CN105812680A - Image processing method and electronic device - Google Patents

Abstract

The embodiment of the invention discloses an image processing method. The method comprises following steps of obtaining a real scene image; virtualizing the real scene image, thus forming a first virtualized image, wherein the first virtualized image comprises virtual objects corresponding to the objects in the real scene image; adding an identifier at the preset position of a first virtual object in the first virtualized image, thus forming a second virtualized image, wherein the identifier is used for identifying the first virtual object; and controlling an electronic device to display the second virtualized image. According to the image processing method disclosed by the invention, the functions of the electronic device are enriched by adding the identifier for identifying the first virtual object at the preset position of the first virtual object in the first virtualized image; moreover, a user can directly distinguish the first virtual object from other virtual objects; the user can track the first virtual object conveniently; and the user experience is improved. The invention also discloses a corresponding electronic device.

Description

Image processing method and electronic equipment

Technical field

The invention belongs to technical field of image processing, particularly relate to image processing method and electronic equipment.

Background technology

Along with the development of science and technology, virtual reality technology and augmented reality obtain to be paid close attention to widely.Virtual reality technology can simulate a virtual scene, and the virtual objects in this scene typically exhibits 3 D stereo state, makes user produce experience on the spot in person.Augmented reality can arrange virtual objects in real scene, is namely combined with virtual objects by real scene, forms more lively visual effect.

But possessing now virtual reality function or the electronic equipment of augmented reality function, its function is still comparatively single, how to enrich the function of electronic equipment, be those skilled in the art need consider problem.

Summary of the invention

In view of this, it is an object of the invention to provide image processing method, with the function of abundant electronic equipment further.

For achieving the above object, the present invention provides following technical scheme:

The present invention provides a kind of image processing method, is applied to electronic equipment, and described image processing method includes:

Obtain real scene image；

Described real scene image carrying out virtualization process, forms the first virtualization image, described first virtualization image comprises the virtual objects corresponding with object in described real scene image；

Virtualizing the predeterminated position of the first virtual objects in image described first and add mark, generate the second virtualization image, wherein, described mark is used for identifying described first virtual objects；

Control described electronic equipment and show described second virtualization image.

As an example, in above-mentioned image processing method, in multiple first virtualization images that multiple real scene images carry out virtualization process formation, the described mark of the first virtual objects corresponding to same target keeps consistent.

As an example, in above-mentioned image processing method, the described predeterminated position interpolation mark virtualizing the first virtual objects in image described first, including:

Determine the classification belonging to object that described first virtual objects is corresponding；

Determine object that described first virtual objects the is corresponding sequence number in its generic；

Predeterminated position at described first virtual objects adds identification information, and described identification information includes the classification logotype of described classification and described sequence number.

As an example, in above-mentioned image processing method, the described predeterminated position interpolation mark virtualizing the first virtual objects in image described first, including: the predeterminated position at described first virtual objects adds delineation mark.

As an example, in above-mentioned image processing method, the described predeterminated position at described first virtual objects adds delineation mark, including: envelope is added in the periphery of described first virtual objects.

The present invention also provides for a kind of electronic equipment, including:

Image acquisition units, is used for obtaining real scene image；

Display unit, is used for showing image；

Processor, is used for: the real scene image that described image acquisition units is obtained carries out virtualization process, forms the first virtualization image, and described first virtualization image comprises the virtual objects corresponding with object in described real scene image；Virtualizing the predeterminated position of the first virtual objects in image described first and add mark, generate the second virtualization image, wherein, described mark is used for identifying described first virtual objects；Control described display unit and show described second virtualization image.

As an example, in above-mentioned electronic equipment, multiple real scene images are carried out in multiple first virtualization images of virtualization process formation by described processor, and the described mark that the first virtual objects corresponding to same target adds keeps consistent.

As an example, in above-mentioned electronic equipment, described processor virtualizes the predeterminated position of the first virtual objects in image described first and adds mark, particularly as follows:

The classification belonging to object that described first virtual objects is corresponding determined by described processor, determine object that described first virtual objects the is corresponding sequence number in its generic, predeterminated position at described first virtual objects adds identification information, and described identification information includes the classification logotype of described classification and described sequence number.

As an example, in above-mentioned electronic equipment, described processor virtualizes the predeterminated position of the first virtual objects in image described first and adds mark, particularly as follows: described processor adds delineation mark at the predeterminated position of described first virtual objects.

As an example, in above-mentioned electronic equipment, described processor adds delineation mark at the predeterminated position of described first virtual objects, particularly as follows: described processor adds envelope in the periphery of described first virtual objects.

As can be seen here, the invention have the benefit that

Based on image processing method disclosed by the invention, the real scene image obtained is carried out virtualization process and forms the first virtualization image by electronic equipment, virtualize the predeterminated position of the first virtual objects in image first and add mark formation the second virtualization image, and shown the second virtualization image by display unit.The mark for identifying the first virtual objects is added by virtualizing the predeterminated position of the first virtual objects in image first, enrich the function of electronic equipment, allow users to distinguish the first virtual objects and other virtual objects intuitively simultaneously, it is easy to user tracking the first virtual objects, it is possible to increase Consumer's Experience.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in the following describes is only embodiments of the invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to the accompanying drawing provided.

Fig. 1 is the flow chart of a kind of image processing method disclosed by the invention；

Fig. 2 is the flow chart that the predeterminated position at the first virtual objects disclosed by the invention adds a kind of mode of mark；

Fig. 3 is the structural representation of a kind of electronic equipment disclosed by the invention.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.

Disclosure one information processing method, is applied to electronic equipment, and this electronic equipment is virtual reality device or augmented reality equipment.Based on image processing method disclosed by the invention, it is possible to the function of abundant electronic equipment further.

Referring to the flow chart that Fig. 1, Fig. 1 are a kind of image processing method disclosed by the invention.This image processing method includes:

Step S11: obtain real scene image.

Current scene can be shot by virtual reality device or augmented reality equipment by the image acquisition units of self, produces real scene image.It addition, virtual reality device can also receive the real scene image that other electronic equipments send.

Step S12: the real scene image got carries out virtualization process, forms the first virtualization image.Wherein, the first virtualization image comprises the virtual objects corresponding with object in real scene image.

The virtual reality device real scene image to getting carries out virtualization process, form the first virtualization image, this the first virtualization image wherein comprises the virtual objects corresponding to all or part of object with real scene image, and virtual objects presents 3 D stereo state.Virtual objects in the first virtualization image that virtual reality device is formed, is to the simulation of corresponding object in real scene image.

The augmented reality equipment real scene image to getting carries out virtualization process, is particularly directed to all or part of object in real scene image and adds corresponding virtual objects, and the virtual objects of interpolation constitutes the first virtualization image.

Step S13: virtualize the predeterminated position of the first virtual objects in image first and add mark, form the second virtualization image.Wherein, mark is used for identifying described first virtual objects.

First virtual objects is and the virtual objects corresponding to special object in real scene image, and the first virtual objects can be one, it is also possible to for multiple.Such as: the first virtual objects can virtual objects corresponding to object a certain in real scene image, it is possible to for the virtual objects corresponding to class object a certain in real scene image, it is also possible to the virtual objects corresponding to one or more objects that user chooses.

Predeterminated position at the first virtual objects adds mark, and this mark is used for identifying the first virtual objects, is conducive to user to distinguish the first virtual objects and other virtual objects, it is simple to user tracking the first virtual objects.

Step S14: control electronic equipment and show the second virtualization image.

The display unit of virtual reality device typically exhibits the display effect of closing, say, that user is difficult to pass through the display unit of virtual reality device and sees real environment, often can only see the second virtualization image that the display unit of virtual reality device shows.

The display unit of augmented reality equipment presents nonocclusive display effect, that is user can pass through the display unit real environment of viewing of augmented reality equipment, the image that viewing augmented reality equipment is shown by display unit simultaneously, real scene and the second virtualization image are Overlapping displays for a user, it is possible to produce the visual effect that deficiency and excess combines.

Based on image processing method disclosed by the invention, the real scene image obtained is carried out virtualization process and forms the first virtualization image by electronic equipment, virtualize the predeterminated position of the first virtual objects in image first and add mark formation the second virtualization image, and shown the second virtualization image by display unit.The mark for identifying the first virtual objects is added by virtualizing the predeterminated position of the first virtual objects in image first, enrich the function of electronic equipment, allow users to distinguish the first virtual objects and other virtual objects intuitively simultaneously, it is easy to user tracking the first virtual objects, it is possible to increase Consumer's Experience.

In enforcement, in the first virtualization image, the predeterminated position interpolation mark of the first virtual objects can be: virtualizes the predeterminated position of the first virtual objects in image first and adds the icon preset.

Such as: add a circle or triangle in the middle part of the first virtual objects, upside or downside, the outline color of this circle or triangle is different from the color of the first virtual objects, or the Fill Color of this circle or triangle is different from the color of the first virtual objects.

For a user, the icon by adding at the predeterminated position of the first virtual objects, it is possible to distinguish the first virtual objects and other virtual objects intuitively.When the position of the object in real scene image changes, based in the first virtualization image that real scene image is formed, also there is respective change in the position of the virtual objects corresponding with this object, by the icon of the predetermined position of this virtual objects, it is possible to follows the trail of virtual objects intuitively.

In a particular application, in the first virtualization image, the quantity of the first virtual objects is multiple, in order to further discriminate between multiple first virtual objects, it is possible to the image processing method shown in Fig. 1 is improved.Concrete: in multiple first virtualization images that multiple real scene images carry out virtualization process formation, the mark of the first virtual objects corresponding to same target keeps consistent.

Virtual reality device or augmented reality equipment usually obtain real scene image according to prefixed time interval, and the real scene image got is carried out virtualization process formation the first virtualization image, the first virtualization image is shown, thus presenting coherent image to user by the display unit of equipment.

In the technical scheme that the present invention is disclosed above, in multiple first virtualization images that multiple real scene images carry out virtualization process formation, the mark that the first virtual objects corresponding to same target adds keeps consistent.It is to say, in multiple second virtualization images of Same Scene formation, the mark of the virtual objects that same target is corresponding is to maintain constant.

In enforcement, it is also possible to the mark arranging virtual objects corresponding to different object further is different.In this case, user's mark according to each first virtual objects, it is possible not only to distinguish each first virtual objects, and the mark according to each first virtual objects follows the trail of the first virtual objects intuitively.

Here illustrate with one:

Within a period of time, comprise 3 doggies in multiple real scene images of Same Scene shooting generation, be designated as doggie 1, doggie 2 and doggie 3 respectively.

Multiple real scene images are carried out in multiple first virtualization images of virtualization process formation, comprise the virtual objects of 3 doggies, the virtual objects corresponding with doggie 1 is designated as virtual objects 1, the virtual objects corresponding with doggie 2 is designated as virtual objects 2, and the virtual objects corresponding with doggie 3 is designated as virtual objects 3.

Virtualizing in image multiple first, the predeterminated position at virtual objects 1 adds mark 1, and the predeterminated position at virtual objects 2 adds mark 2, and the predeterminated position at virtual objects 3 adds mark 3.

For a user, user just can distinguish 3 virtual objects corresponding to doggie by mark 1, mark 2 intuitively with mark 3.Further, along with the movement of 3 doggies, also there is respective change in virtual objects corresponding to 3 doggies position in the image that display unit exports, user just can follow the trail of doggie intuitively by corresponding mark.

As a kind of embodiment, virtualize the predeterminated position of the first virtual objects in image first and add mark, adopt mode as shown in Figure 2, including:

Step S21: determine the classification belonging to the object that the first virtual objects is corresponding.

The first virtual objects in first virtualization image is probably the virtual objects corresponding with same category of object, it is also possible to the virtual objects corresponding with different classes of object.

Step S22: determine object that the first virtual objects the is corresponding sequence number in its generic.

Being ranked up belonging to same category of object in real scene image according to preset rules, each object sequence number in its generic remains unchanged afterwards.Such as: for belonging to same category of object, it is possible to be ranked up according to the position of object.As according to object position in real scene image, being ranked up belonging to same category of object according to order from left to right.

Step S23: the predeterminated position at the first virtual objects adds identification information, and this identification information includes: the classification logotype of the object generic that the first virtual objects is corresponding and object corresponding to the first virtual objects sequence number in its generic.

Based on the embodiment shown in Fig. 2 of the present invention, the mark of the first virtual objects is configured to: the classification logotype of the object generic that the first virtual objects is corresponding and object corresponding to the first virtual objects sequence number in its generic.

In the image processing method shown in Fig. 1 of the present invention, the predeterminated position at the first virtual objects adds mark, it is possible to for: the predeterminated position at the first virtual objects adds delineation mark.

As a kind of embodiment, the predeterminated position at the first virtual objects adds delineation and is designated: add envelope in the periphery of the first virtual objects.

Based on this embodiment, in the first virtualization image that real scene image is carried out virtualization process formation, add envelope in the periphery of the first virtual objects.In the first virtualization image not formed in the same time, the position of this first virtual objects can change, and user is by the peripheral envelope added at the first virtual objects, it is possible to follow the trail of the change in location of the first virtual objects intuitively.

Below in conjunction with an example, image processing method disclosed by the invention is illustrated.

In an actual scene, meadow has crowd and many doggies.Electronic equipment controls its image acquisition units interval to schedule and shoots, and produces real scene image.

The real scene image that image acquisition units is produced carries out virtualization process, generates the first virtualization image.This first virtualization image comprises the virtual objects corresponding with crowd, the virtual objects corresponding with meadow, and the virtual objects corresponding with many doggies.

If user selects 3 (such as doggie 1, doggie 2 and doggies 3) in many doggies are carried out labelling, in the first virtualization image that electronic equipment generates, doggie 1 is corresponding to virtual objects 1, and doggie 2 is corresponding to virtual objects 2, and doggie 3 is corresponding to virtual objects 3.So, electronic equipment adds mark at the predeterminated position of virtual objects 1, virtual objects 2 and virtual objects 3.

Such as, electronic equipment adds mark " dog 1 " in the upside of virtual objects 1, adds mark " dog 2 " in the upside of virtual objects 2, adds mark " dog 3 " in the upside of virtual objects 3.Wherein " dog " be virtual objects 1, the classification logotype of the object generic of virtual objects 2 and virtual objects 3 correspondence, and be ranked up according to 3 doggies position relationship at a time, its sequence number respectively " 1 ", " 2 " and " 3 ".

Along with running of doggie, the mark added in the upside of virtual objects 1, virtual objects 2 and virtual objects 3 remains unchanged, and user can distinguish intuitively and follow the trail of virtual objects.

When the hands of user or Fingers are to one in above-mentioned 3 doggies, electronic equipment adds envelope in the periphery of destination virtual object, this destination virtual object is the virtual objects corresponding to doggie that user chooses, it is simple to user accurately follows the trail of the virtual objects that the doggie chosen is corresponding.

The present invention is disclosed above image processing method, accordingly, disclosure can implement the electronic equipment of this image processing method.Describe above with respect to the description of image processing method below with respect to electronic equipment, it is possible to cross-reference.

Referring to the structural representation that Fig. 3, Fig. 3 are a kind of electronic equipment disclosed by the invention.This electronic equipment includes image acquisition units 100, display unit 200 and processor 300.

Wherein:

Image acquisition units 100 is used for obtaining real scene image.

Display unit 200 is used for showing image.

Processor 300 is used for: the real scene image that image acquisition units 100 is obtained carries out virtualization process, forms the first virtualization image, and the first virtualization image comprises the virtual objects corresponding with object in real scene image；Virtualizing the predeterminated position of the first virtual objects in image first and add mark, form the second virtualization image, this mark is used for identifying the first virtual objects；Control display unit 200 and show the second virtualization image.

Electronic equipment disclosed by the invention, the real scene image that image acquisition units is obtained carries out virtualization process and forms the first virtualization image, virtualize the predeterminated position of the first virtual objects in image first and add mark formation the second virtualization image, and shown the second virtualization image by display unit.The mark for identifying the first virtual objects is added by virtualizing the predeterminated position of the first virtual objects in image first, enrich the function of electronic equipment, allow users to distinguish the first virtual objects and other virtual objects intuitively simultaneously, it is easy to user tracking the first virtual objects, it is possible to increase Consumer's Experience.

In enforcement, in the first virtualization image, the predeterminated position interpolation mark of the first virtual objects can be: virtualizes the predeterminated position of the first virtual objects in image first and adds the icon preset.

Such as: add a circle or triangle in the middle part of the first virtual objects, upside or downside, the outline color of this circle or triangle is different from the color of the first virtual objects, or the Fill Color of this circle or triangle is different from the color of the first virtual objects.

In a particular application, in the first virtualization image, the quantity of the first virtual objects is multiple, in order to further discriminate between multiple first virtual objects, processor 300 can be improved, concrete: multiple real scene images are carried out in multiple first virtualization images of virtualization process formation by processor 300, and the mark that the first virtual objects corresponding to same target adds keeps consistent.

It is to say, processor 300 for Same Scene formed multiple second virtualization images in, the mark of the virtual objects that same target is corresponding is to maintain constant.

In enforcement, it is also possible to the mark arranging virtual objects corresponding to different object further is different.In this case, user's mark according to each first virtual objects, it is possible not only to distinguish each first virtual objects, and the mark according to each first virtual objects follows the trail of the first virtual objects intuitively.

As a kind of embodiment, processor 300 virtualizes the predeterminated position of the first virtual objects in image first and adds mark, particularly as follows:

The classification belonging to the object that the first virtual objects is corresponding determined by processor 300, it is determined that object corresponding to the first virtual objects sequence number in its generic, and the predeterminated position at the first virtual objects adds identification information.This identification information includes: the classification logotype of the object generic that the first virtual objects is corresponding and object corresponding to the first virtual objects sequence number in its generic.

As another embodiment, processor 300 virtualizes the predeterminated position of the first virtual objects in image first and adds mark, particularly as follows: processor 300 adds delineation mark at the predeterminated position of the first virtual objects.

In enforcement, processor 300 adds delineation mark at the predeterminated position of the first virtual objects, it is possible to for: processor 300 is at the periphery of the first virtual objects interpolation envelope.

Finally, it can further be stated that, in this article, the relational terms of such as first and second or the like is used merely to separate an entity or operation with another entity or operating space, and not necessarily requires or imply the relation that there is any this reality between these entities or operation or sequentially.And, term " includes ", " comprising " or its any other variant are intended to comprising of nonexcludability, so that include the process of a series of key element, method, article or equipment not only include those key elements, but also include other key elements being not expressly set out, or also include the key element intrinsic for this process, method, article or equipment.When there is no more restriction, statement " including ... " key element limited, it is not excluded that there is also other identical element in including the process of described key element, method, article or equipment.

In this specification, each embodiment adopts the mode gone forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar portion mutually referring to.For device disclosed in embodiment, owing to it corresponds to the method disclosed in Example, so what describe is fairly simple, relevant part illustrates referring to method part.

Described above to the disclosed embodiments, makes professional and technical personnel in the field be capable of or uses the present invention.The multiple amendment of these embodiments be will be apparent from for those skilled in the art, and generic principles defined herein can without departing from the spirit or scope of the present invention, realize in other embodiments.Therefore, the present invention is not intended to be limited to the embodiments shown herein, and is to fit to the widest scope consistent with principles disclosed herein and features of novelty.

Claims (10)

1. an image processing method, is applied to electronic equipment, it is characterised in that described image processing method includes:

Obtain real scene image；

Described real scene image carrying out virtualization process, forms the first virtualization image, described first virtualization image comprises the virtual objects corresponding with object in described real scene image；

Virtualizing the predeterminated position of the first virtual objects in image described first and add mark, generate the second virtualization image, wherein, described mark is used for identifying described first virtual objects；

Control described electronic equipment and show described second virtualization image.

2. image processing method according to claim 1, it is characterised in that in multiple first virtualization images that multiple real scene images carry out virtualization process formation, the described mark of the first virtual objects corresponding to same target keeps consistent.

3. image processing method according to claim 2, it is characterised in that the described predeterminated position interpolation mark virtualizing the first virtual objects in image described first, including:

Determine the classification belonging to object that described first virtual objects is corresponding；

Determine object that described first virtual objects the is corresponding sequence number in its generic；

Predeterminated position at described first virtual objects adds identification information, and described identification information includes the classification logotype of described classification and described sequence number.

4. image processing method according to claim 1, it is characterised in that the described predeterminated position interpolation mark virtualizing the first virtual objects in image described first, including:

Predeterminated position at described first virtual objects adds delineation mark.

5. image processing method according to claim 4, it is characterised in that the described predeterminated position at described first virtual objects adds delineation mark, including: envelope is added in the periphery of described first virtual objects.

6. an electronic equipment, including:

Image acquisition units, is used for obtaining real scene image；

Display unit, is used for showing image；

Processor, is used for: the real scene image that described image acquisition units is obtained carries out virtualization process, forms the first virtualization image, and described first virtualization image comprises the virtual objects corresponding with object in described real scene image；Virtualizing the predeterminated position of the first virtual objects in image described first and add mark, generate the second virtualization image, wherein, described mark is used for identifying described first virtual objects；Control described display unit and show described second virtualization image.

7. electronic equipment according to claim 6, it is characterized in that, multiple real scene images are carried out in multiple first virtualization images of virtualization process formation by described processor, and the described mark that the first virtual objects corresponding to same target adds keeps consistent.

8. electronic equipment according to claim 7, it is characterised in that described processor virtualizes the predeterminated position of the first virtual objects in image described first and adds mark, particularly as follows:

The classification belonging to object that described first virtual objects is corresponding determined by described processor, determine object that described first virtual objects the is corresponding sequence number in its generic, predeterminated position at described first virtual objects adds identification information, and described identification information includes the classification logotype of described classification and described sequence number.

9. electronic equipment according to claim 6, it is characterised in that described processor virtualizes the predeterminated position of the first virtual objects in image described first and adds mark, particularly as follows:

Described processor adds delineation mark at the predeterminated position of described first virtual objects.

10. image processing method according to claim 9, it is characterised in that described processor adds delineation mark at the predeterminated position of described first virtual objects, particularly as follows:

Described processor adds envelope in the periphery of described first virtual objects.