CN101777335B - Multi-dynamic image oriented positioning identification display method - Google Patents

Multi-dynamic image oriented positioning identification display method Download PDF

Info

Publication number
CN101777335B
CN101777335B CN2010101031634A CN201010103163A CN101777335B CN 101777335 B CN101777335 B CN 101777335B CN 2010101031634 A CN2010101031634 A CN 2010101031634A CN 201010103163 A CN201010103163 A CN 201010103163A CN 101777335 B CN101777335 B CN 101777335B
Authority
CN
China
Prior art keywords
dynamic image
viewing area
locating information
display
dynamic
Prior art date
Application number
CN2010101031634A
Other languages
Chinese (zh)
Other versions
CN101777335A (en
Inventor
俞蔚明
王清焕
Original Assignee
俞蔚明
王清焕
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 俞蔚明, 王清焕 filed Critical 俞蔚明
Priority to CN2010101031634A priority Critical patent/CN101777335B/en
Publication of CN101777335A publication Critical patent/CN101777335A/en
Application granted granted Critical
Publication of CN101777335B publication Critical patent/CN101777335B/en

Links

Abstract

The invention discloses a multi-dynamic image oriented positioning identification display method, which comprises the following steps: firstly, making a display interface, and drawing a display region for dynamic images; for a certain dynamic image, mapping into a specific display region, adding regular nodes in regular chains, and storing the modified regular chains; when the dynamic images arrive, searching the regular chains according to the ID of the dynamic images and finding out the corresponding regular nodes; and reading and analyzing the regular nodes, reading the ID of the corresponding display region from the regular nodes, obtaining the position of the display region corresponding to the ID of the display region, and displaying the dynamic image in the display region. The invention puts various dynamic images in a display interface which can self set a play region, can describe the name of a play picture or the association between play pictures; and the dynamic images displayed in the display interface are easy to position and identify and have automatic interpretation ability of positioning information.

Description

A kind of positioning identification display method towards multi-dynamic image

Technical field

The present invention relates to a kind of multi-dynamic image positioning display method, relate in particular to a kind of situation that shows a plurality of dynamic images simultaneously that is directed against, the framing display packing of location and identification belongs to technical field of image processing between realization dynamic image and the actual scene.

Background technology

At numerous areas such as safety monitoring, traffic administration, Industry Control,, need in a physical display (like display screen or video wall), show a plurality of dynamic images simultaneously in order to let the user grasp monitored object information as much as possible at one time.The corresponding techniques solution is called as the multi-screen display technique.

At international application no is in the patented claim of PCT/KR2006/003074, and a kind of equipment and the method that is used for the dynamic-configuration multi-screen that is used to provide multi-screen is provided.This equipment comprises: digital signal processing module; Service processing module produces a plurality of logical screens and the cover screen of the service be used to show recovery; Output module, a plurality of logical screens that service processing module is produced are mapped to the diverse location on the display screen, and allow cover screen to cover display screen.In addition, be in the patented claim of PCT/KR2006/003070 at international application no, a kind of be used to the provide equipment of multi-screen and the method for configuring multiple screens dynamically are provided.This equipment comprises: digital signal processing module receives predetermined information and recovers service based on predetermined information; Service processing module shows a plurality of logical screens relevant with service; And output module, the diverse location on display screen is arranged the logical screen that is provided by service processing module.Whether visible logical screen have indication logical screen attribute information on display screen.But, above-mentioned based on not enough below the hard-wired multi-screen display technique existence: as 1) to show limited amount; 2) realize that cost is higher; 3) observation station is limited: can only concentrate observation, be unfavorable for that many places disperse observation.

On the other hand, also there are many deficiencies in the existing multi-screen display technique that realizes based on software, and for example dynamic images displayed limited amount simultaneously can't provide explanatory notes to distinguish identification, also can't describe movement locus of its figure image source etc.For example the security monitoring point spreads all over each corner in important street, and it is disposed quantity and is on the increase, but does not have suitable in real time concentrated monitoring scheme so far; For example in athletic meeting is live, the spectators that are distributed in various places can't select on computer screen and see and identify the live scene of a plurality of athletics events, and can only watch same live picture again; Also have; For example when cruiser is advanced on the way; The image of each monitoring point all real-time Transmission is given the long-range personnel that watch; Watch personnel can see the image of synchronous playing, but image itself does not comprise the movement locus of current monitoring point, need explain that surveillance map is as residing monitoring place by manpower.Can associate the movement locus in realtime graphic and image source, can also understand the movement locus of this realtime graphic when letting the user watch realtime graphic, promptly let image have the automatic interpretability of locating information, be the work that realistic meaning is arranged very much.

Now; The kind of vision signal is more and more abundanter, original camera shooting and video signal is for example arranged, meet many types such as the TV collection vision signal of TV specification, the network video signal that meets various compliant compressions, the real-time monitored picture of screen of catching screen-picture, the multimedia document of having recorded in addition that meets various broadcast formats, online Streaming Media.In the multi-screen display technique, how the dynamic image data compatibility of these different-formats is got up, be implemented in to mix in the same screen and play, remaining one has problem to be solved.

Summary of the invention

Technical matters to be solved by this invention is to provide a kind of positioning identification display method towards multi-dynamic image.This method has solved in same display interface the positioning identification problem when playing a plurality of different types of dynamic image.

For realizing above-mentioned goal of the invention, the present invention adopts following technical scheme:

A kind of positioning identification display method towards multi-dynamic image is characterized in that comprising following step:

(1) make the display interface that can comprise image identification information, drafting is used to play the viewing area of dynamic image on display interface, and gives viewing area ID; For certain dynamic image, at first give dynamic image ID, then it is mapped to the viewing area of appointment;

(2) newly-increased regular node in rule chain is preserved the rule chain through revising; Said regular node has comprised the information of dynamic image ID, viewing area ID and mapping relations;

(3) when dynamic image arrives,, find corresponding regular node according to dynamic image ID search rule chain; Read then and the resolution rules node, from regular node, read corresponding display ID, and obtain the relative position of this viewing area ID corresponding display, in this viewing area, show this dynamic image.

When said dynamic image comprises the view data of multiple form, at first discern, decomposition data and according to uniform data weight of structure new organization data gets into playing flow again after data-switching finishes then.

When carrying out Kinematic Positioning identification demonstration, be the Kinematic Positioning map that comprises dynamic image identification information at first with replacing background; In regular node, set up the Kinematic Positioning coordinate, this Kinematic Positioning coordinate receives locating information; Strictly all rules node, the electronic chart that comprises locating information constitute a rule chain.

When dynamic image and locating information arrival, from rule chain, obtain regular node, resolve the dynamic image viewing area that obtains this dynamic image in the regular node; Relatively whether the position of dynamic image viewing area consistent with locating information? If inconsistent, then the dynamic image viewing area moves to the locating information place and shows; If consistent, then the dynamic image viewing area is moved to the locating information place, dynamic image is presented at this locating information place.

When locating information arrived next time, the dynamic image viewing area was according to this locating information shift position, and dynamic image is presented at up-to-date locating information place thereupon.

Said dynamic image also transmits the locating information of dynamic image when transmitting view data.

Said locating information is through comprising that GPS location, radar navigation location, direction finding are positioned at interior technological means and obtain.

The present invention is placed on one with dynamic images multiple type, most amounts and play area can independently be set, can describe in the display interface related between broadcasting pictures title or broadcasting pictures.Dynamic images displayed is easy to positioning identification in this display interface, and has the automatic interpretability of locating information.Therefore, the present invention is the useful improvement that conventional images is shown location technology.

Description of drawings

Below in conjunction with accompanying drawing and embodiment the present invention is done further detailed description.

Fig. 1 is the logical organization synoptic diagram of multi-dynamic image positioning display method provided by the present invention;

Fig. 2 is an employed display interface synoptic diagram among the present invention;

Fig. 3 has shown an example of employed rule chain among the present invention;

Fig. 4 has shown the basic procedure of setting up regular node and rule chain;

Fig. 5 has shown the basic procedure that demonstration is provided according to rule chain;

Fig. 6 has shown the basic procedure that demonstration is provided according to the rule chain that comprises locating information;

Fig. 7 is for adopting an example of the display interface that location method obtained;

Fig. 8 is for to different types of dynamic image, decomposition data and according to the operational flowchart of uniform data weight of structure new organization data;

Fig. 9 is an example that realizes that in display interface polytype dynamic image shows with the screen broadcast.

Embodiment

As shown in Figure 1, multi-dynamic image positioning display method provided by the present invention comprises the work of four aspects, is respectively that the direction finding of display process, the dynamic image of processing, the dynamic image of man-machine interface is handled and shown to the unified of various dynamic images.In Fig. 1, thick lines are represented dynamic image data, and hachure is represented such as control datas such as rule chain, direction findings.Launch detailed explanation in the face of this down.

One. the processing of man-machine interface

Man-machine interface among the present invention is the man-machine dialog interface of user's operation.Can insert the background that comprises identification information by hand on this interface,, and introduce the view data demonstration in background hand cut dynamic image viewing area.More specifically, the processing of man-machine interface comprises following operation:

1. make the display interface that can comprise image identification information.

2. draw the dynamic image viewing area:

On display interface, determine display position and area size for dynamic image.In the present invention, the drawing board of field of computer aided design technology (for example Microsoft Visio, AutoCAD, Windows operating system carry image editing softwares such as drawing board program mspaint.exe) is introduced dynamic image and show the field.The dynamic image viewing area can be that draw on the basis with the drawing board technology.The dynamic image viewing area of drawing out like this, what are unrestricted for quantity, and area occupied is also unrestricted: greatly then can occupy whole display window, little then can naked eyes the resolution and get final product.The dynamic image viewing area of being drawn, available mouse drag moves, and also can change area occupied at any time.

3. realize the mapping of dynamic image:

For certain dynamic image, at first give its dynamic image ID (videoID) as sign usefulness, then with its dynamic image viewing area that is mapped to appointment, promptly let this dynamic image show in the dynamic image viewing area of appointment.Dynamic image can be filled just as container in the dynamic image viewing area, and can replace existing dynamic image is another dynamic image.

Fig. 2 has shown an employed display interface synoptic diagram among the present invention.This interface is made up of three parts: background B1, dynamic image viewing area Z1, Z2, Z3, dynamic image V1, V2, V3 etc.Display interface W1 is one and comprises a plurality of dynamic images viewing area, plays user's display interface of one or more dynamic images in each dynamic image viewing area.This user's display interface is formed the organic whole that a width of cloth has the internal association meaning to the dynamic image of multiple class, most amounts through predetermined rule, has semantic virtual environment thereby constituted one.As shown in Figure 2, this display interface is made up of three parts: background B1, dynamic image viewing area Z1, Z2, Z3, dynamic image V1, V2, V3.Display interface can be realized on the single computer screen, also can in network, show synchronously on many computer screens arbitrarily, therefore can be widely used in demonstration field in real time such as video monitoring, video conference, screen monitoring.

Wherein, background B1 is static pattern or dynamic image, for example can be the cartographic information related with the GIS locating information; Can be the descriptive informations such as title (source name 1, source name 2, source name 3 etc.) of play content; Can be the physical location information of play content; Can be annexation descriptor of play content etc.; It also can be art designing's pattern of no special meaning etc.

The dynamic image viewing area can be figure of arbitrary regular geometric figure such as rectangle, square, circle, polygon or irregular geometric figures or dynamic change etc.

Dynamic image can originating from local or the multiple image source of network, for example can be the PCcamera image pickup signal; Can pass through the signal that video frequency collection card is imported into for video camera; Can be the multimedia document data; Can be real-time screen-picture of screen printing or the like.H.264 the data layout of dynamic image can comprise, h.263, still image form such as dynamic image (multimedia) compressed format such as xvid, divx, wmv3, mss2 or bmp, jpg.

Two. the display process of dynamic image

How dynamic image is presented at one by one the dynamic image viewing area of appointment? The present invention has adopted the demonstration rules technology; The dynamic image viewing area of single channel dynamic image, appointment is formed a demonstration regular node, and corresponding many regular nodes of multichannel dynamic image are the composition rule chain then.

Show that rules technology mainly comprises two-part work, the work of first is to set up regular node and rule chain, and the work of second portion is according to rule chain demonstration to be provided.Particularly can comprise the following aspects: the first, lay background (can be dynamic background) image at the bottom of display interface with positional information or dynamic image descriptor; The second, draw the dynamic image viewing area (shape can dynamic change) of definite shape and allocated display area ID on the upper strata of bottom background; The 3rd, for choosing corresponding dynamic image (having dynamic image ID) in above-mentioned dynamic image viewing area; The 4th, newly-increased node in rule chain, this nodes records the correlation rule of dynamic image ID, viewing area ID and background.

Set as shown in Figure 3, that employed rule chain is made up of one one rule among the present invention.Rule in rule chain all can increase newly at any time, deletes, modification etc., so also be called as the DP chain.Rule chain is made up of regular node, and each regular node has comprised the description of dynamic image and identifying information (being dynamic image ID), the identifying information (being viewing area ID) of dynamic image viewing area and the information of mapping relations.

Shown the data structure that is used for the description rule chain below:

typedef _?_qyDisplayRules_struct_?_

{

Int type; // the type is a rule

struct {

Rect * zoneXY; // fixing dynamic image viewing area

Int videoID; // dynamic image

} rule;

Struct {

Int x; // reference coordinate x

Int y; // reference coordinate y

Char * backgroundFileName; // background paper name

}?background;

} RULEGROUP;

Fig. 4 has shown the basic procedure of setting up regular node and rule chain.This basic procedure comprises the steps: at first to choose background; Editing dynamic graphics is as the viewing area; Choose then and put into dynamic image viewing area dynamic images displayed; Dynamic image, dynamic image viewing area and/or location direction finding message combine and form a demonstration regular node, and all regular nodes, background constitute a rule chain automatically; Then newly-increased regular node in rule chain is preserved the rule chain through revising.

Fig. 5 has shown the basic procedure that demonstration is provided according to rule chain.When dynamic image arrives,, find corresponding regular node according to dynamic image ID search rule chain; Read then and the resolution rules node; From regular node, read corresponding display ID and contents such as border description of relevant moment; And obtain the relative position of the corresponding background of this viewing area ID; Describe the moment border then, just can show this dynamic image in the dynamic image viewing area of background.The identification information that shows simultaneously in the background can let current dynamic images displayed that corresponding explanation or explanation are arranged.

Introduce below how the service regeulations chain is realized the display process to dynamic image.

1. how to show newly-increased dynamic image:

When needing new display, dynamic image is filled in the new dynamic image viewing area of can painting then and there, and then rule chain can be added a demonstration regular node immediately automatically, and moment just can demonstrate the broadcasting pictures of newly-increased dynamic image.

2. how to adjust the dynamic image layout:

In the time of need readjusting the position at place, dynamic image viewing area; Can use mouse drag dynamic image viewing area; Move to suitable position; This moment, regular node information changed automatically, dynamic image just as water along with container moves along with move in new position display the dynamic image viewing area.

3. how to change displaying contents:

When needing to change the Different Dynamic image; Can the displaying contents of dynamic image viewing area be replaced by another dynamic image; This moment, regular node information changed automatically; In progress dynamic image then stops immediately and disappears, and what substitute appearance is the real-time play picture of the dynamic image after changing.

4. replacing background:

During the multichannel dynamic image is play, can change retouching operations such as background, deletion background, this modification content is kept in the rule chain automatically and comes into force in real time, and the real-time play that does not influence current dynamic image shows.

5. multi-dynamic image viewing area operational motion more:

In the multichannel dynamic image is play; Can the shift position, widen, dwindle, various conversion such as increase, deletion; Content transformed is kept at automatically in the rule chain and comes into force in real time, and correspondingly dynamic image is followed this dynamic image viewing area automatically and moved demonstration, enlarged and displayed, dwindles demonstrations, increases the demonstration dynamic image, stops to show dynamic image etc.

Three. the direction finding of dynamic image is handled

It is to address such a problem that the direction finding of so-called dynamic image is handled; Promptly in progress dynamic image; Which place do you how to confirm it is positioned at with taking? Address this problem, can not rely on picture material, but need to rely on GIS (GeographicInformation System video camera; GIS-Geographic Information System) location, being presented at a background behind the location is on the display interface of Kinematic Positioning map.

For this reason, the present invention at first needs a cover to be used to realize the hardware platform of GIS information service.This hardware platform comprises GIS main frame, client, plotting apparatus, scanner, satellite receiver and the network equipment etc.Wherein the GIS main frame can be the microcomputer that workstation/server exclusive disjunction ability is stronger; Client can be the user terminal of global position systems such as the GPS or the Big Dipper, and they are installed on the video camera of taking dynamic image; The network equipment can comprise wiring system, bridge, router and switch etc.Build the routine techniques that above-mentioned hardware platform is the GIS-Geographic Information System field, just do not given unnecessary details in detail at this.

In the present invention, can adopt two kinds of image position methods.Wherein a kind of is the stationary positioned method, and a kind of in addition is location method.So-called stationary positioned method is meant a manual rectangle frame or the circular frame etc. drawn out on background B1, and this frame has the dynamic image viewing area of fixed position as a setting on the B1.When video camera moves, according to the locating information (being geographic position data) of these video cameras of acquisition such as relevant location technology such as GPS location, radar navigation location, direction finding location, the corresponding corresponding place that moves to display interface.What like this, watch that personnel see is the dynamic image content in this place.So-called location method is meant at first and finds background B1 to go up corresponding coordinate then through reading the locating information of video camera in the GIS location technology, then moves this coordinate of display window and is set to the center and shows.Like this, the beholder just can see that the position of object moving and changing.Dynamic image followed the trail of and described to this location method need with the position that changes, and is well suited for being applied in the occasions such as similar cruiser, high-altitude flight on-the-spot broadcasting.

In order to describe movement locus, at first need a locator data input: locating information.Promptly when the monitor video view data arrived, locating information also will arrive.This locating information can be from the aforementioned hardware platform that is used to realize the GIS information service.Secondly, the electronic chart that need have locating information is done the location background.

Aforesaid demonstration rules technology need be set up locating information and just gone for the Kinematic Positioning demonstration.That is, not only need comprise dynamic image, dynamic image display region information in its regular node, and need comprise direction finding message, the background in its rule chain not only need comprise identification information, and need comprise the electronic chart of direction finding location.

The data structure of rule chain that comprises direction finding message is as follows:

typedef _?_qyDisplayRules_struct_?_

{

Int type; // the type is a rule

struct {

Rect * zoneXY; // fixing dynamic image viewing area

Int videoID; // dynamic image

Rect * moveXY; // direction finding message

} rule;

Struct {

Int x; // reference coordinate x

Int y; // reference coordinate y

Char * backgroundFileName; // background literary composition

The part name

Int moveX; // direction finding coordinate x

Int moveY; // direction finding coordinate y

}?background;

} RULEGROUP;

Comprise the rule chain of locating information, the manual positioning identification that is not only applicable to dynamic image shows, and can carry out the Kinematic Positioning identification demonstration of dynamic image.

Concrete Kinematic Positioning identification shows, comprises following step:

1. replacing background is the Kinematic Positioning map that comprises dynamic image identification information.

2. in regular node, set up the Kinematic Positioning coordinate, this Kinematic Positioning coordinate automatic reception GI S information.Dynamic image, dynamic image viewing area and/or location direction finding message combine and form the demonstration regular node with locating information;

3. automatically constitute the rule chain with locating information: strictly all rules node, the electronic chart that comprises locating information constitute a rule chain automatically.

4. in a single day the elements of a fix change, and the dynamic image viewing area is automatically moved to correspondence position moveX, the moveY of electronic chart, on this position, play the present dynamic image.

Fig. 6 has shown the basic procedure that demonstration is provided according to the rule chain that comprises locating information.When dynamic image arrived, locating information such as GPS locating information, radar fix information etc. also arrived automatically.When dynamic image and locating information arrival, from rule chain, obtain regular node, resolve the dynamic image viewing area that obtains this dynamic image in the regular node.Relatively whether the position of dynamic image viewing area consistent with locating information? If inconsistent, then the dynamic image viewing area moves to the locating information place and shows; If consistent, then automatically the dynamic image viewing area is moved to the locating information place, and then dynamic image just is presented at this locating information place.When arriving Deng locating information next time, move automatically the dynamic image viewing area, and dynamic image is presented at up-to-date locating information place immediately.Can see that so, just dynamic image moves and instant the broadcast on a movement locus.The Kinematic Positioning of the dynamic image in promptly moving according to certain track shows.Fig. 7 is for adopting an example of the display interface that location method obtained.

Four. show to the unified of various dynamic images

Before address, the dynamic image among the present invention relates to multiple source and multiple picture format.Comprise like the source: the real-time monitored picture of the cinematic data of TV signal, VCD, DVD, multimedia file, Streaming Media, computer screen etc.Picture format comprises: avi, wmv, h.263, h.264 wait; How the view data compatibility of different-format is got up, be implemented in to mix in the same screen and play, remaining one has problem to be solved.

To this, adopt two kinds of solutions among the present invention.A kind of is in display interface, to be directed against the format conversion plug-in unit that multiple dynamic image is provided with multiple correspondence, just as mode compatible the play various video image that kind of existing web browser through plug-in unit is installed.The shortcoming of this solution is the arithmetic capability that the computing machine that shows service is provided is had relatively high expectations, and also causes deadlock in the operational process easily.A solution has provided the uniform data form to multiple dynamic image in addition.As shown in Figure 8; Though every kind of dynamic image all has self picture format or compressed format etc.; No matter but be the dynamic image of what type; All at first discern after arriving local computer, decomposition data and according to uniform data weight of structure new organization data then, thus be transformed into uniform data format.After data-switching finishes, get into the playing flow of standard again, thereby realize that the unified of multiple type of dynamic image shows.Fig. 9 is an example that realizes that in display interface polytype dynamic image shows with the screen broadcast.

Utilize multi-dynamic image positioning display method provided by the present invention; Under the prerequisite of real-time synchronous playing; The dynamic image of one or more types such as camera picture, screen-picture, multimedia document broadcasting pictures can be placed on one and play area can independently be set, and can describe between broadcasting pictures title or broadcasting pictures in the related virtual background, becomes a background univocal, relatedly describes display interface clear, integration.The play area that can independently be provided with here is meant following one or more situation: be provided with position, dynamic image viewing area or shift position, setting area size or varying sized, be provided with a dynamic image viewing area or a plurality of, deletion is one or more etc.

More than the positioning identification display method towards multi-dynamic image provided by the present invention has been carried out detailed explanation.As far as one of ordinary skill in the art, any conspicuous change of under the prerequisite that does not deviate from connotation of the present invention, it being done all will constitute to infringement of patent right of the present invention, with corresponding legal responsibilities.

Claims (7)

1. positioning identification display method towards multi-dynamic image, said display interface comprises at least one viewing area, plays at least one road dynamic image in each viewing area, it is characterized in that comprising following step:
(1) make the display interface that can comprise image identification information, drafting is used for the viewing area of dynamic image on display interface, and gives viewing area ID; For certain road dynamic image, at first give dynamic image ID, then it is mapped to the viewing area of appointment;
(2) newly-increased regular node in rule chain is preserved the rule chain through revising; Said regular node has comprised the information of dynamic image ID, viewing area ID and mapping relations;
(3) when road dynamic image in the multichannel dynamic image arrives,, find corresponding regular node according to dynamic image ID search rule chain; Read then and the resolution rules node, from regular node, read corresponding display ID, and obtain the relative position of this viewing area ID corresponding display, in this viewing area, show this dynamic image.
2. the positioning identification display method towards multi-dynamic image as claimed in claim 1 is characterized in that:
When said dynamic image comprises the view data of multiple form, at first discern, decomposition data and according to uniform data weight of structure new organization data gets into playing flow again after data-switching finishes then.
3. the positioning identification display method towards multi-dynamic image as claimed in claim 1 is characterized in that:
When carrying out Kinematic Positioning identification demonstration, be the Kinematic Positioning map that comprises dynamic image identification information at first with replacing background; In regular node, set up the Kinematic Positioning coordinate, this Kinematic Positioning coordinate receives locating information; Strictly all rules node, the electronic chart that comprises locating information constitute a rule chain.
4. the positioning identification display method towards multi-dynamic image as claimed in claim 3 is characterized in that:
When dynamic image and locating information arrival, from rule chain, obtain regular node, resolve the dynamic image viewing area that obtains this dynamic image in the regular node; Relatively whether the position of dynamic image viewing area consistent with locating information? If inconsistent, then the dynamic image viewing area moves to the locating information place and shows; If consistent, then the dynamic image viewing area is moved to the locating information place, and then dynamic image just is presented at this locating information place.
5. the positioning identification display method towards multi-dynamic image as claimed in claim 4 is characterized in that:
When treating that locating information arrives next time, the dynamic image viewing area is according to this locating information shift position, and dynamic image is presented at up-to-date locating information place thereupon.
6. the positioning identification display method towards multi-dynamic image as claimed in claim 3 is characterized in that:
Said dynamic image also transmits the locating information of dynamic image when transmitting view data.
7. the positioning identification display method towards multi-dynamic image as claimed in claim 3 is characterized in that:
Said locating information is through comprising that GPS location, radar navigation location, direction finding are positioned at interior technological means and obtain.
CN2010101031634A 2010-01-28 2010-01-28 Multi-dynamic image oriented positioning identification display method CN101777335B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2010101031634A CN101777335B (en) 2010-01-28 2010-01-28 Multi-dynamic image oriented positioning identification display method

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2010101031634A CN101777335B (en) 2010-01-28 2010-01-28 Multi-dynamic image oriented positioning identification display method

Publications (2)

Publication Number Publication Date
CN101777335A CN101777335A (en) 2010-07-14
CN101777335B true CN101777335B (en) 2012-08-22

Family

ID=42513777

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2010101031634A CN101777335B (en) 2010-01-28 2010-01-28 Multi-dynamic image oriented positioning identification display method

Country Status (1)

Country Link
CN (1) CN101777335B (en)

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102427519B (en) * 2011-08-01 2015-09-02 广东威创视讯科技股份有限公司 A kind of video monitoring display packing based on GIS map and device
US20140354662A1 (en) * 2012-02-02 2014-12-04 Mitsubishi Electric Corporation Display device
CN104427374B (en) * 2013-08-27 2018-03-20 海尔集团公司 Display control method, device and the multimedia equipment of content of multimedia
CN103886707B (en) * 2014-03-04 2016-07-13 深圳市敢为软件技术有限公司 The method and system of alarm
CN104243886B (en) * 2014-09-28 2018-07-20 中国电子科技集团公司第二十七研究所 A kind of high speed image parsing and video generation method based on plug-in part technology

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101052125A (en) * 2006-04-05 2007-10-10 深圳Tcl新技术有限公司 Adaptive multi picture dividing device
CN101102477A (en) * 2006-07-06 2008-01-09 北京北大方正电子有限公司 Monitoring map design platform and its layout method
CN101277429A (en) * 2007-03-27 2008-10-01 中国科学院自动化研究所 Method and system for amalgamation process and display of multipath video information when monitoring
CN101320505A (en) * 2008-07-04 2008-12-10 浙江大学 Partition video monitoring method based on multipath network video stream parallel processing
CN101340563A (en) * 2008-08-13 2009-01-07 北京佳讯飞鸿电气股份有限公司 Method for integrating video monitoring systems of different manufacturers in command scheduling system
CN101472090A (en) * 2007-12-27 2009-07-01 新奥特(北京)视频技术有限公司 Method for monitoring beforehand hardware self-adapting multi-channel multi-mode video of video server
CN101572823A (en) * 2009-06-11 2009-11-04 北京时代奥视数码技术有限公司 Video signal self-adaptive input interface and monitor and multi-picture display device using the same

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101052125A (en) * 2006-04-05 2007-10-10 深圳Tcl新技术有限公司 Adaptive multi picture dividing device
CN101102477A (en) * 2006-07-06 2008-01-09 北京北大方正电子有限公司 Monitoring map design platform and its layout method
CN101277429A (en) * 2007-03-27 2008-10-01 中国科学院自动化研究所 Method and system for amalgamation process and display of multipath video information when monitoring
CN101472090A (en) * 2007-12-27 2009-07-01 新奥特(北京)视频技术有限公司 Method for monitoring beforehand hardware self-adapting multi-channel multi-mode video of video server
CN101320505A (en) * 2008-07-04 2008-12-10 浙江大学 Partition video monitoring method based on multipath network video stream parallel processing
CN101340563A (en) * 2008-08-13 2009-01-07 北京佳讯飞鸿电气股份有限公司 Method for integrating video monitoring systems of different manufacturers in command scheduling system
CN101572823A (en) * 2009-06-11 2009-11-04 北京时代奥视数码技术有限公司 Video signal self-adaptive input interface and monitor and multi-picture display device using the same

Also Published As

Publication number Publication date
CN101777335A (en) 2010-07-14

Similar Documents

Publication Publication Date Title
US10795958B2 (en) Intelligent distributed geographic information system
US9858717B2 (en) System and method for producing multi-angle views of an object-of-interest from images in an image dataset
US20190139317A1 (en) Synchronized, interactive augmented reality displays for multifunction devices
US10540804B2 (en) Selecting time-distributed panoramic images for display
JP6657475B2 (en) Method for transmitting omnidirectional video, method for receiving omnidirectional video, transmitting device for omnidirectional video, and receiving device for omnidirectional video
US8447792B2 (en) System and method for presenting user generated geo-located objects
US8462151B2 (en) Sending three-dimensional images over a network
Butz et al. A hybrid indoor navigation system
CA2848215C (en) Geospatial multiviewer
Dorling Stretching space and splicing time: from cartographic animation to interactive visualization
Rakkolainen et al. A 3D city info for mobile users
RU2219677C2 (en) Device for video signal access and control through computer network including image correction
US9406153B2 (en) Point of interest (POI) data positioning in image
JP4059631B2 (en) Interactive system
KR101865425B1 (en) Adjustable and progressive mobile device street view
US10008021B2 (en) Parallax compensation
US7119831B2 (en) Information providing apparatus, information providing method, storage medium, and computer program
Toyama et al. Geographic location tags on digital images
EP0141508B1 (en) Video map display
US7535473B2 (en) Collaborative environments in a graphical information system
EP2283466B1 (en) 3d content aggregation built into devices
JP4321028B2 (en) Video system, method for generating virtual reality, transport protocol, computer readable storage medium, and program
US10473465B2 (en) System and method for creating, storing and utilizing images of a geographical location
US9930311B2 (en) System and method for annotating a video with advertising information
US7194701B2 (en) Video thumbnail

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant