DE1801850B2 - Spurious signal reduction method for secondary radars - involves transponder address which carries coding for parity detection of received impulses - Google Patents

Abstract

The method is designed to reduce the incidence of interfering clutter signals in a secondary radar system receiver. Interrogation signals sent out with the main transmitter pulses are processed in a transponder which re-radiates on a different frequency with an identification code. This is received at the main radar. If the transponder re-transmitted signal carries a pulse-coded part of its address which when received, can be compared with the complete identification signal in a coincidence decoder network, the effect of spurious, interference will be minimised. further security can be obtained by giving each transponder several identification addresses which are repeated in succession. The number of dta bits for each address code can be adjsutaed to a tolerance band outside the unwanted dnoise impulses' spectrum.

Description

18 Ol

Siation marking only those response signals to select and utilize those sent out by a response device in response to your own query will. However, the two methods and arrangements described above have their own Requires a facility that can be used to determine which of the response signals are in their schedule match the schedule of the interrogation signals. The coincidence circuit for determining the agreement however, the schedule requires a large amount of memory.

The object of the invention is to create an arrangement for avoiding intrinsic disturbances in which no memory overhead is required. According to the invention, which relates to an arrangement dei referred to, this is achieved by adding the additional, to identify the corresponding information that serves as the address part in the response signal of the transponder is accepted, is also designed as a pulse telegram, with the compliance check of the received address part with its own station identification through simple passive decoding takes place in which only such response signals are evaluated by the coincidence test item of the address part which are assigned their own address section.

In contrast to the known arrangements, no device is used to avoid intrinsic interference high storage capacity required. The addressing can be designed in such a way that it is only little additional effort in the coding and used for the actual information transmission Can insert decoding methods, since only an increase in the information to be transmitted required will. It is also advantageous that a decision is made as soon as a single information packet is received can determine whether there is an answer that can be used. In contrast, with the known defruiters, useful information is available lost.

If, for example, two bits are also varied from query to query so that only after four If the same address is queried repeatedly, even with a very high repetition rate / will definitely be Responses rejected from stations outside the set range of the Kadargeräles. In connection with this method, the problem of interference by overreaching can also be solved to solve.

Restrictions on the choice of the query tactic, as they are necessary when using the well-known Del'ruiier, are omitted in the arrangement according to the Invention. To increase the number of responses per detection by the antenna lobe, the repetition frequency possibly up to the limit of the range or the permissible mean transmission power given value can be increased.

When using multiple stationary stations that are far enough apart, it is It is advisable to assign the same addresses to them, but the probability is in the case of moving stations it is great that those with the same address come too close to one another. Due to the very adaptable Arrangement according to the invention or its mode of operation becomes a considerable limitation in this case as well the disturbances caused by "fruit" and overreach are possible, if purely statistical Laws, ζ B. from the noise of a digital Pulse train generating noise or pseudo-noise generator controlled, each station its identification changes from query to query within the scope of the intended information content. A complete suppression is not reachable because there is a certain probability that two neighboring stations are random can use the same address at the same time. The number of bits for address coding but can be adapted to the requirements so that the disturbances do not exceed a tolerable level.

The addresses can also be distributed so that e.g. B. fixed large stations unchangeable addresses received, which then graze not used by moving stations with time-changing addresses to be allowed to. In this case, a hierarchy is expediently used for the distribution of the bits for the addresses introduced.

Claims (5)

18 Ol patent claims: 1. Arrangement for the elimination of intrinsic disturbances (»fruit« and overreaches) in a secondary radar system with co-channel operation, which arise in an interrogator by receiving signals triggered by other interrogators Additional information for identifying the relevant questioning station is included and the transponder takes over this station identifier as an address part in the response signal and finally only those in the querying station by decoding the received response signals and checking for conformity of the received address part with its own station identifier, also as pulse telegrams trained response signals are selected and used, which are sent out on the own query by a response device, thereby marked / .eichnet that the additional, to identify the corresponding questioning Sta tion serving information, which is also taken over as an address part in the response signal of the response device, is also designed as a pulse telegram, whereby the check of the correspondence of the received address part with the own station identification is carried out by simple passive decoding, in which on the basis of a coincidence check of the address part only those response signals are used that have their own address section. 2. Arrangement according to claim 1, characterized in that that with a spatially extensive secondary radar system with many stationary interrogation stations such stations are assigned the same addresses which are so far apart that Despite the same addresses, no »fruit« faults can occur. 3. Arrangement according to claim 1, characterized in that with a secondary radar Systcm oris mobile query stations the identification of each of the query stations from query to Query within the scope of the provided address information content can be changed if one Interrogation station with the same identification comes so close that "fruit" faults arise can. 4. Arrangement according to claim 3, characterized in that the station identification of one Noise or pseudo-noise generator is controlled. a digital pulse sequence (e.g. zero-one sequence) generated. 5. Arrangement according to one of claims 1 and 2, characterized in that stationary large stations unchangeable identifications received from moving stations with time-varying Addresses may not be used. b. Arrangement according to one of the preceding claims for avoiding interference from "overreaching", characterized in that the identification changes from query to query. The invention relates to an arrangement for eliminating intrinsic disturbances ("fruit" and overreaching) in a secondary radar system with co-channel operation, which is carried out by an interrogator Receipt of signals triggered by other interrogation devices, whereby in the scope of each as Pulse telegram formed query of an interrogation device additional information for identification the relevant questioning station is included and the answering device this Stationskennzexnung takes over as part of the address in the response signal and finally through in the requesting station Decoding of the received response signals and checking for correspondence of the received address part with their own station identification only those that are also designed as pulse telegrams Response signals are selected and processed, which are responded to by an on-site response device upon request be sent out. Known secondary radar systems work in direct-channel operation; i.e. all interrogators send in a single frequency channel. all responder in a different channel. This makes it possible that z. B. one of the interrogators receives the signals from a responder that is sent by other interrogators were triggered. This undesirable self-control is called »fruit«. The radar image is through this Disturbance falsifies so that it loses clarity and if there is a strong occurrence of "fruit" disturbances gen no longer has any informative value. In order to rule out the described self-interference of the system, the previously known Method exploited the fact that the individual stations intentionally never queries with exactly the same Send out polling pulse frequency. Since the responses are triggered in time with the queries, the Pulse telegrams at the requesting stations with different repetition frequencies. The synchronous The sequence of responses represents the information at which an interrogation station receives the Recognize answers to their own queries. In order to obtain the usable ones from all the received signals To be able to choose, a "defruiter" is necessary. This accessory must be used for the period between two successive queries save the position of each individual video signal received. Just those video signals may be passed on for exploitation that occurs in the case of successive answers appear in the same temporal position. The pure change in the distance of a mobile answering station during a query seric is within the tolerance of even at supersonic speeds Measurement accuracy below. The disadvantage of this method is inter alia. in the high effort that the "defruiter" requires. It is already from G B patent specification 5 91041 known and proposed in German Patent 15 41 564 in the case of a method or an arrangement for eliminating intrinsic disturbances to the extent of each Interrogation of an interrogation device additional information, namely in the form of a modulation of the interrogation pulse train frequency, to identify the relevant questioning station to be included by the answering device to have this station identification accepted as part of the address in the transponder and in the querying station by decoding the received response signals and checking for correspondence of the received address part with your own