DE102019130695A1 - Procedure for avoiding glare from data glasses - Google Patents

Abstract

The invention relates to a method for operating data glasses, with the following steps: operating the data glasses to display information objects on a display surface of the data glasses; determining a power specification which indicates a power consumption of a display device of the data glasses; - Operation of the data glasses depending on the determined performance data and the provided ambient brightness.

Description

Technical area

The invention relates to data glasses with transparent display surfaces on which a display overlaying the real environment can be shown:

Technical background

Data glasses, also called head-mounted displays or eye pieces, are known which, with the aid of a display device, can display a display on one or more display surfaces in the immediate field of view of the wearer of the data glasses. The display surfaces correspond to reflection surfaces that direct images into the eye of the wearer of the data glasses. The viewing openings of the data glasses are transparent, so that the real environment can be perceived in the normal way through the data glasses. The display surfaces lie in the viewing openings and can be designed in such a way that information to be displayed, such as text, symbols, graphics, video displays and the like, can be displayed superimposed on the perception of the surroundings.

The information is usually displayed to the wearer of the smart glasses or in a contact-analog manner, ie represented in such a way that the information is superimposed on a specific object in the real environment or is oriented towards it or that the information to be displayed is in a specific orientation of the smart glasses or their Is displayed.

Disturbances in the presentation of information by the display device on the display surfaces can in particular be caused by glare, which restrict or completely obstruct the view of the wearer of the data glasses. This glare caused by the display device itself in the event of a malfunction can occur due to system-inherent errors. This system-immanent glare is consequently not caused by events outside the vehicle environment and / or inside the vehicle or the immediate environment of the wearer of data glasses, but rather by incorrect adaptation of the brightness of the data display on the display surfaces of the data glasses. In particular, when a driver uses the data glasses in a motor vehicle, this can lead to a considerable risk to the driver and other road users.

In order to display the information on the display surfaces of the data glasses free of glare caused by a malfunction of the display device, it is therefore desirable to use suitable solutions to remove these system-immanent glare, which is generated by inappropriate lighting conditions in the display of the information on the display surfaces, to prevent.

From the DE 10 2016 006 855 A1 a method is known which describes a method for operating a display system and a display system in the augmented reality of a data glasses user. A virtual object is provided therein by means of a storage device and the lighting conditions in the surroundings of a person are recorded by means of a detection device which is arranged on an augmented reality display device worn on the head of the person. The virtual object is adapted in accordance with the recorded light conditions by means of a data processing device after specifying a display position within the surroundings of the person and depending on the activation of the augmented reality display device by means of the control device, so that the virtual object adapted to the recorded light conditions at the specified Display position is shown in a realistic representation. Furthermore, it lacks a proposal to avoid dazzling a wearer of data glasses while driving on or in a vehicle.

From the DE 10 2012 206 030 A1 a method, a device and a computer program for operating a display device for an interior of a vehicle are known. The method provides for the display device to operate the display brightness of the display device in a display mode specified for this purpose as a function of the viewing direction of the user, so that the display is automatically adapted to the ambient brightness using brightness sensors. The glare of the user, in particular the driver of the vehicle, caused by the display device arranged inside the vehicle is reduced in this proposed solution by means of dimming, up to and including the display device being switched off.

The above smart glasses allow the display brightness to be adjusted depending on the ambient brightness in order to improve the comfort of a driver and avoid glare.

Furthermore, the user of the smart glasses can be dazzled due to implementation and / or functional errors in the software and / or hardware.

In particular, if too many pixels or an image area that is too large on the display surfaces is activated due to a software or hardware error, there is a risk that the wearer of the display device will suffer from the brightness of the display on the display surfaces Data glasses are dazzled and perception is impaired, especially in a dark environment. When used in a motor vehicle, this can lead to an impairment of the driver's view of the traffic situation.

The object of the present invention is to improve the security of data glasses and, in particular, to reduce the risk of dazzling the user of data glasses due to functional errors in the software and / or hardware.

Disclosure of the invention

This object is achieved by the method for operating data glasses for displaying augmented reality content according to claim 1 and by the data glasses according to the independent claim.

Further refinements are given in the dependent claims.

• - Betreiben der Datenbrille, um Informationsobjekte auf einer Anzeigefläche der Datenbrille anzuzeigen;
• - Ermitteln einer Leistungsangabe, die eine Leistungsaufnahme einer Anzeigeeinrichtung der Datenbrille angibt;
• - Bereitstellen einer Umgebungshelligkeit in der Datenbrille; und
• - Betreiben der Datenbrille abhängig von der ermittelten Leistungsangabe und der bereitgestellten Umgebungshelligkeit.

According to a first aspect, a method for operating data glasses is provided with the following steps:

• - Operating the smart glasses to display information objects on a display surface of the smart glasses;
• - Determination of a power specification which specifies a power consumption of a display device of the data glasses;
• - Providing an ambient brightness in the data glasses; and
• - Operation of the data glasses depending on the determined performance data and the provided ambient brightness.

• - eine Anzeigeeinrichtung, die ausgebildet ist, um Informationsobjekte auf einer Anzeigefläche der Datenbrille anzuzeigen;
• - eine Leistungsmesseinrichtung, die ausgebildet ist, um eine Leistungsangabe zu ermitteln, die eine Leistungsaufnahme der Anzeigeeinrichtung der Datenbrille angibt;
• - eine Einrichtung, insbesondere eine Umgebungshelligkeits-Messeinrichtung, zum Bereitstellen einer Umgebungshelligkeit der Datenbrille, und
• - eine Sicherheitseinheit, die ausgebildet ist, um die Datenbrille abhängig von der ermittelten Leistungsangabe und der bereitgestellten Umgebungshelligkeit zu betreiben, insbesondere abzuschalten.

According to a further aspect, data glasses are provided, comprising:

• a display device which is designed to display information objects on a display surface of the smart glasses;
• a power measuring device which is designed to determine a power specification which indicates a power consumption of the display device of the data glasses;
• a device, in particular an ambient brightness measuring device, for providing an ambient brightness of the data glasses, and
• a security unit which is designed to operate the data glasses as a function of the determined performance data and the provided ambient brightness, in particular to switch them off.

In particular, a control unit can be provided in order to operate the display device for displaying information objects; wherein the safety unit and the control unit are implemented in separate hardware modules.

One idea of the above method is to intercept a malfunction in the data glasses, in which there is a risk that a user will be dazzled. If a malfunction is detected, the smart glasses are operated with suitable measures to prevent the user from being dazzled. The ambient brightness is taken into account here, as this has a considerable influence on the ability of a self-illuminating display in data glasses to dazzle the user. With a dark background (dark environment), the user of the data glasses is dazzled even if the display is less bright than in a brighter environment. In order to deal with malfunctions even in the event of a functional failure or defect of the control unit or of the units controlling the display of the data glasses, the power consumption of the display device is monitored. Since the power consumption correlates directly with the display brightness, a possible glare effect of the data glasses can be recognized.

The ambient brightness in the data glasses can be detected by an ambient brightness measuring device provided in the data glasses, in particular by a brightness sensor present therein, or by information that comes from a driver assistance system and is transmitted in a known manner to the display device of the data glasses via a data transmission channel.

Another aspect of the above data glasses is to provide a separate security unit. The security unit is used to check the power consumption of the display device in relation to the ambient brightness, independently of a control unit of the data glasses, in order to reliably prevent the wearer of the data glasses from being dazzled by a display that is too bright and / or too intense on the at least one display surface .

Provision can be made for the ambient brightness to be provided in the data glasses by recording with the aid of an ambient brightness device or by receiving a corresponding indication of the ambient brightness from external.

According to one embodiment, the determination of the power specification can include recording the power consumption of the display device of the data glasses or a total power consumption in the data glasses.

Furthermore, at least the display device can be deactivated or switched off depending on a relationship between the power specification and the ambient brightness.

In particular, the power specification and / or the ambient brightness can be scaled or normalized in such a way that the user is dazzled at different ambient brightnesses with the same threshold value for the ratio.

It can be provided that at least the display device is deactivated or switched off when the ratio between the power specification and the ambient brightness exceeds a threshold value, the threshold value in particular being determined depending on the type of information objects displayed or depending on the number of activated pixels of the display area becomes.

It can be provided that the security unit, the power measuring device and the ambient brightness device are integrated on a chip arranged in or on the data glasses. These are preferably provided separately from a control unit of the data glasses that controls the display.

Figure list

• 1 eine schematische Darstellung eines Anzeigesystems mit einer Datenbrille zum Einsatz in oder auf einem Fahrzeug; und
• 2 ein Flussdiagramm zur Veranschaulichung eines Verfahrens zum Betreiben des Anzeigesystems.

Embodiments are explained in more detail below with reference to the accompanying drawings. Show it:

• 1 a schematic representation of a display system with data glasses for use in or on a vehicle; and
• 2 a flow chart to illustrate a method for operating the display system.

Description of embodiments

1 shows a schematic representation of data glasses 1 for displaying information objects in an augmented reality environment.

The data glasses 1 has two transparent lenses 2 on that in a frame 3 are edged. The data glasses 1 is with glasses temples 4th provided so that the smart glasses 1 can be placed on a user's head in close proximity to the user's eyes and worn like a typical visual aid. The data glasses are there 1 with the frame 3 on the nose of the user, with the temples 4th rest on the side of the head of the user.

At least one of the viewing panes 2 can with at least one transparent display surface 5 be provided in the by a suitable display device 6th one or more information objects can be displayed as a display image. The information objects can be of the display device 6th can be provided as display information. The display device 6th can comprise a projection device or the like, which is used to provide an image on the at least one display surface 5 is trained.

There is also a control unit 7th , for example in or on the temples 4th , provided to the display information to the display device 6th for displaying the corresponding information objects on the at least one display area 5 to submit. The control unit 7th can comprise at least one function module, which is designed in a manner known per se as a microprocessor (chip) or has a comparable computing unit and can be connected to an external device via a communication link. Such a communication link is designed in a manner known per se as a data transmission channel, for example in the form of a wireless communication link or a wired communication link. The communication link is able to transfer any type of data and information between a driver assistance system and the control unit 7th the data glasses 1 to submit.

Due to the transparent design of the at least one display area 5 can the electronically generated image through the at least one display area 5 superimpose perceptible real environment. Using the display device 6th one or more information objects, such as, for example, a text, a symbol, video information, a graphic or the like, on at least one display area 5 being represented.

The control unit 7th can generate display information based on information objects to be displayed and then transfer this to the display device 6th for mapping on the at least one display area 5 transfer. Furthermore, the control unit 7th Image data or object data are received via the communication link in a manner known per se from a driver assistance system of a motor vehicle or the like, specifying information on the at least one display area 5 should be displayed.

The control unit 7th coordinates the objects to be displayed, arranges them in the field of vision of the wearer of the data glasses 1 and generates a corresponding display information. The display device 6th forms the information objects on the at least one display area 5 according to the display information, with the control of the pixels on the at least one display area 5 this is the perceived environment on the display area 5 heavily overlay or the display area 5 even let it become intransparent.

The control unit 7th organizes the arrangement of information objects on the at least one display area 5 corresponding to an arrangement function that is designed so that the view of the wearer of the smart glasses 1 is not significantly impaired by the information objects displayed. Furthermore, the control unit 7th be designed, the brightness of the display of the display device 6th depending on an ambient brightness and / or depending on the area proportion that the information objects to be displayed occupy.

If a software or hardware error occurs in the control unit 7th or the display device 6th on, the display of the smart glasses 1 appear very bright depending on the type of defect. For example, in the event of a fault, all or a large part of the image points can be controlled in full, so that the brightness or intensity of the display exceeds the ambient brightness. In this case, it is difficult to perceive the surroundings through the luminous display image, especially when the surroundings are poorly lit. As a result, the user can be blinded so that the driver can only perceive the real environment to a limited extent or not at all.

It is therefore one of the control unit 7th separate security unit 8th provided that a power consumption of the display device 6th and the ambient brightness is detected and then a decision is made as to whether the displayed display is likely to dazzle the user of the smart glasses 1 can lead. The safety unit is used to measure performance 8th with a power meter 10 connected. The data glasses 1 is also with a brightness sensor as an ambient brightness measuring device 9 connected in order to obtain an indication of an ambient brightness.

To the error handling of the data glasses 1 the functionality of the control unit 7th The safety units must be completely separated 8th , the ambient brightness measuring device 9 and the power meter 10 designed as separate hardware modules.

• In Schritt S1 wird die darzustellende Anzeigeinformation, die von der Steuereinheit 7 an die Anzeigeeinrichtung 6 übermittelt wird, auf der Anzeigefläche 5 angezeigt bzw. die Darstellung der betreffenden Informationsobjekte aktualisiert.
• In Schritt S2 wird die Leistungsaufnahme der Anzeigeeinrichtung 6 oder die Gesamtleistungsaufnahme der Datenbrille 1 mit der Leistungsmesseinrichtung 10 erfasst und eine entsprechende Leistungsangabe zugeordnet. Die Leistungsmesseinrichtung 10 kann ein separates Bauteil oder Teil der Sicherheitseinheit 8 sein.
• In Schritt S3 wird die Helligkeit der Umgebung des Trägers der Datenbrille 1 mit dem Helligkeitssensor (Umgebungshelligkeits-Messeinrichtung 9) erfasst und einem Wert zugeordnet. Alternativ kann eine Angabe zu einer Umgebungshelligkeit auch über die Kommunikationsverbindung von extern empfangen werden.
• In Schritt S4 wird in der Steuereinheit 7 ein Verhältnis anhand dem in S2 zugeordneten Wert der Leistungsangabe (Leistungsaufnahme) der Datenbrille 1 und dem in S3 zugeordneten Wert der Umgebungshelligkeit gebildet. Vorzugsweise sind die Leistungsangabe und die Umgebungshelligkeit so skaliert bzw. normiert, dass eine Blendung des Nutzers bei verschiedenen Umgebungshelligkeiten bei einem gleichen Schwellenwert für das Verhältnis einsetzt.
• In Schritt S5 wird in der Sicherheitseinheit 8 ein Schwellenwert festgelegt. Der Schwellenwert für das Verhältnis kann fest vorgegeben sein oder abhängig von der Art der anzuzeigenden Informationsobjekte und/oder abhängig von der Anzahl der angesteuerten Bildpunkte auf der Anzeigefläche 5 und/oder des Anteils der Fläche der anzuzeigenden Informationsobjekte auf der zumindest einen Anzeigefläche 5 gebildet sein.
• In Schritt S6 wird überprüft, ob das Verhältnis zwischen dem Wert der Leistungsangabe (Leistungsaufnahme) der Datenbrille 1 und dem Wert der Umgebungshelligkeit einen vorgegebenen Schwellenwert übersteigt. Ist dies der Fall (Alternative: Ja), so wird das Verfahren mit Schritt S7 fortgesetzt. Andernfalls (Alternative: Nein) wird zu Schritt S1 zurückgesprungen.
• In Schritt S7 wird die Anzeigeeinrichtung 6 der Datenbrille 1 von der Sicherheitseinheit 8 abgeschaltet oder die Leistungszufuhr auf einen vorgegebenen Begrenzungswert vermindert, um die Helligkeit der Anzeige der Anzeigeeinrichtung 6 zu reduzieren und die Blendung zu vermeiden. Insbesondere kann die Sicherheitseinheit 8 die Stromzufuhr zur Anzeigeeinrichtung 6 unterbrechen.

In particular, when glare is detected, the performance monitoring can point to a fault in the control unit 7th be closed as the control unit 7th usually has a regular function that dazzles the wearer of the smart glasses 1 avoids. That through the security unit 8th The method carried out is described below with reference to the flowchart of FIG 2 explained in more detail:

• In step S1, the display information to be displayed, which is provided by the control unit 7th to the display device 6th is transmitted on the display area 5 displayed or the representation of the relevant information objects updated.
• In step S2, the power consumption of the display device 6th or the total power consumption of the data glasses 1 with the power meter 10 recorded and assigned a corresponding performance data. The power meter 10 can be a separate component or part of the safety unit 8th be.
• In step S3, the brightness of the surroundings of the wearer of the smart glasses is set 1 with the brightness sensor (ambient brightness measuring device 9 ) recorded and assigned to a value. Alternatively, information on ambient brightness can also be received externally via the communication link.
• In step S4, the control unit 7th a ratio based on the value of the power specification (power consumption) of the data glasses assigned in S2 1 and the ambient brightness value assigned in S3. The power specification and the ambient brightness are preferably scaled or normalized in such a way that the user is dazzled with different ambient brightnesses at the same threshold value for the ratio.
• In step S5, the security unit 8th set a threshold. The threshold value for the ratio can be predefined in a fixed manner or as a function of the type of information objects to be displayed and / or as a function of the number of activated pixels on the display area 5 and / or the proportion of the area of the information objects to be displayed on the at least one display area 5 be educated.
• In step S6 it is checked whether the ratio between the value of the power specification (power consumption) of the smart glasses 1 and the value of the ambient brightness exceeds a predetermined threshold value. If this is the case (alternative: yes), the method continues with step S7. Otherwise (alternative: no) the system jumps back to step S1.
• In step S7, the display device 6th the data glasses 1 from the security unit 8th switched off or the power supply on one predetermined limiting value is reduced by the brightness of the display of the display device 6th to reduce and avoid the glare. In particular, the security unit 8th the power supply to the display device 6th interrupt.

List of reference symbols

1

Data glasses

2

Viewing panes

3

frame

4th

Glasses temples

5

Display area

6th

Display device

7th

Control unit

8th

Security unit

9

Ambient brightness measuring device

10

Power meter

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102016006855 A1 [0006]
• DE 102012206030 A1 [0007]

Claims (9)

Procedure for operating data glasses (1), with the following steps: - Operating (S1) the smart glasses in order to display information objects on a display surface (2) of the smart glasses; - Determination (S2) of a power specification which specifies a power consumption of a display device (6) of the data glasses (1); - Providing (S3) an ambient brightness in the data glasses (1); - Operation of the data glasses (1) depending on the determined performance data and the provided ambient brightness. Procedure according to Claim 1 wherein the provision of the ambient brightness in the data glasses (1) comprises recording with the aid of an ambient brightness measuring device (9) or by receiving a corresponding indication of the ambient brightness from external. Procedure according to Claim 1 or 2 wherein the determination of the power specification comprises recording the power consumption of the display device (6) of the data glasses (1) or a total power consumption in the data glasses (1). Method according to one of the Claims 1 to 3 , wherein at least the display device (6) is deactivated or switched off depending on a ratio between the power specification and the ambient brightness. Procedure according to Claim 4 , wherein the power specification and the ambient brightness are scaled or normalized in such a way that the user is dazzled at different ambient brightnesses at the same threshold value for the ratio. Procedure according to Claim 4 or 5 At least the display device (6) is deactivated or switched off when the ratio between the power specification and the ambient brightness exceeds a predetermined threshold value, the threshold value in particular being determined depending on the type of information objects displayed or depending on the number of activated pixels of the display area becomes. Data glasses (1) comprising: - A display device (6) which is designed to display information objects on a display surface (2) of the data glasses (1); - A power measuring device (4) which is designed to determine a power specification which indicates a power consumption of the display device (6) of the data glasses (1); - a device, in particular an ambient brightness measuring device (5), for providing an ambient brightness of the data glasses (1), - A safety unit (6) which is designed to operate, in particular to switch off, the data glasses (1) as a function of the determined performance data and the ambient brightness provided. Data glasses (1) Claim 7 , wherein a control unit (7) is provided in order to operate the display device (6) for displaying information objects; wherein the safety unit (8) and the control unit (7) are implemented in separate hardware modules. Data glasses according to Claim 7 or 8th wherein the security unit (8), the power measuring device (10) and the ambient brightness measuring device (9) are integrated on a chip (7) arranged in or on the data glasses (1).

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