RU2372578C1 - Method of camouflaging space objects - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: use of heat targets allows for protecting descent modules. Radiation intensity of heat targets corresponds to radiation intensity of spacecraft in each moment in time with change of flight altitude of the spacecraft.

EFFECT: protection of spacecraft from guided missiles with infrared homing heads.

Description

The invention relates to the field of descent spacecraft used in near space and in the upper atmosphere, and can be used to organize their protection from space defense systems equipped with homing devices operating in the infrared range.

The closest in technical essence to the proposed one is a method of protecting aircraft and helicopter equipment, based on the use of infrared traps fired from the aircraft (LA) to remove guided missiles using the thermal imaging guidance method (patent RU No. 2231742, 2002).

The known method allows to protect the aircraft from guided missiles with infrared homing due to the energy characteristics of infrared traps.

The disadvantage of this method is the relative narrow scope, since it is not explicitly applicable for the effective masking of an aircraft by infrared characteristics in outer space and in the upper atmosphere.

In addition, the known method is quite complicated, since it requires a large number of infrared traps, shot from the aircraft during the flight.

The required technical result is to expand the scope and simplification of the method.

This technical result is achieved in that in order to effectively mask the descent aircraft in the upper atmosphere, it is proposed to use three thermal targets for each act of shooting from the aircraft, characterized in that the radiation power of the latter is identical to the radiation force of the aircraft at the time of shooting at a certain height.

The aerodynamic drag of a space object in the upper atmosphere is accompanied by the occurrence of thermal radiation, which is a unmasking sign and information for anti-space systems. In the event that additional radiation sources with characteristics similar to the radiation of an aircraft appear in the immediate vicinity of the aircraft, it is possible to withdraw detection and homing means based on the use of infrared radiation receivers from the object, which can lead to a miss of interception means.

It is proposed to use thermal targets that will separate from the aircraft during the flight to effectively mask the aircraft in the upper atmosphere. According to preliminary estimates, the most appropriate and feasible option would be to shoot thermal targets at an angle of 90 °. When separated from the aircraft, the pyrosomast of thermal targets is ignited, the characteristics of which ensure that the radiation is identical in the infrared range in which the infrared homing head of interception means works. The heat-up time of thermal targets should be as short as possible, so that during the passage of the field of view of the homing head of the interception means, the thermal target can reach a mode in which the necessary radiation spectrum is provided, thereby making the thermal target a target-like object. The burning time should be sufficient for a possible withdrawal of interception means. To cover the entire range of possible interception of an aircraft, it is necessary to repeatedly shoot thermal targets with a certain time interval. The frequency of shooting is due to the operating time of the thermal targets. The number of thermal targets in each period of time of shooting must be at least three, provided that the means of interception are equally likely to leave for one of the targets. These characteristics depend on the motion parameters of the aircraft and the characteristics of the interception means.

The launch of thermal targets is carried out when approaching the upper atmosphere by a command generated on board the aircraft.

A variant of the structural layout of the aircraft with a block of thermal targets involves the placement of this device in free volumes of space in the bottom of the aircraft.

Thus, the proposed method has a wider field of application, since it allows for effective masking of the aircraft from intercepting missile defense systems using detection and homing tools based on the use of infrared radiation receivers in the upper atmosphere. In addition, this method will reduce the mass used on the means of masking the aircraft in different parts of the flight, which significantly reduces the payload of the delivery vehicles of space objects.

Claims (1)

A method of protecting a descent spacecraft from anti-space defense systems, which consists in shooting thermal targets, the radiation of which is identical to the radiation of a spacecraft in the infrared range at each moment of shooting as the altitude of the comic apparatus changes in the upper atmosphere.