LIMITED VISIBILITY OPERATIONS
LIMITED VISIBILITY OPERATIONS
The reconnaissance platoon must be able to operate under limited visibility conditions. This appendix discusses the equipment and used to operate in darkness, smoke, dust, fog, heavy rain, or heavy snow. Limited visibility can result in decreased target acquisition capability, difficulty in distinguishing friendly from enemy units, difficulty in controlling movement, and reduced weapon accuracy.
A-1. LIMITED VISIBILITY OPERATIONS
In addition to normal planning, limited visibility operations require special emphasis on the following:
- Simple tactical plans while maintaining the necessary level of detail.
- Plans for the potential use of illumination and smoke.
- Surveillance with night vision and infrared devices.
In selecting a means to employ illumination or smoke, leaders must determine the type of assets that are available to include capabilities and limitations. They plan for more than one means since enemy action, changes in weather, other missions, or logistics constraints might prevent the use of any one type.
A-2. NIGHT VISION DEVICES
Night vision devices ( Table A-1) enhance observation during night operations. The level of enhancement depends on the type of night vision device used and the visibility conditions. For example, image intensification devices dominate the battlefield and provide the best results under clear air and good ambient light conditions. Image intensification devices are defeated by bad weather, darkness, and battlefield obscurants. When available, thermal imagery devices are employed during conditions that defeat image intensifiers and penetrate camouflage. Remote sensors are employed in dead space or in situations of long distances. Night vision devices aid surveillance/target engagement when darkness, vegetation, weather, camouflage, or obscurants limit natural vision, but the degree of assistance depends on the technology (image intensification or thermal imagery). Thermal imagery devices should be employed whenever possible to provide the best surveillance/engagement capability.
Table A-1. Night vision devices.
Table A-1. Night vision devices (continued).
A-3. EQUIPMENT EMPLOYMENT
The types of equipment that can be used during limited visibility and the factors to consider when employing them are discussed in this paragraph.
a. Binoculars. Binoculars are most effective in clear air. During
reduced visibility, however, they are better than the unaided eye.
b. Remotely Employed Sensors. REMS, such as the PEWS, are critical to effective security in limited visibility. They may be employed to monitor avenues of approach, possible assembly areas, DZs, LZs, obstacles, and dead space forward of or between OPs. REMS have a limited range; therefore, careful analysis of where to position sensors is most important. When they are positioned parallel to the avenue of approach, REMSs can detect the direction, rate of march, composition, and size of a force passing the sensors.
c. Thermal Imagery Devices. Thermal imagery devices lose some effectiveness during heavy rain, dense fog, or smoke. Therefore, they must be integrated with other devices to provide effective detection. Thermal imagery devices are affected by temperature gradients between the target and the target background.
d. Image Intensification Devices. The range of image intensification devices depends on surrounding light levels. Low-light levels, rain, fog, smoke, and dust reduce their effectiveness. Low-light levels during periods of otherwise clear air can be overcome by illuminating with invisible light and by using image intensifiers. Infrared light provides enough light to allow the image intensifiers to be effective. However, looking directly at a visible light source causes the device to shut off. Operators of image intensification devices develop eye fatigue and lose night vision.
e. Ground Surveillance Radar. Radar energy produced by the GSR penetrates light camouflage, light foliage, smoke, haze, light rain and snow, and darkness. It cannot penetrate dense undergrowth, trees, or heavy foliage. However, high winds can make the radar unusable. Heavy rain or snow restricts radar detection abilities. However, a well-trained operator can lessen these effects. Radar sets have only a line-of-sight capability. Radars are effective during good visibility as well as bad. Their use should be planned for all operations--not just night operations or when expecting smoke. Radar can be used--
(1) To search avenues of approach, possible enemy attack positions,
assembly areas, or other sectors. It can be used continuously to determine
location, size, and nature of enemy activity.
(2) To monitor point targets such as bridges, defiles, or road junctions. It can be used to determine quantity, type, direction, and rate of target movement through the point.
(3) To extend a patrol's observation abilities by enabling the patrol to survey distant points or areas of special interest.
(4) To provide warning of enemy activity near friendly positions or routes.
(5) To detect partly obscured targets.
(6) To aid in controlling movement during limited visibility by monitoring course headings or vectoring.
(7) To increase the effectiveness of fire support by correctly locating targets. It can also be used to survey target areas at once after fires are lifted to detect enemy activity and to determine the effectiveness of fire.
(8) To detect enemy radar.
(9) To limit the enemy's ability to detect radars, mask the emitter. Terrain is used to mask the emitter, if possible. The radar is placed in a reverse-slope position with its sector off to the flank(s). Radar that is left ON is easier to detect. Use can be increased by the flicker technique (alternately turned ON and OFF) to help avoid enemy detection.
Normally, radar is located on dominant terrain. A radar site and an OP can be collocated, but soldiers who operate the radar should not be detailed as ground observers except in emergencies. The radar is dug in and camouflaged. The platoon leader (or S2) selects the general location for the radar site. The ground surveillance section leader or team leader chooses the site within the given location. The team's senior radar operator prepares radar surveillance cards. One copy of this card is forwarded to the S2 for use in preparing or modifying his surveillance plan.
A-4. DEVICE INTEGRATION
The reconnaissance platoon leader plans the use of NVDs and surveillance devices to obtain the best coverage of his area of operations and to make best use of the abilities of the various devices (Figure A-1). A typical mix might include REMS to cover out-of-sight objectives and dead space, night vision sights for close range, radar for long-range line of sight, and thermal imagery to penetrate smoke and for use in low-light conditions.
Figure A-1. Device integration.
A-5. ENEMY NIGHT VISION AND SURVEILLANCE DEVICES
Soldiers avoid detection by the enemy by moving stealthily. Defensive measures include cover and concealment, use of appropriate camouflage devices and methods, concealment of actions with smoke, and thermal and visual decoys.
A-6. BATTLEFIELD ILLUMINATION
When night vision devices are not available, artificial light is the simplest way to operate on a battlefield during darkness. The intent is to illuminate or silhouette the enemy force without illuminating friendly elements (Table A-2). However, the illuminating force might be adversely affected by its own light source. Platoon leaders must know the characteristics of available artificial illumination systems. They must also know how they are influenced by darkness, weather, and terrain. The platoon leader must exercise positive control over the use of various illumination means, since illumination in one area might have an unfavorable effect on elements elsewhere. Approval is required from the battalion before illumination can be used. Artificial light is divided into two categories: visible and invisible light.
a. Visible Light. Visible light requires no special equipment other
than the light source itself. It is used to continue operations begun
during daylight, when troops are untrained, or to offset an enemy advantage
in NVDs. It is the simplest method of operating during darkness. The
disadvantage of using visible light is that it permits the enemy to see the
Table A-2. Available light source.
b. Invisible Light. Invisible light comes from a near-infrared
source, ultraviolet light, or pink light filter; it is normally impossible
to see this light with the unaided eye. Although it is visible to NVDs,
invisible light has greater security than visible light, because a device
is required to detect it.
A-7. EMPLOYMENT CONSIDERATIONS FOR ARTIFICIAL LIGHT SOURCES
Various considerations govern the use of artificial light sources.
a. Ground Flares. Ground flares are mainly defensive, are good for
early warning, and can be detonated remotely by pull-pin or trigger-release
devices. Ground flares are not suitable for continuous illumination.
b. Illuminating Shells (Parachute-Supported Flares). After the
parachute opens, windspeed, direction, and the amount of obscurant
determine what ground area is lighted. Shells are normally set to
detonate at a height of burst that allows the flare to burn out just
before it reaches the ground. Drifting flares can illuminate friendly
forces; therefore, the detonation point must be adjusted either by
offsetting it or lowering the height of burst. If grass or brush fire is
a hazard, the height of burst is not lowered. Strong winds require that
the rate of fire be increased for continuous illumination. Fog, dust,
smoke, and falling snow decrease the intensity of the illumination.
Therefore, low-airburst shells can be used as navigational aids even
though they provide little illumination.
A-8. SMOKE OPERATIONS
Smoke is used to blind the enemy, break contact with the enemy, to signal, or to deceive.
a. Obscuration Smoke. Obscuration smoke is placed on or near
enemy positions to interfere with observation and fire. It is usually
delivered by indirect fire such as artillery or mortars. Use of obscuration
smoke on the enemy could cause him to reduce speed, to change direction,
to prematurely deploy, or to increase radio transmissions.
b. Screening Smoke. Screening smoke is intended to conceal friendly forces and to help break contact with the enemy.
c. Marking and Signaling Smoke. Marking and signaling smoke is used to mark reference points, targets, or positions. Colored or WP smoke is usually used.
d. Deceptive Smoke. Deceptive smoke is used in coordination with other actions to create the illusion that a tactically major event is occurring to confuse or mislead the enemy. It is used with other deceptive measures such as electronic deception.
A-9. SMOKE EFFECTS
Smoke can affect both the psychological and physiological aspects of soldiers' activities. Therefore, it can also affect combat operations.
a. Psychological Effects. Screening smoke near friendly positions
to reduce enemy observation can help maintain morale when soldiers are
aware of its purpose. However, soldiers operating in smoke can develop
fear or anxiety due to the lack of visibility to detect the enemy, to see
adjacent units, or to distinguish terrain features. This causes orientation
problems. Smoke tends to isolate individuals or groups and degrades
their ability to fight. Soldiers in this situation are vulnerable to
deception through other sensory perceptions such as sound. Leaders at all
levels can suffer these effects.
b. Physiological Effects. Though smoke produced by mechanical generators or munitions might not produce immediate physiological effects, extended exposure to large concentrations can produce secondary effects such as shortness of breath, inflammation of the respiratory system, dizziness, vertigo, or vomiting. Donning the protective mask limits these effects. Vertigo can be overcome by leaving the smoke area or by getting close to the ground. Chemical agents can also be delivered with smoke. The leader must analyze the risk of masking, which may be an overreaction and cause more potential command and control problems.
A-10. OPERATIONAL FACTORS
The reconnaissance platoon may be directed by battalion to assist in smoke operations. Unless directed by battalion, the platoon uses smoke only in situations in which they must break contact. By limiting vision, smoke degrades the ability of soldiers and combat forces to maneuver, fight, and visually communicate. Furthermore, it restricts observation of surrounding terrain and of other combat elements on the battlefield. The natural tendency of a vehicle driver is to avoid entering smoke, to move out of or around it, or to slow movement upon entering.
A-11. TYPES OF SMOKE
White phosphorus and HC are the two predominant types of smoke used today.
a. Field Artillery. Field artillery smoke ammunition can be either
WP or HC ( Table A-3).
Table A-3. Artillery smoke ammunition.
b. Mortars. Mortars provide good initial smoke coverage due to
their high rate of fire, but their small basic load limits the size and
duration of the screen mortars can provide. The only type of smoke round
delivered by mortars is WP (Table A-4).
Table A-4. Mortar smoke ammunition.
c. Smoke Pots, Smoke Grenades, and M203 Dual-Purpose Weapons
(Smoke Round). A variety of smoke-producing items are available to the
battalion through standard issue. Due to their limited ranges, these
smoke producers must be employed for close obscuration requirements.
A-12. EFFECTS OF SMOKE ON ELECTRO-OPTICAL SYSTEMS
Electro-optical systems allow any targets that can be seen to be engaged by direct fire out to 3,750 meters. They also improve the ability to see and engage targets at night. The use of smoke at night is effective in defeating electromagnetic energy-producing systems, thus making it an important element in night operations.
a. Electro-optical systems normally found on the battlefield include--
- Hand-held thermal viewers.
- Wire-guided, optically-tracked, antitank missiles/nightsights.
- Laser range finders.
- Television-seeker missiles and bombs.
- Heat-seeking missiles.
b. All electro-optical systems work by radiating or receiving electro-optical energy. Smoke affects these systems by either reflecting, absorbing, scattering, or attenuating (weakening) electromagnetic energy.
A-13. TACTICAL CONTROL TECHNIQUES
To overcome the problems generated when soldiers cannot see the battlefield, the platoon leader and his subordinate leaders must employ other techniques to control their subordinates.
a. Identification. Recognition means include radio, infrared, and
radar, and they are used with other established audible and visual signals.
b. Movement. Visual contact should be maintained; soldiers should maintain closer intervals. NVDs allow soldiers to retain good dispersion while maintaining visual contact. The leaders should reduce rate of movement, and establish SOPs for audible and visual signals.
c. Navigation. Guides should be used whenever possible.
(1) Radar or low-light sources should be used to mark boundaries.
(2) Radar, infrared beams, and landmarks should be used to maintain direction.
(3) Preplanned artillery spotting rounds can be used to help determine location and direction.
A-14. DARK ADAPTATION
Dark adaptation is the process by which the human body increases the eyes' sensitivity to low levels of light. Soldiers adapt to darkness at varying degrees and rates. During the first 30 minutes in the dark, eye sensitivity increases about 10,000 times, but not much after that.
a. Dark adaptation is affected by exposure to bright light such as
matches, flashlights, flares, or vehicle headlights. Full recovery from
these exposures can take up to 45 minutes.
b. Using night vision goggles impedes adaptation. However, if a soldier adapts to the dark before donning the goggles, he gains full dark adaptation within 2 minutes when they are removed.
c. Soldiers must also know that color perception decreases at night. They may be able to distinguish light and dark colors depending on the intensity of reflected light. Visual sharpness is also reduced. Since visual sharpness at night is one-seventh of what it is during the day, soldiers can see only large, bulky objects. This means that object identification at night is based on generalized contours and outlines. Depth perception is also affected.
d. A reconnaissance platoon that is inserted by parachute must remember to adapt their eyes 20 to 30 minutes before exiting the aircraft. By doing so, the reconnaissance platoon can begin movement once consolidated.
A-15. NIGHT VISION
Darkness affects the senses of sight, hearing, and smell. Sharpening these senses requires training. Soldiers must know how their eyes function at night to best use them.
a. Night Vision Scanning. Dark adaptation is only the first step
toward making the best use of night vision. Scanning enables soldiers to
overcome many of the physiological limitations of their eyes. It can also
reduce confusing visual illusions. This technique involves looking from
right to left or left to right using a slow, regular scanning movement
(Figure A-2). At night, soldiers must avoid looking directly at a faintly
visible object when trying to confirm its presence.
b. Use of Off-Center Vision. The method of viewing an object using central vision is ineffective at night. This is due to the night blind spot that exists during low illumination. Soldiers must learn to use off-center vision. This method requires viewing an object by looking 10 degrees above, below, or to either side of it rather than directly at it (Figure A-3).
c. Countering of the Bleach-Out Effect. Even when soldiers practice off-center viewing, the image of an object bleaches out and becomes a solid tone when viewed longer than two to three seconds. By shifting the eyes from one off-center point to another, the soldier can continue to pick up the object in his peripheral field of vision.
Figure A-2. Typical scanning pattern.
Figure A-3. Off-center viewing technique.
d. Shape of Silhouette. Visual sharpness is reduced at night;
therefore, soldiers must recognize objects by shape or outline. Knowing the
design of structures that are common to the area of operations enhances the
success of the operation.
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