WO2007079821A1

WO2007079821A1 - Reconnaissance module for a maritime zone

Info

Publication number: WO2007079821A1
Application number: PCT/EP2006/011285
Authority: WO
Inventors: Stephan Benen; Christian Blohm; Tobias Fassbender; Jörg HURKA; Dirk Neumeister; Heiko Schmidt
Original assignee: Atlas Elektronik Gmbh
Priority date: 2005-12-23
Filing date: 2006-11-24
Publication date: 2007-07-19
Also published as: DE102005062108A1

Abstract

The invention relates to a reconnaissance module which is to be placed in a maritime zone. Said module comprises a module body (10) in which are mounted at least one reconnaissance sensor (16 to 19) for subsea exploration, an electromagnetic emitter device (24) for transmitting reconnaissance data and a current supply unit (22, 28). The aim of the invention is to permit the remote and hidden reconnaissance over any period of time during which the presence of reconnaissance modules should not be detected. To this end, the module body (10) is composed of an upper floating element (11) and a lower immersed element (12), both being connected to each other by a releasable lock (13). The reconnaissance sensors (16 to 19) and an electronic evaluation unit (20) for generating reconnaissance data based on the sensor output signals are disposed in the plunger element (12). The floating element (11) comprises a memory (23) for the reconnaissance data, the emitter device (24) that is connected to the memory (23) and the current supply unit (28).

Description

DECLARATION MODULE FOR SUSPENDED IN A SEA AREA

The invention relates to a reconnaissance module for deployment in a sea area according to the preamble of claim 1.

A known reconnaissance module (US 4 186 374) designed to be dropped from an aircraft has a housing with a detachable bottom and a push-off lid. In the housing, the underwater reconnaissance sensor constructed as an electroacoustic transducer, electronic circuits for amplifying the transducer output signals, and an electromagnetic transmitter for transmitting the amplified transducer output signals to the aircraft are housed. When the reconnaissance module is released, a parachute opens so that the reconnaissance module strikes the water surface with reduced force. The impact loosens the bottom of the reconnaissance module and the transducer drops out to sink, leaving it connected to the housing via a cable. The water which penetrates into the housing via the now open floor activates a gas cartridge which fills a buoyant body with a gas volume. The inflated buoyancy body breaks up the lid of the housing with the parachute attached to it and rises out of the housing up to the water surface. The buoyant body carries on its upper side an antenna of the electromagnetic Transmitting device, which protrudes in the floating position out of the water and remains connected via a cable to the housing and remaining therein, remaining modules of the transmitting device. The antenna transmits the amplified transducer signals to the aircraft by radio.

The invention has for its object to provide a Aufklarungsmodul for covert remote reconnaissance of a sea area, whose placement remains undetected in the sea area and collects data on activities in the sea area for any period of time and sends the collected data on call.

The object is achieved according to the invention by the features in claim 1.

The erfmldungsgemaße Aufklarungsmodul has the advantage that it lies after its exposure to the seabed and unrecognized for a long time collects data of the sea area, the conclusion of activities in the sea area, e.g. about the shipping traffic, about fleet movements, etc. The data can be retrieved at an arbitrary time, which may extend over years. For this purpose, the Verriegelungsvorπchtung between the two Modulkorperteilen is solved, so that the upper float to the water surface appears. The draw of the locking device can be controlled remotely or automatically upon detection of certain criteria by the

Aufklarungssensoren done. The electromagnetic transmitting device contained in the floating body sends after surfacing of the floating body collected and stored in a memory data, preferably encoded, by radio to a remote reception center, the land, water or be airborne. The emission can be used automatically after surfacing of the float or caused by radio signal.

Advantageous embodiments of the invention Aufklarungsmoduls with advantageous developments and refinements of the invention will become apparent from the other claims.

According to a preferred embodiment of the invention, a self-destruction device is integrated in the floating body, which destroys the floating body after the entire data stored in the memory has been emitted. This has the advantage that the probability of discovery of the emerged floats is relatively low and thus the carried out exploration of the sea area can not be subsequently detected by third parties.

The invention is described in more detail below with reference to a m embodiment of the drawing illustrated. In a schematic representation:

1 shows a longitudinal section of an Aufklarungsmoduls,

2 shows the exposed, sunk to the seabed Aufklarungsmodul during the data collection phase,

3 shows the emitted, sunk on the seabed Aufklarungsmodul after lots of locking device between sinker and float, Fig. 4 is a same view as in Fig. 3 at surfaced float.

1 in longitudinal section schematically sketched for deployment in a sea area has a module body 10 which is divided into two and composed of an upper float 11 and a lower sink body 12, wherein the sink body 12 a against the buoyancy of the float 11 a lot has greater output power. Float 11 and sinker 12 are connected by a releasable locking device 13 firmly together. The buoyancy force of the float 11 is realized by means of a floating body 11 arranged in the buoyancy body 14 and the output force of the module body 10 by a sinking body 12 arranged in the sinking weight 15.

In the sinker 12 is a plurality of passive underwater reconnaissance sensors 16, 17, 18, 19 for detecting magnetic, thermal or optical signatures of objects, such as over and underwater vehicles arranged. Sensors for detecting chemical signatures of sea areas in the sinker 12 may also be integrated for purposes of education on water pollution. The output signals of the reconnaissance sensors 16 are fed to an evaluation unit 20, which generates reconnaissance data from the output signals of the reconnaissance sensors 16. Furthermore, an electronic control unit 21 and a power supply unit 22 are provided in the sink body 12.

The floating body 11 includes a memory 23 for storing the generated by the evaluation unit 20 Enlightenment data, an electromagnetic transmitting device 24, such as a radio transmitter, with transmitting generator 25 and transmitting antenna 26 for transmitting the information stored in the memory 23 reconnaissance data, an electronic control unit 27 and a power supply unit 28. In addition, in the float 11 is still a receiver 29 of a satellite Gestüt zen position determination system, eg GPS, which upon exposure of the reconnaissance module from an aircraft, shortly before immersion of the reconnaissance module in the water determines the position of the reconnaissance module, which is then transmitted via the transmitting device 24 to the aircraft.

For clarification of a selected sea area, a plurality of reconnaissance modules are introduced into the sea area, where they are deposited by an over- or underwater vehicle or an aircraft, such as aircraft, helicopters or aircraft drone. The remote reconnaissance module drops after immersion in the water very quickly from the seabed 30, the rapid descent is achieved by a streamlined for the sinking shaping of the module body 10. The rapid descent of the reconnaissance module ensures that the position of the reconnaissance module on the seabed 30 does not deviate significantly from the immersion point of the reconnaissance module into the water. The immersion point is registered by the vehicle issuing the reconnaissance module.

If the reconnaissance module is located on the seabed 30, as shown in FIG. 2, the reconnaissance sensors 16 to 19 are automatically activated. The Aufklärungssensoren 16 to 19 detect within their Auffassbereichs 31, in Fig. 2 by two Boundary lines 311 and 312 is indicated, acoustic, magnetic, thermal and / or optical signatures of existing in the area 31 or the scope 31 passing through objects such as surface vehicles 32 or underwater vehicles 33, as illustrated in Fig. 2. The output signals of the reconnaissance sensors 16 are signal-processed in the evaluation unit 20 for reconnaissance data which permit a statement about the number, the type, the driving speed, the direction of travel etc. of the objects at different times. This reconnaissance data is stored in the memory 23. The period of time in which the reconnaissance module collects and stores data is arbitrary and may cover several years.

At any time, the reconnaissance data collected in the reconnaissance module can be retrieved. For this purpose, the locking device 13 between the float and sink body 11, 12 is released in a suitable manner, so that now the float 11 lifts off from the still remaining on the seabed 30 sink body 12 and rises to the water surface 34 (Fig. 3). The triggering criterion for the respective reconnaissance module is set before the expose of the reconnaissance module. The notching of the locking device 13 can also be brought about only after occurrence of several triggering criteria. A trigger criterion is, for example, the detection and classification of a particular type of vessel, such as a submarine or a surface ship, such as corvette, frigate and the like. , another triggering criterion one timeout, another a coded ultrasonic signal. If the floating body 11 has arrived at the water surface 34, the transmitting antenna 26 emerges from the water. Now, the transmitting device 24 is activated, the entire memory contents of the memory are transmitted by radio coded. The transmitted reconnaissance data is received directly or via satellite 38 from an authorized receiver installed, for example, on a surface vessel 35 or a land station 36. Optionally, especially when used in foreign sea areas, a self-destruction device 37 is present in the floating body 11, which is activated with emission of the last of the stored reconnaissance data and destroyed the floating body 11 so that any remaining remains can not be identified.

Claims

1. Reconnaissance module for exposure in a sea area, comprising a module body (10) in which at least one reconnaissance sensor (16 to 19) for underwater reconnaissance, an electromagnetic transmission device (24) for transmitting data and an electrical power supply unit (22, 28) added are, characterized in that the module body (10) from an upper float (11) and a lower sink body (12) is composed, the floating and sink body (11, 12) by a detachable

Locking device (13) are interconnected and that in the sink body (12) of the at least one reconnaissance sensor (16 to 19) and an electronic evaluation unit (20) for obtaining reconnaissance data from the sensor output signals and in the floating body (11) a memory (23) for the Reconnaissance data, the transmitting device (24), which is connected to the memory output, and the power supply unit (28) are integrated.

2. reconnaissance module according to claim 1, characterized in that the module body (10) has a streamlined shape for sinking.

3. reconnaissance module according to claim 1 or 2, characterized in that in the float (11) a Floating body (14) and in the sink body (12) a sinking weight (15) is arranged.

4. reconnaissance module according to one of claims 1 to 3, characterized in that in the floating body (11) a receiver (29) of a satellite-based position determination system is arranged and connected to the transmitting device (24).

5. reconnaissance module according to one of claims 1 to 4, characterized in that a plurality of passive underwater reconnaissance sensors (16 to 19) for detecting acoustic, magnetic, thermal and / or optical signatures of objects, such as over- and underwater vehicles (32 , 33) are provided.

6. reconnaissance module according to one of claims 1 to 5, characterized in that the

Locking device (13) is self-triggering and that the triggering criterion before the exposure of the module body (10) is adjustable.

7. reconnaissance module according to claim 6, characterized in that the triggering criterion is the signature of a watercraft of a particular vehicle class.

8. reconnaissance module according to one of claims 1 to 7, characterized in that a separate second power supply unit (22) in the sink body (12) is arranged. Reconnaissance module according to one of claims 1 to 9, characterized in that in the floating body (11) a self-destruct device (37) is integrated, which can be activated after emitting the memory contents of the memory (23).