DE1566857B2 - Device for binaural signal reception in sonar systems - Google Patents

Description

The invention relates to a device for binaural Signal reception with sonar systems.

In the case of sonar systems that cover a larger observation sector simultaneously, e.g. B. for panorama systems, it is a well-known method, the interfering and useful noises or the echo signals from the observation sector on the screen of a Braun tube at the correct angle according to their direction of incidence. This representation is also known in radar devices and is commonly referred to as a PPI (Plan Position Indicator) Representation designated

In addition to the optical display of the sonar signals, the acoustic reproduction of. great value for the place, since the simultaneous perception of information with the eye and the ear - especially in cases with a low useful-to-interference ratio - the Improved probability of detection or initial coverage of a useful signal

Disadvantage of the acoustic, observation: the signals However, the missing directional resolution is from a larger sector. The possibility of directional hearing, which in the life of the human being as soap easy is felt is absent here.

This is disadvantageous for two reasons.

On the one hand, because the directional information as such absent, and secondly because simultaneous listening of signals from all possible directions to one leads to a higher noise level in terms of volume; which largely has a relatively weak signal from a certain direction covered If directional information were available, the ear could follow the perceptions Differentiate between directions and thus recognize even quieter noises from individual directions. That is well known. It is Z. B ^ relatively simple, in one Conversation of several people: focus on one speaker and select from the voices of the to hear others.

The known sonar systems contain the acoustic directional determination of the incident sound only as a maximum bearing. The acoustic measurement direction is swiveled until the location gives the impression maximum intensity. With the search beam sonar systems this is done by swiveling the transducer base and thus the reception characteristics, in sonar systems with electrical swiveling of the receiving directional characteristic and fixed

ίο Oscillator base by actuating electrical compensators.

There are also sonar systems in which a large observation sector with the help of fixed compensators is divided into several narrow sectors that are more closely bundled together, so-called precompensated Directions (English referred to as preformed beams). The acoustic playback part can be used here switched to the different precompensated directions and thereby the maximum bearing be performed. The invention relates to such systems. She avoids the described Disadvantages due to a device for the simultaneous acoustic reproduction of the received signals of a sonar system, that consists of a flat or curved receiver base with a large number of individual transducers forms output signals for more sharply bundled, neighboring receiving sectors with the aid of a compensation network, in which the output voltages of the Compensation network with the interposition of an arrangement for amplitude graduation such as there is the difference in volume when sound is incident from the respective directions at the right and left ear in air, are switched to two delay chains, the links of which have delays that are equal to or proportional to the difference in transit time at the two ears for the respective direction and headphones or loudspeakers are connected to the outputs as binaural playback devices.

Such a device gives a distinct sense of direction.

If there is a noise source on the left, in the middle or on the right in the observation sector, then the location has also the impression that he hears the sound on the left, in the middle or right.

The invention is illustrated below by means of an example explained (Fig. 1).

A flat receiver base 1 with equidistant oscillators is switched to a compensation network 2, at the outputs of which the signals for the more sharply bundled, neighboring receiving sectors 3.1 ... 33 are located. The output voltages are switched to an amplitude staggered arrangement 4.1 and 4.2 and further to two transit time chains 5.1 and 5.2, to the outputs of which headphones (6) are connected for the right and left ear.

The mode of operation of the invention is as follows:
If sound hits the transducer base from a direction of sound incidence, the direction generator 2 adds the voltages of the individual transducer elements in such a way that at the output corresponding to the direction of incidence - in this example the seventh from the left - the sum of all oscillation voltages arises while at the other outputs almost result in a value of zero.

This total voltage then reaches the amplitude graduation 4: 1 and 4.2 to the runtime chains 5.1 and 5J2. The amplitude graduations exist z. B. from voltage dividers, the divider ratios of which

are different. A signal that comes from the precompensated Direction 3.1 detects wrrcE, reaches the left transit time chain with the full amplitude and with about 30 up to 50% on the right maturity chain. For precompensated directions from the center, the signal becomes uniform distributed on both chains and received for the directions from the right half of the observation sector the right runtime chain has more tension than the left.

This division of amplitudes already gives the listener a certain sense of direction, the however, it is amplified by the differences in runtime that the signals suffer in the runtime chains. Signals from the middle of the observation sector are delayed equally for both headphones. Signals off the left and right parts different, so that they reach the left and right ears of the listener earlier.

The invention is not restricted to the example shown. Curved receiving groups can also be used use. Networks are also known for such, the more sharply bundled, neighboring ones Pre-compensate receiving sectors.

fn a further embodiment, FIG. 2, the two transit time chains 5.1 and 52. with their amplitude staggered arrangements 4.1 and 4.2 are combined to form a single transit time chain (5) and damping resistors (4). In this case, the signals are fed in with low resistance via resistors that simultaneously dampen the chain. When traversing the delay chain, the signals suffer not only a delay, but also a reduction in amplitude that is proportional to the path they cover in the chain.

For this purpose 2 sheets of drawings

Claims (2)

Patent claims: 1. Device for binaural signal reception in sonar systems that consist of a flat or curved Receiver base with a large number of individual transducers with the help of a compensation network Forms output signals for more sharply bundled, neighboring receiving sectors, thereby characterized in that the output voltages of the compensation network are interposed an arrangement for amplitude staggering such as the volume difference corresponds to sound incidence from the respective directions at the right and left ear in air two delay chains are switched, the links of which have delays that are equal or proportional the difference in transit time at the two ears for the respective direction and at their Outputs headphones or speakers are connected as a binaural playback device. 2. Device according to claim 1, characterized in that the two runtime chains with their Amplitude staggered arrangements to form a chain with amplitude staggered and with two outputs are summarized for the binaural display device.