DE10155742B4 - Device and method for generating spatially localized warning and information signals for preconscious processing - Google Patents

Abstract

Device for generating spatially localized acoustic warning and information signals, in which acoustic or optical signals are emitted from the direction toward a user in which an object or a dangerous situation is to be warned or informed about, characterized
in that the device has a device which makes it possible to transmit the acoustic and optical signals in common interaction, the respective acoustic and visual signal sources being mounted in a position specific to the respective warning or information,
that the Mismatch Negativity (MMN) is increased when recorded by the user of the signals.

Description

The invention relates to a method and a device according to the preamble of claims 1 and 7th

Modern technical equipment are increasingly equipped with complex warning and information systems. For example, automobiles are equipped with driver assistance and safety systems, who communicate with the driver. For example can signal the driver that he has fallen below safety distances become. The car is thus becoming increasingly complex auditory scene (especially with regard to the external traffic situation, the persistent strains, other passengers, radio, telephone or competing vehicle information). In this, the driver surrounding complex scene meaningful signals with appropriate Urgency to convey urgency must the Psychophysics of perceptual systems are taken into account. The security In the vehicle will be under these conditions through an optimization warning and information systems.

The hearing system represents those human Sensory channel, which is always on standby, on danger to react. Even under strong distraction, fatigue and sleep rapid reactions to acoustic signals. This vorbe knew function has been objectively defined by measuring a defined since the early 70s EEG or MEG component examined. These are called "Mismatch Negativity" (MMN) brain waves from the auditory cortex measure the detection of a different stimulus (Risto Näätänen and Istvan Winkler. The concept of auditory stimulus representation in cognitive neuroscience. Psychological Bulletin, 125: 825-859, 1999) and can thus as a measure of disorder in a dynamic system of equilibrium (K Mathiak, I Hertrich, W Lutzenberger, and H Ackermann, MEG recordings of syllableSperception: perturbations from a stable state in the auditoty cortex. In Chaos in the Brain ?, pages 283-287. world Scientific, Singapore, 2000). This preconscious processing step represents the Basis of the attention steering on a warning sound. As a supplement to behavioral experiments, which significantly depends on the motivation, state of mind and ability to concentrate depend on the subject The MMN can detect which warning stimuli to which degree also in Unconcentrated drivers can attract attention. In multimodal simultaneous stimuli can be about that beyond the mutual interference or reinforcement this on space and modality analyze distributed information.

over the "classic" MMN addition, the also measured by means of electroencephalography, allows the Magnetencephalography (MEG) in addition the differential determination of the origin of the reaction. Thereby can especially reactions to separate sources of noise (K Mathiak, I Hertrich, W Lutzenberger, and H Ackermann; Encoding of temporal speech features during binaural and dichotic stimulus applications: a whole-head Magnetencephalography study. Cognitive Brain Research, 10: 125-131, 2000) or objects (K Mathiak, I Hertrich, W Lutzenberger, and H Ackermann; Neuronal correlates of duplex perception: a whole-head magnetencephalography study. Neuro Report, 12: 501-506, 2001) are separated. The MEG responses differ the information content of the signals (I Hertrich, K Mathiak, W Lutzenberger, and H Ackermann. Differential impact of periodic and aperiodic speech-like acoustic signals on magnetic M50 / M100 fields. NeuroReport, 11: 4017-4020, 2000).

From the post-published German patent application DE 101 53 303 A1 ("Device and method for measuring the influence of warning signals and information on a user of a technical device") is a method and a device for investigating the responsiveness of an operator of a technical device known. The influence of visual stimuli in space on the perceptive readiness of acoustic warning stimuli with concordant or discordant spatial distribution is investigated. The device is designed in such a way that it can output both visual and acoustic warning signals and / or information, and the user of the technical unit is connected to a measuring system for detecting the mismatch negativity (MMN) of the brain waves. The Mismatch Negativity forms a measure which indicates the influence of visual stimuli in space on the perception readiness of acoustic warning stimuli with concordant and / or discordant spatial distribution.

To improve the readiness of the warning signals, it is in today's signaling systems in motor vehicles DE 198 43 564 A1 known to send warning signals from that direction towards a user, in which there is an object or a dangerous situation, warned of which or about which to be informed. For this purpose, it is proposed to send the warning signals either visually or alternatively acoustically. Due to interactions with other factors affecting the driver in the real traffic environment, such as additional visual or auditory tasks, the perception of the warning signals may be impaired.

The object of the invention is to provide a Device and a method to find, which allows acoustic Signals with increased To perceive effectiveness.

The object is achieved by a method and a method suitable for carrying out this method Device solved in which spatially localized acoustic warning and information signals are generated, the warning signals are emitted from the direction towards a user in which there is an object or a dangerous situation before which should be warned or about which. Here, in an inventive manner, in addition to the acoustic warning and information signals, visual signals are emitted, the respective acoustic and visual signal sources being mounted in a position specific to the particular warning or information.

The aim of the invention is the influence of visual Stimulating in the room on the perception of acoustic Warning stimuli with concordant or discordant spatial distribution for the design of warning and information systems in and on technical equipment exploit. Based on previous neurophysiological Investigations (M Eimer and E Schröger, ERP effects of intermodal attention and cross modal links in spatial attention. Psychophysiology, 35: 313-327, 1998) one can assume that visual and acoustic stimuli already in early cortical processing steps, e.g. primary sensory areas, coincide. This is also well documented in the area of speech perception. Before the Background of psycho-acoustic and neuro-physiological data can be expected to provide adequate visual information Increases the effectiveness of the audible warnings.

Like previous investigations with help of a whole-head MEG, reactions to left-wing and differentially analyze right-sided acoustic stimuli. through of the novel inventive method and recourse to the inventive device, it is now possible in an advantageously possible Warning and information system in such a way that the influence of a) one-sided visual stimuli, b) flow fields (to the left or right moving point clouds) and c) lateral attention to the neural Activation of brain waves, in particular the Mismatch Negativity (MMN) and its analogues, exploited becomes. In this environment can For example, profitable embodiments of the invention such be executed that acoustic warning stimuli are supported by optical signals can. It is conceivable both the transmission of the optical signals static as well as moving to realize.

Preliminary studies on efficacy of acoustic signals showed that the individual considered Sounds (Voice, brake squeal, gong) to locate differently were. False localized noise could also cause inappropriate reactions or even dangerous ones Cause fright reactions. Aggressively sounding stimuli, which should lead to a rapid reaction, must thus also be localized correctly. It turns out that means the invention profitable the influence of the localization of a Use the warning sound source on the preconscious processing.

According to previous experiments the preconscious representation to expect the location of a stimulus source and thus by the neural Activation of brain waves, in particular the Mismatch Negativity (MMN) and its analogues, too capture. In a particularly advantageous manner, by means of an acoustic "virtual reality" system (a system, which allows synthetic acoustic sources on any To create positions in space) the spatiality and objectivity a presentation Increase acoustic signals and vary. Accordingly, such an acoustic allows System the apparent detachment the warning or information of the actual (physically) existing, representational technical Device or loudspeaker arrangement. So the operator should warning of a danger threatening from behind (in the motor vehicle sector: in the blind spot of the rearview mirror vehicle during overtaking), In this way a virtual warning signal can be generated virtually be without that on the location explicitly a speaker must be attached. This thus allows an absolutely flexible virtual positioning of the Sound sources, without complicated wiring and installation.

If the device according to the invention is additionally connected to sensors for detecting the environment of the technical device, then their information regarding objects can be warned against or about which information should be evaluated, which in turn allows an exact positioning of the sound sources in the room. Sensors for detecting motion parameters of objects are particularly advantageous, so that it is possible to simulate a moving sound source in a realistic manner. In this case, it is also conceivable to vary the emitted information in connection with the movement of the virtual sound source (for example, imitation of the Doppler effect when simulating an approaching siren of an emergency vehicle or intensifying the volume at the approach of a dangerous object). In the application of the invention in the motor vehicle, for example, in the simulation of a passing vehicle, profitably the differential speed can be represented by variation in the sound of the warning or information signal. A further advantageous use of the invention results from its integration into a system for lane detection. Here, a vehicle driver before the agreement of a lane by a warning signal (for example Nagelbandrattern) be warned by from the direction of the place at which the vehicle threatens to leave the road a warning signal is played. Supportive for the perception and improvement of the reaction speed acts synchronous or in a short time interval previously emitted from the same direction acting light flash.

In a particularly advantageous manner it is conceivable a sound system already in the technical system (for example: stereo) for the use according to the invention as a "virtual reality" system. This is not necessary additional Cabling and installation effort. The adaptation can hereby for example, by modifying the electronics of the existing sound system or by connecting one Additional module be accomplished. Such an embodiment of acoustic system can be particularly advantageous for warning and information presentation in Use motor vehicles. Leads here the reduction of cabling and installation effort too a significant cost reduction and at the allowed the implementation of the invention of moving warning information a realistic awareness of the Vehicle driver (this is especially important because in modern Vehicles the vehicle occupants very well from the noise outside of the motor vehicle, including signal systems for motor vehicles, be sealed off).

Advantageously, it allows subject of the invention, in particular with the inclusion of a "virtual reality" system, the warning and the information system of the technical facility in such a way that the spatial Design of acoustic stimuli for the best possible attention control leads. In this context, a "virtual reality" system is a system for generating an acoustic space with a plurality of loudspeakers, which by their frequency-dependent Phase and amplitude modulated control at least one virtual can produce acoustic source. This can be profitable the acoustic sound source for each individual warning or information stimulus be placed individually.

In dealing with technical facilities is the user (for example the leader a motor vehicle) in general a variety of acoustic Exposed to stimuli. Psychoacoustic studies are well documented that under these conditions masking effects occur, the also affect the localization of sound sources. On the other hand, is the Stimulus too pervasive, it can lead to adversive miscarriage and startle reactions come. Against this background, it is of particular importance that the Influence of background noise to investigate the processing of the warning stimuli in order to allow the intensity and type of warning stimuli according to the current acoustic environment control.

In addition to the acoustic environment interactions occur of driver loads (reaction to visual or auditory tasks) with the preconscious Detection of room and location information instead. In this context the invention is excellent for individual adaptation of the warning and Informationssi signals analog the different driver loads (visual and auditory tasks) and in competition with background noise (Masking). With regard to the case of masking in particular improves the robustness of the warning stimuli and compensates for negative influence parameters become. This is done in an advantageous manner by the adaptation of acoustic warning stimuli to the current acoustic environment possible. For example can be temporary loud noises by raising the volume the acoustic signals or by (virtual) approach of the position compensate the acoustic signal source. It is also conceivable the way of presenting the warning stimuli or information to adapt to the current driver load. Also, it is conceivable in case that a user of a technical device has the view of the Direction, from which threatens a threat, has turned away, the intensity and / or luminance to increase the warning and information signals.

Self-evident is limited the inventive multisensory integration not only on the Integration of acoustic warning stimuli and information with visual Signals, but can be self-explanatory also on the combination with somatosensory and haptic stimuli expand. Furthermore, it is profitable conceivable the acoustic Signals also with other sensory modalities (for example, olfactory or vestibular) to combine.

In a particularly advantageous manner the device according to the invention is suitable and the method according to the invention for use for Warning and information systems in motor vehicles.

Of course, the term refers Warning and information system in the context of this invention not only on self-sufficient warning and information systems. It is obvious to the skilled person that such systems also as a subunit of a much more complex Systems are running can. For example, the speech output of a dialog system or as an information module in an assistance system in motor vehicles, in particular for information the driver over a malfunction or to inform the driver that the assistance system the control of parts of a vehicle passes to him.

Claims (13)

Device for generating spatially localized acoustic warning and information signals, in which acoustic or optical signals are emitted from the direction toward a user in which an object or a dangerous situation is to be warned or informed about, characterized that the device has a means which it makes it possible to emit the acoustic and optical signals in common interaction, wherein the respective acoustic and visual signal sources are mounted in a specific for the respective warning or information position so that the mismatch negativity (MMN) is increased in the recording by the user of the signals , Method for generating spatially localized acoustic Warning and information signals, in which acoustic or optical Warning signals from that direction sent to a user in which an object or a dangerous situation is located in front of which warned or over which should be informed, characterized that the acoustic and optical signals in common interaction be emitted, with the respective acoustic and visual signals from one for the respective warning or information specific position to be sent out so that the mismatch negativity (MMN) at the recording is increased by the user of the signals. Device according to claim 1, characterized in that that the device is a system for generating an acoustic Room ("virtual reality" system) with one Comprises a plurality of loudspeakers, which by their frequency-dependent phase and amplitude modulated Control generate at least one virtual acoustic source can. Device according to one of claims 1 or 2, characterized in that the means for transmitting the visual signals is stationary at a position located. Device according to one of claims 1 or 2, characterized that the means for sending the visual signals is present, which allows the visual signals at least in part variable, to send out moving positions. Device according to one of claims 1 to 4, characterized that extra Means for sending somatosensory and / or haptic Stimuli are present, which with the means for the transmission of interact with acoustic and visual signals. Device according to one of claims 1 to 5, characterized that extra Means for emitting olfactory and / or vestibular signals are present, which with the means for the emission of acoustic and visual signals. Method according to claim 7, characterized in that that the acoustic warning and information signals by means of a A system for generating an acoustic space ("virtual reality" system) with a plurality of loudspeakers, their frequency-dependent Phase- and amplitude-modulated control of a virtual source generated, sent out. Method according to one of claims 7 or 8, characterized that the visual signals are emitted from a stationary position become. Method according to one of claims 7 or 8, characterized that the visual signals, at least in part, are variable, moving positions are sent out. Method according to one of claims 7 to 10, characterized that in addition for the transmission of acoustic and visual signals, also somatosensory and / or Kaptische charms are offered. Method according to one of claims 7 to 10, characterized that in addition for the emission of acoustic and visual signals, also olfactory and / or vestibular Signals are sent. Use of the device and / or the method according to one of the claims 1 to 12, for warning and informing occupants in a motor vehicle.