29

functional processors

, 29–31

tracks-based automatic command and control

, 31–34

SGL recursive structure

, 18

SGL rules

, 51–69

advancement

, 60–62

assignment

, 60

branching

, 62–65

creation

, 54–55

echoing

, 55–59

exchange

, 66–67

grasping

, 69

movement

, 53–54

qualification

, 68–69

timing

, 67–68

transference

, 66

type

, 51–52

usage

, 52–53

verification

, 59

SGL syntax and main constructs

, 37–39

SGL variables

, 46–51

environmental variables

, 48–51

frontal variables

, 47

global variables

, 46

heritable variables

, 46–47

nodal variables

, 47–48

shift

, 54

shorter

, 59

Shortest Path Tree (SPT)

, 82–84

sleep

, 67

slide

, 61

sling

, 65

smaller

, 59

sortdown

, 57

sortup

, 57

Space navigation with collision avoidance

, 98–99

Space objects movement

, 97–99

space navigation with collision avoidance

, 98–99

virtual object copies

, 97–98

Spanning Tree (ST)

, 81–82

Spatial control, moving objects

distributed sensor networks

, 95–97

missile defence scenario

, 93–95

refugees flow

, 99–100

space objects movement

, 97–99

Spatial grasp language (SGL)

, 4

basic elements

, 18–19

constants

, 18, 41–46

control states and their hierarchical merge

, 23–24

details

, 19–24

distributed interpretation

, 24–25

elementary programming examples in

, 70–71

features

, 16–24

Gestalt psychology and theory

, 34–35

idea

, 15–16

interpreter organization

, 25–34

components and organization

, 25

data structures

, 25–29

functional processors

, 29–31

tracks-based automatic command and control

, 31–34

recursive structure

, 17–18

rules

, 19, 51–69

scenarios

, 20–21

sense and nature, rules

, 21–22

syntax and main constructs

, 37–39

top-level

, 39–41

variables

, 18–19, 22–23, 46–51

worlds

, 19–20

Spatial grasp model. See Spatial grasp language (SGL)

Spatial grasp paradigm

, 4–5

Spatial grasp technology (SGT)

, 1–2, 115

distributed mosaic simulation

collective surrounding and danger element impact

, 117–122

grouping particular type neighboring elements

, 116–117

mosaic space, networked representation of

, 116

idea

, 15–16

Special constants

, 44–45

speed

, 52

split

, 65–66

Spreading spatial patterns

, 17

state

, 56

STATE

, 50

STATUS

, 51

stay

, 69

String

, 42

string

, 52

Sub-networks

, 87–88

subtract

, 57

sum

, 56

Suspended Grasps (SG)

, 26, 32

Swarm against swarm

, 125–126

Swarming

, 113, 122–125

Swarm movement scenario

, 122

Swiss-sponsored International Security Forum (ISF)

, 13

synchronous

, 45

“System of systems” model

, 3

Technological disruption

, 1

Territorial conquest

, 76–77

Terrorism

, 12–13

thru

, 23, 44

time

, 52

TIME

, 50

Timing

, 67–68

Topologically central unit

, 123

Tracing moving objects

, 95–97

Track components

, 31–32

Track Forest (TF)

, 27

Track links

, 31

Track nodes

, 31

Tracks-based automatic command and control

components and links

, 31–32

development via tracks

, 33–34

echoing via tracks

, 33

tracks-based forward grasping

, 32–33

Tracks optimization

, 32

Transference

, 66

Type

, 51–52

TYPE

, 48

unique

, 45

unit

, 56

unite

, 57

United Nations

, 13

unlink

, 55

Unmanned

, 3, 4–5, 16–17, 113–114

UN Security Council

, 13

Usage

, 52–53

vacant

, 45

VALUE

, 50

Variables

, 18–19, 22–23, 46–51

environmental

, 48–51

frontal

, 47

global

, 46

heritable

, 46–47

nodal

, 47–48

Verification

, 59

virtual

, 45

Virtual-execution-physical world (VEPW)

, 20

Virtual-Execution World (VEW)

, 20

Virtual object copies

, 97–98

Virtual-physical world (VPW)

, 20

Virtual world (VW)

, 19

WAVE

, 4–5, 15, 133

Weapons distribution

, 104–105

WHEN

, 50

WHERE

, 49

whirl

, 65

withdraw

, 58

Word crises

, 132

Word security problems

, 131–133

World Access Unit (WAU)

, 31

World crisis

, 133

World dynamics

, 1–2

World nodes

, 32

World nuclear powers and weapons distribution

, 104–105

World religious diversity

, 10

yes

, 59