k
r
k
r
S
S=
,
K
k
,
1
=
,
(1)
where
1
1
S
S
r
– intelligence subsystem,
13
12
11
1
,
,
S
S
S
S=
,
11
S
–set of meters
(sensors),
12
S
– set of means for making information solutions,
13
S
– a set of control
means;
2
2
S
S
r
– combat control subsystem,
23
22
21
2
,
,
S
S
S
S=
,
21
S
– set of information
tools,
22
S
– set of information processing tools,
23
S
– a set of communication and data
transmission;
3
3
S
S
r
– striking subsystem,
33
32
31
3
,
,
S
S
S
S=
,
31
S
– set of means of
delivery of an element of influence (an ammunition),
32
S
– set of impact means,
33
S
–
set of controlling means;
4
4
S
S
r
– subsystem of comprehensive support,
42
41
4
,S
S
S=
,
41
S
– set of means of special and military equipment operated by crews,
42
S
– a set of
unmanned (unmanned) vehicles.
The main task of SITSAS is to gain advantage in various areas of confrontation
by means of kinetic, information, cyber and other effects, and its strikes must bring
the enemy to the inability to resist or abandon their intentions. The conducted research
showed that SITSAS should be based on situational principles from the existing
functionally independent elements [40]. Integration of heterogeneous components is
carried out by a matrix method on the basis of unifying information-control systems.
The communication matrix is formed by lines of wire, optical fiber, radio
communication and other types of communication and data transmission.
The effectiveness of such a system depends on the consistency of the set of
criteria. In general, SITSAS must meet the following requirements: to provide the
minimum desired time for target destruction (elimination of the crisis situation)
s
t
; to
work out solutions for destruction (suppression) with high reliability
s
D
; to destruct the
target with the maximum probability
y
P
of an ammunition with the necessary and
sufficient damaging factor; to get information redundancy IN
s
to prevent civilian
casualties; which can be represented as follows
→
→
→
→
,
max,
,
1
max,
,
max,
,
min,
max
min
s
s
s
s
y
spor
y
spor
s
s
opt
s
s
IN
IN
IN
IN
P
P
P
D
D
D
T
t
t
(2)
where
opt
T
– the optimal time for the target task;
spor
D
,
min
s
IN
,
max
s
IN
– limit
indicators of reliability and informational redundancy, determined the target by
SITSAS;
spor
P
– limit indicators of the probability of destruction, determined by means
of kinetic destruction or electronic suppression.
The prerequisites for the emergence and features of the development of SITSAS
are considered in [41, 42]. It should be noted that SITSAS, unlike a single piece of anti-
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