Introduction to
Naval Weapons Engineering
Title: Guidance and Control
Reading: pp 428 454
I. Objectives
A. Given a description of the guidance system be able to
categorize it in table 15-3
(p 454)
B. Given a the type of guidance law, be able to list
the advantages and disadvantages of it (table 15-1).
II. Introduction
A. GUIDED WEAPONS (missiles or projectiles) provide a significant
increase in accuracy. This increase was necessary due to the
parallel increase in target evasiveness. We'll be discussing
some of the principles of guidance and control in light of what
we've learned to this point in the course.
B. The keys to guidance control are:
1. knowing what the target is doing
2. knowing what the missile is doing
3. control the missile (internally/externally) into a collision
course with the target. We'll cover these
methods later on in the hour.
C. Detect/Track the Target: RADAR, ACOUSTICS, OR EO
D. Track the Weapon: Same means, but more detailed info is available
because the weapon doesn't mind sending us information
about its status from sensors like accelerometers and internal
gyros.
III. GUIDANCE PHASES
e.g. Sub-surface Harpoon
A. Boost
Purpose: Get the missile away from the launch platform and in
a position where it can be guided (either in the
general direction of the target, or into a capture beam).
Usually unguided at this point.
B. Midcourse Longest phase
Purpose: Put the missile in the vicinity of the target.midcourse
guidance system/autopilot takes the weapon near
the target prior to terminaling homing.
C. Terminal High accuracy, high response rate
Purpose: Successfulyl engage the target.
IV. TYPES OF GUIDANCE SYSTEMS
A. EXTERNAL:
1. Control guidance systems (flight commands originate external
to the weapon)
a. Command guidance commands are transmitted to the missile
based on missile and target tracks. (Fig 156,
p. 436)
b. Beam rider missile launched into a capture beam which
gets it to the guidance beam. Using conical
scan techniques, missile keeps itself inside
the beam and "rides" it to the target. Requires
only one radar & can control many missiles at once, but accuracy
degrades with range. No longer used.
c. Modified beam rider same as BR, but 2 beams are used
(one for missile, one for target) and a collision course is computed
from that data.
d. Wire guided direction given to weapon through a wire
connected to the fire control console. Ex: MK48 torpedo, tow
missile
2. Homing guidance systems (weapon reacts to some distinguishing
characteristic of the target): MOST
ACCURATE
a. Active
b. Semiactive
c. Passive
3. Composite systems improves performance due to redundancy
and better EP features.
B. INTERNAL
1. Preset Weapon launches with predetermined path ==>
no flexibility after launch (harpoon before seeker
comes on)
2. Navigational controls
a. Inertial ASROC, depth charges
b. Celestial ICBM's take star fixes
c. Terrestrial a digital map is stored in the guidance
section of the weapon so that the weapon can "take a fix",
determine its position, and correct its flight path if necessary.
(Tomahawk: TERCOM and DSMAC - explain)
V. FLIGHT PATHS
A. Preset weapon path can not be varied after launch
1. Constant straight line torpedo path (no variance; normally
one path)
2. Programmed set in various paths as in mk46 torpedo (snake
or circle search, then straight run to target,
if lost contact, circle search to reacquire).
B. Variable heading of weapon changes with changes in target
course and speed.
1. Pursuit (fig 1516, p. 449) weapon points
at target along the weapon's los at all times: a tail
chase.
2. Line of sight (fig 1519, p. 451) missile
guided along the launch platform's LOS to target (beam
rider)
3. Constant bearing (fig 1517, p. 449) a CBDR
path is computed.
4. Proportional navigation (fig 1518, p. 450)
A more efficient flight path since it uses the rate
at which the bearing is changing (bearing drift). This rate is
applied to a fixed or variable navigation ratio
to determine steering commands to an intercept point.
5. Constant lead angle path modified beam rider
VI. Questions?
A. For a good review see tables 151, 15-2, &
153
VII. Homework
Rec: WB 15.2, 3, 6
Req: None